TW202220320A - (無) - Google Patents

Abstract

This air blowing system (1) comprises a first ion delivery device (100). The first ion delivery device (100) includes a first generation part (101) and a first air blowing part (105). The first generation part (101) generates ions. The first air blowing part (105) delivers first ion wind (F1), which is air that contains ions, toward a first seating area (SA1) where people can sit. The first seating area (SA1) represents an area that is obliquely downward from the first ion delivery device (100).

Description

送風系統Air supply system

本發明係關於一種送風系統。The present invention relates to an air supply system.

專利文獻1中記載了一種離子產生裝置。離子產生裝置嵌於天花板上，使離子自頂面產生。其結果，能高效地使離子遍佈整個房間。 [先前技術文獻] [專利文獻] Patent Document 1 describes an ion generator. The ion generating device is embedded in the ceiling, so that ions are generated from the top surface. As a result, ions can be efficiently distributed throughout the room. [Prior Art Literature] [Patent Literature]

[專利文獻1]日本特許公開公報「特開2013-152797號公報」[Patent Document 1] Japanese Patent Application Laid-Open Publication No. 2013-152797

[發明所欲解決之問題][Problems to be Solved by Invention]

本發明之目的在於，提供一種不僅對落座之人，對站立之人亦能有效地吹送離子之送風系統。 [解決問題之技術手段] An object of the present invention is to provide an air supply system that can effectively blow ions not only to those who are seated but also to those who are standing. [Technical means to solve problems]

根據本發明之一方案，送風系統包含第1離子送出裝置。上述第1離子送出裝置包含第1產生部與第1送風部。第1產生部產生離子。第1送風部朝向可供人落座之第1落座區域，送出包含上述離子之空氣即第1離子風。上述第1落座區域表示相對於上述第1離子送出裝置處在斜下方之區域。 [發明之效果] According to one aspect of the present invention, the air supply system includes a first ion sending device. The said 1st ion sending apparatus contains a 1st generation part and a 1st ventilation part. The first generation unit generates ions. The first air supply unit faces the first seating area where people can sit, and sends out the air containing the above-mentioned ions, that is, the first ionized air. The said 1st seating area shows the area|region diagonally downward with respect to the said 1st ion sending apparatus. [Effect of invention]

根據本發明，可提供一種不僅對落座之人，對站立之人亦能有效地吹送離子之送風系統。According to the present invention, it is possible to provide an air supply system that can effectively blow ions not only to a seated person but also to a standing person.

以下，參照圖式，對本發明之實施方式進行說明。再者，圖中，對於相同或等效部分，標註相同之參照符號，而不加以重複說明。又，為了便於說明，圖式中酌情標記了三維正交座標系(Ｘ,Ｙ,Ｚ)。而且，圖中，Ｘ軸及Ｙ軸與水平方向平行，Ｚ軸與鉛直方向平行。又，於本說明書中，俯視表示自鉛直上方觀察對象物。Hereinafter, embodiments of the present invention will be described with reference to the drawings. In addition, in the drawings, the same reference symbols are attached to the same or equivalent parts, and the description thereof will not be repeated. In addition, for convenience of description, the three-dimensional orthogonal coordinate system (X, Y, Z) is indicated in the drawings as appropriate. In addition, in the figure, the X axis and the Y axis are parallel to the horizontal direction, and the Z axis is parallel to the vertical direction. In addition, in this specification, a plan view shows that the object is viewed from vertically above.

[實施方式1] 參照圖1～圖5，對本發明之實施方式1之送風系統1進行說明。首先，參照圖1，說明送風系統1。圖1係表示送風系統1之俯視圖。如圖1所示，作為一例，送風系統1設置於移動體VC之內部。移動體VC可藉由動力源之動力而移動。動力源例如為引擎或馬達。於圖1之例中，移動體VC為巴士。但其實移動體VC並不特別限定，只要能載人移動即可，例如亦可為船、飛機或車輛(例如，鐵道或乘用車)。鐵道例如為火車、汽車或電車。 [Embodiment 1] 1-5, the ventilation system 1 concerning Embodiment 1 of this invention is demonstrated. First, with reference to FIG. 1, the ventilation system 1 is demonstrated. FIG. 1 is a plan view showing an air supply system 1 . As shown in FIG. 1, as an example, the ventilation system 1 is installed inside the moving body VC. The moving body VC can be moved by the power of the power source. The power source is, for example, an engine or a motor. In the example of FIG. 1, the moving body VC is a bus. However, in fact, the moving body VC is not particularly limited, as long as it can carry people and move, for example, it can also be a ship, an airplane or a vehicle (for example, a railway or a passenger car). Railways are for example trains, cars or trams.

移動體VC包含至少1個第1座席C1、門VD及操縱機構10。於圖1之例中，移動體VC包含複數個第1座席C1。人自門VD上下車。操縱機構10係用以操縱移動體VC之機構。操縱機構10例如包含把手。The moving body VC includes at least one first seat C1 , the door VD, and the operating mechanism 10 . In the example of FIG. 1, the moving body VC includes a plurality of first agents C1. People get on and off the train from the door VD. The manipulation mechanism 10 is a mechanism for manipulating the moving body VC. The operating mechanism 10 includes, for example, a handle.

複數個第1座席C1沿著第1方向D1而設置。於圖1之例中，第1方向D1表示沿著移動體VC之行進方向之方向。例如，第1方向D1與移動體VC之行進方向大致平行。又，於圖1之例中，第1方向D1表示沿著移動體VC之長度方向之方向。例如，第1方向D1與移動體VC之長度方向大致平行。第1方向D1相當於「特定方向」之一例。The plurality of first seats C1 are provided along the first direction D1. In the example of FIG. 1, the 1st direction D1 shows the direction along the advancing direction of the moving body VC. For example, the first direction D1 is substantially parallel to the traveling direction of the moving body VC. In addition, in the example of FIG. 1, the 1st direction D1 shows the direction along the longitudinal direction of the moving body VC. For example, the first direction D1 is substantially parallel to the longitudinal direction of the moving body VC. The first direction D1 corresponds to an example of the "specific direction".

各第1座席C1包含單個第1落座區域SA1或複數個第1落座區域SA1、單個第3落座區域SA3或複數個第3落座區域SA3。複數個第1落座區域SA1沿著第1方向D1隔開間隔而排列。複數個第3落座區域SA3沿著第1方向D1隔開間隔而排列。第1落座區域SA1與第3落座區域SA3沿著第1方向D1交替地配置。第1落座區域SA1及第3落座區域SA3可供人落座。Each first seat C1 includes a single first seating area SA1 or a plurality of first seating areas SA1, a single third seating area SA3 or a plurality of third seating areas SA3. The plurality of first seating areas SA1 are arranged at intervals along the first direction D1. The plurality of third seating areas SA3 are arranged at intervals along the first direction D1. The first seating area SA1 and the third seating area SA3 are alternately arranged along the first direction D1. The first seating area SA1 and the third seating area SA3 are available for seating.

移動體VC較佳為進而包含至少1個第2座席C2。於圖1之例中，移動體VC包含複數個第2座席C2。複數個第2座席C2沿著第1方向D1而設置。It is preferable that the moving body VC further includes at least one second agent C2. In the example of FIG. 1, the moving body VC includes a plurality of second agents C2. The plurality of second seats C2 are provided along the first direction D1.

各第2座席C2包含單個第2落座區域SA2或複數個第2落座區域SA2、單個第4落座區域SA4或複數個第4落座區域SA4。複數個第2落座區域SA2沿著第1方向D1隔開間隔而排列。複數個第4落座區域SA4沿著第1方向D1隔開間隔而排列。第2落座區域SA2與第4落座區域SA4沿著第1方向D1交替地配置。第2落座區域SA2及第4落座區域SA4可供人落座。Each second seat C2 includes a single second seating area SA2 or a plurality of second seating areas SA2, a single fourth seating area SA4 or a plurality of fourth seating areas SA4. The plurality of second seating areas SA2 are arranged at intervals along the first direction D1. The plurality of fourth seating areas SA4 are arranged at intervals along the first direction D1. The second seating area SA2 and the fourth seating area SA4 are alternately arranged along the first direction D1. The second seating area SA2 and the fourth seating area SA4 are available for seating.

於圖1之例中，第1落座區域SA1與第4落座區域SA4於第2方向D2上對向。第2落座區域SA2與第3落座區域SA3於第2方向D2上對向。第2方向D2與第1方向D1交叉。於圖1之例中，第2方向D2與第1方向D1大致正交。又，第2方向D2與水平方向大致平行。In the example of FIG. 1, the 1st seating area SA1 and the 4th seating area SA4 oppose in the 2nd direction D2. The second seating area SA2 and the third seating area SA3 face each other in the second direction D2. The second direction D2 intersects the first direction D1. In the example of FIG. 1, the 2nd direction D2 and the 1st direction D1 are substantially orthogonal to each other. In addition, the second direction D2 is substantially parallel to the horizontal direction.

送風系統1包含至少1個第1離子送出裝置100。於圖1之例中，送風系統1包含複數個第1離子送出裝置100。第1離子送出裝置100送出包含離子之空氣。具體而言，複數個第1離子送出裝置100分別朝向複數個第1落座區域SA1，送出包含離子之空氣。於本說明書中，離子例如為藉由施加高電壓，引發放電而產生之微粒離子。離子例如可包含帶負電之離子(負離子)、帶正電之離子(正離子)、或負離子及正離子。The ventilation system 1 includes at least one first ion sending device 100 . In the example of FIG. 1 , the ventilation system 1 includes a plurality of first ion sending devices 100 . The first ion sending device 100 sends out air containing ions. Specifically, the plurality of first ion sending devices 100 send air containing ions toward the plurality of first seating regions SA1, respectively. In the present specification, the ions are, for example, particulate ions generated by applying a high voltage to induce discharge. The ions may include, for example, negatively charged ions (negative ions), positively charged ions (positive ions), or both negative and positive ions.

以下，有時會將第1離子送出裝置100所送出之「包含離子之空氣」記作第1離子風F1。Hereinafter, the "air containing ions" sent out by the first ion sending device 100 may be referred to as the first ion wind F1.

送風系統1較佳為進而包含至少1個第2離子送出裝置200。於圖1之例中，送風系統1包含複數個第2離子送出裝置200。第2離子送出裝置200送出包含離子之空氣。具體而言，複數個第2離子送出裝置200分別朝向複數個第2落座區域SA2，送出包含離子之空氣。It is preferable that the ventilation system 1 further includes at least one second ion sending device 200 . In the example of FIG. 1 , the ventilation system 1 includes a plurality of second ion sending devices 200 . The second ion sending device 200 sends out air containing ions. Specifically, the plurality of second ion sending devices 200 send air containing ions toward the plurality of second seating areas SA2, respectively.

以下，有時會將第2離子送出裝置200所送出出之「包含離子之空氣」記作第2離子風F2。Hereinafter, the "air containing ions" sent out by the second ion sending device 200 may be referred to as the second ion wind F2.

第1離子送出裝置100及第2離子送出裝置200設置於移動體VC之內部空間之上方。具體而言，第1離子送出裝置100及第2離子送出裝置200設置於較第1座席C1及第2座席C2更靠上方之位置。即，第1離子送出裝置100及第2離子送出裝置200設置於較第1落座區域SA1～第4落座區域SA4更靠上方之位置。第1離子送出裝置100及第2離子送出裝置200之詳細配置將於下文加以敘述。The 1st ion sending apparatus 100 and the 2nd ion sending apparatus 200 are installed above the internal space of the moving body VC. Specifically, the 1st ion sending apparatus 100 and the 2nd ion sending apparatus 200 are installed in the position higher than the 1st seat C1 and the 2nd seat C2. That is, the 1st ion sending apparatus 100 and the 2nd ion sending apparatus 200 are installed in the position higher than the 1st seating area SA1 - the 4th seating area SA4. The detailed arrangement|positioning of the 1st ion sending apparatus 100 and the 2nd ion sending apparatus 200 is mentioned later.

其次，參照圖2，說明第1離子送出裝置100。圖2係表示第1離子送出裝置100之圖。於圖2中，模式化示出了第1離子送出裝置100之剖面。如圖2所示，第1離子送出裝置100包含第1產生部101、第1送風部105、第1殼體110及第1導管120。又，第1離子送出裝置100具有第1吸入口131與第1吹出口132。Next, with reference to FIG. 2, the 1st ion sending apparatus 100 is demonstrated. FIG. 2 is a diagram showing the first ion sending device 100 . In FIG. 2, the cross section of the 1st ion sending apparatus 100 is shown schematically. As shown in FIG. 2 , the first ion sending device 100 includes a first generating unit 101 , a first blowing unit 105 , a first casing 110 , and a first duct 120 . Moreover, the 1st ion sending apparatus 100 has the 1st suction port 131 and the 1st blower outlet 132.

第1產生部101、第1送風部105及第1導管120收容於第1殼體110。The first generation part 101 , the first air blowing part 105 and the first duct 120 are accommodated in the first casing 110 .

第1產生部101產生離子。第1產生部101產生第1極性離子及/或第2極性離子。第2極性表示與第1極性相反之極性。第1極性離子例如為正離子。第2極性離子例如為負離子。於本說明書中，藉由離子，能抑制例如空氣中之病毒及細菌、物體上附著之病毒及細菌、以及人體上附著之病毒及細菌之活動。此外，例如，藉由離子，能除菌、除臭、抑制靜電及/或使肌膚保濕。The first generating unit 101 generates ions. The first generating unit 101 generates first polar ions and/or second polar ions. The second polarity represents the opposite polarity to the first polarity. The first polar ion is, for example, a positive ion. The second polar ion is, for example, a negative ion. In the present specification, ions can suppress the activities of, for example, viruses and bacteria in the air, viruses and bacteria attached to objects, and viruses and bacteria attached to a human body. In addition, for example, by means of ions, it is possible to sterilize, deodorize, suppress static electricity, and/or moisturize the skin.

具體而言，第1產生部101包含第1電極102與第2電極103。第1電極102與第2電極103相隔離而配置。第1電極102藉由放電而產生第1極性離子。第2電極103藉由放電而產生第2極性離子。再者，第1產生部101包含用以供第1電極102及第2電極103進行放電之電源電路(未圖示)。Specifically, the first generation part 101 includes a first electrode 102 and a second electrode 103 . The first electrode 102 and the second electrode 103 are arranged to be separated from each other. The first electrode 102 generates first polar ions by discharge. The second electrode 103 generates second polarity ions by discharge. Furthermore, the first generation part 101 includes a power supply circuit (not shown) for discharging the first electrode 102 and the second electrode 103 .

第1導管120自第1送風部105延伸至第1吹出口132。第1導管120相對於水平方向朝斜下方傾斜。The first duct 120 extends from the first air blower 105 to the first air outlet 132 . The first duct 120 is inclined obliquely downward with respect to the horizontal direction.

第1吹出口132配置於第1殼體110之下部。第1吹出口132相對於水平方向朝向斜下方。第1吸入口131配置於第1殼體110之側面。第1吸入口131朝向水平方向。The first air outlet 132 is arranged in the lower part of the first casing 110 . The first air outlet 132 faces obliquely downward with respect to the horizontal direction. The first suction port 131 is arranged on the side surface of the first casing 110 . The first suction port 131 faces the horizontal direction.

第1送風部105沿著第1導管120吹送空氣，並將空氣自第1吹出口132吹出。具體而言，第1送風部105自第1吸入口131吸入空氣，使吸入之空氣通過第1導管120，而將其自第1吹出口132吹出。第1送風部105例如為離心式風扇。離心式風扇例如包含馬達與葉輪。The 1st blower part 105 blows air along the 1st duct 120, and blows out the air from the 1st blower outlet 132. Specifically, the first air blower 105 sucks air from the first suction port 131 , passes the sucked air through the first duct 120 , and blows it out from the first outlet 132 . The first air blower 105 is, for example, a centrifugal fan. The centrifugal fan includes, for example, a motor and an impeller.

於第1導管120內，突出有第1電極102及第2電極103。因此，於第1導管120內，會產生第1極性離子及第2極性離子。其結果，第1送風部105送出包含離子之空氣即第1離子風F1，並將第1離子風F1自第1吹出口132吹出。具體而言，第1送風部105自第1吹出口132向斜下方吹出第1離子風F1。於實施方式1中，第1離子風F1包含第1極性離子與第2極性離子。Inside the first catheter 120, the first electrode 102 and the second electrode 103 protrude. Therefore, in the first conduit 120, the first polar ions and the second polar ions are generated. As a result, the 1st ventilation part 105 sends out the 1st ion wind F1 which is the air containing ion, and blows out the 1st ion wind F1 from the 1st blower outlet 132. Specifically, the first air blower 105 blows out the first ion wind F1 obliquely downward from the first air outlet 132 . In Embodiment 1, the 1st ion wind F1 contains the 1st polar ion and the 2nd polar ion.

第1送風部105吹出第1離子風F1之吹出角度θ例如為相對於水平方向朝向下方形成約45度以上且約65度以下之角度。吹出角度θ典型為約55度。例如，吹出角度θ係第1導管120相對於水平方向朝向下方傾斜時第1導管120之吹出角度。該情形時之吹出角度表示相對於水平方向所形成之角度。再者，例如，吹出角度θ係基於移動體VC之內部空間之尺寸、第1座席C1及第2座席C2之尺寸及配置、以及第1落座區域SA1～第4落座區域SA4之尺寸及配置而適當設定，並不特別限定。又，關於吹出角度θ，能以可使吹出角度θ成為目標角度地送出第1離子風F1之方式設計第1吹出口132之形狀本身，或，亦能於第1吹出口132設置風向調整板，以使吹出角度θ成為目標角度之方式適當調整風向調整板。The blowing angle θ at which the first air blower 105 blows out the first ion wind F1 is, for example, an angle of about 45 degrees or more and about 65 degrees or less formed toward the downward direction with respect to the horizontal direction. The blow-out angle θ is typically about 55 degrees. For example, the blowing angle θ is the blowing angle of the first duct 120 when the first duct 120 is inclined downward with respect to the horizontal direction. The blow-out angle in this case represents the angle formed with respect to the horizontal direction. Furthermore, for example, the blowing angle θ is determined based on the size of the internal space of the moving body VC, the size and arrangement of the first seat C1 and the second seat C2, and the size and arrangement of the first seating area SA1 to the fourth seating area SA4. Appropriate settings are not particularly limited. Moreover, regarding the blow-out angle θ, the shape itself of the first blow-off port 132 can be designed so that the blow-off angle θ can be set to the target angle and the first ion wind F1 can be sent out, or the first blow-off port 132 can be provided with a wind direction adjustment plate. , and adjust the wind direction adjustment plate appropriately so that the blowing angle θ becomes the target angle.

圖1所示之第2離子送出裝置200之構成與參照圖2所說明之第1離子送出裝置100之構成相同。The configuration of the second ion sending device 200 shown in FIG. 1 is the same as the configuration of the first ion sending device 100 described with reference to FIG. 2 .

即，如圖2所示，第2離子送出裝置200包含第2產生部201、第2送風部205、第2殼體210及第2導管220。又，第2離子送出裝置200具有第2吸入口231與第2吹出口232。That is, as shown in FIG. 2, the 2nd ion sending apparatus 200 contains the 2nd generation part 201, the 2nd ventilation part 205, the 2nd case 210, and the 2nd duct 220. Moreover, the 2nd ion sending apparatus 200 has the 2nd suction port 231 and the 2nd blower outlet 232.

第2產生部201、第2送風部205及第2導管220收容於第2殼體210。The second generation part 201 , the second air blowing part 205 and the second duct 220 are accommodated in the second casing 210 .

第2產生部201產生離子。第2產生部201產生第1極性離子及/或第2極性離子。具體而言，第2產生部201包含第3電極202與第4電極203。第3電極202與第4電極203相隔離而配置。第3電極202藉由放電而產生第1極性離子。第4電極203放電而產生第2極性離子。此外，第2產生部201之構成與第1產生部101之構成相同。The second generation unit 201 generates ions. The second generation unit 201 generates first polar ions and/or second polar ions. Specifically, the second generation part 201 includes a third electrode 202 and a fourth electrode 203 . The third electrode 202 and the fourth electrode 203 are arranged to be separated from each other. The third electrode 202 generates first polarity ions by discharge. The fourth electrode 203 is discharged to generate second polarity ions. In addition, the configuration of the second generation unit 201 is the same as that of the first generation unit 101 .

第2導管220自第2送風部205延伸至第2吹出口232。第2導管220相對於水平方向朝斜下方傾斜。The second duct 220 extends from the second blower portion 205 to the second outlet 232 . The second duct 220 is inclined obliquely downward with respect to the horizontal direction.

第2吹出口232配置於第2殼體210之下部。第2吹出口232相對於水平方向朝向斜下方。第2吸入口231配置於第2殼體210之側面。第2吸入口231朝向水平方向。The second air outlet 232 is arranged in the lower part of the second casing 210 . The second air outlet 232 faces obliquely downward with respect to the horizontal direction. The second suction port 231 is arranged on the side surface of the second casing 210 . The second suction port 231 faces the horizontal direction.

第2送風部205沿著第2導管220吹送空氣，並將空氣自第2吹出口232吹出。具體而言，第2送風部205自第2吸入口231吸入空氣，使吸入之空氣通過第2導管220，而將其自第2吹出口232吹出。此外，第2送風部205之構成與第1送風部105之構成相同。The second air blower 205 blows air along the second duct 220 and blows the air out from the second blowing port 232 . Specifically, the second blower 205 sucks air from the second suction port 231 , passes the sucked air through the second duct 220 , and blows it out from the second outlet 232 . In addition, the structure of the 2nd ventilation part 205 is the same as that of the structure of the 1st ventilation part 105. As shown in FIG.

於第2導管220內，突出有第3電極202及第4電極203。因此，於第2導管220內，會產生第1極性離子及第2極性離子。其結果，第2送風部205送出包含離子之空氣即第2離子風F2，並將第2離子風F2自第2吹出口232吹出。具體而言，第2送風部205自第2吹出口232向斜下方吹出第2離子風F2。於實施方式1中，第2離子風F2包含第1極性離子與第2極性離子。Inside the second conduit 220, the third electrode 202 and the fourth electrode 203 protrude. Therefore, in the second conduit 220, ions of the first polarity and ions of the second polarity are generated. As a result, the 2nd ventilation part 205 sends out the 2nd ion wind F2 which is the air containing ion, and blows out the 2nd ion wind F2 from the 2nd blower outlet 232. Specifically, the second air blower 205 blows out the second ion wind F2 obliquely downward from the second air outlet 232 . In Embodiment 1, the 2nd ion wind F2 contains the 1st polar ion and the 2nd polar ion.

第2送風部205吹出第2離子風F2之吹出角度θ例如為相對於水平方向朝向下方形成約45度以上且約65度以下之角度。吹出角度θ典型為約55度。例如，吹出角度θ係第2導管220相對於水平方向朝向下方傾斜時第2導管220之吹出角度。該情形時之吹出角度表示相對於水平方向所形成之角度。此外，關於第2離子風F2之吹出角度θ，與第1離子風F1之吹出角度θ相同。The blowing angle θ at which the second air blower 205 blows out the second ion wind F2 is, for example, an angle of about 45 degrees or more and about 65 degrees or less formed toward the downward direction with respect to the horizontal direction. The blow-out angle θ is typically about 55 degrees. For example, the blowing angle θ is the blowing angle of the second duct 220 when the second duct 220 is inclined downward with respect to the horizontal direction. The blow-out angle in this case represents the angle formed with respect to the horizontal direction. In addition, the blowing angle θ of the second ion wind F2 is the same as the blowing angle θ of the first ion wind F1.

其次，參照圖3，說明第1離子送出裝置100送出第1離子風F1之送風狀態。圖3係沿著圖1之III-III線之模式化剖視圖。於圖3中，第1離子風F1係以高密度之點狀陰影表示。Next, with reference to FIG. 3, the ventilation state in which the 1st ion sending apparatus 100 sends out the 1st ion wind F1 is demonstrated. FIG. 3 is a schematic cross-sectional view taken along line III-III of FIG. 1 . In FIG. 3 , the first ion wind F1 is indicated by the high-density dot hatching.

如圖3所示，例如，第1離子送出裝置100設置於移動體VC之頂面50。再者，例如，第1離子送出裝置100亦可設置於支持吊環之水平杆與頂面50之間。又，例如，第1離子送出裝置100亦可設置於對支持吊環之水平杆加以支持之垂直杆上。該情形時，垂直杆固定於頂面50與水平杆之間。As shown in FIG. 3, for example, the 1st ion sending apparatus 100 is provided in the ceiling surface 50 of the moving body VC. Furthermore, for example, the 1st ion sending apparatus 100 may be provided between the horizontal rod which supports a suspension ring, and the top surface 50. Moreover, for example, the 1st ion sending apparatus 100 may be provided in the vertical rod which supports the horizontal rod which supports a suspension ring. In this case, the vertical rod is fixed between the top surface 50 and the horizontal rod.

第1離子送出裝置100之第1送風部105朝向第1落座區域SA1送出第1離子風F1。第1落座區域SA1表示相對於第1離子送出裝置100處在斜下方之區域。因此，根據實施方式1，剖視下，第1送風部105朝向第1落座區域SA1，向斜下方送出第1離子風F1。其結果，不僅對落座之人HM1，對站立之人HM2亦能有效地吹送離子。例如，自第1離子送出裝置100至第1落座區域SA1之第1離子風F1之離子濃度為30000個/cm ³。再者，第1離子風F1之風速並不特別限定，只要第1離子風F1到達第1落座區域SA1即可。 The 1st ventilation part 105 of the 1st ion sending apparatus 100 sends out the 1st ion wind F1 toward the 1st seating area SA1. The 1st seating area SA1 shows the area|region diagonally downward with respect to the 1st ion sending apparatus 100. Therefore, according to Embodiment 1, the 1st ventilation part 105 sends out the 1st ion wind F1 diagonally downward toward the 1st seating area SA1 in cross-sectional view. As a result, not only the seated person HM1 but also the standing person HM2 can be effectively blown ions. For example, the ion concentration of the 1st ion wind F1 from the 1st ion sending apparatus 100 to the 1st seating area SA1 is 30000 pieces/cm< ³ >. In addition, the wind speed of the first ion wind F1 is not particularly limited, as long as the first ion wind F1 reaches the first seating area SA1.

於本說明書中，剖視表示觀察沿著與第1方向D1(圖1)大致正交之面加以切斷所得之對象物。In this specification, a cross-section means observing the object which cut|disconnected along the plane substantially orthogonal to 1st direction D1 (FIG. 1).

具體而言，剖視下，第1送風部105藉由相對於第2方向D2朝向斜下方送出第1離子風F1，而使第1離子風F1到達第1落座區域SA1。Specifically, the 1st ventilation part 105 sends out the 1st ion wind F1 diagonally downward with respect to the 2nd direction D2 in cross-sectional view, and makes the 1st ion wind F1 reach 1st seating area SA1.

其次，參照圖4，說明第2離子送出裝置200送出第2離子風F2之送風狀態。圖4係沿著圖1之IV-IV線之模式化剖視圖。於圖4中，第2離子風F2係以高密度之點狀陰影表示。Next, with reference to FIG. 4, the ventilation state in which the 2nd ion sending apparatus 200 sends out the 2nd ion wind F2 is demonstrated. FIG. 4 is a schematic cross-sectional view taken along line IV-IV of FIG. 1 . In FIG. 4 , the second ion wind F2 is indicated by high-density dot hatching.

如圖4所示，例如，第2離子送出裝置200設置於移動體VC之頂面50。再者，第2離子送出裝置200之其他設置例與第1離子送出裝置100之設置例相同。As shown in FIG. 4, for example, the 2nd ion sending apparatus 200 is provided in the ceiling surface 50 of the moving body VC. In addition, the other installation example of the 2nd ion sending apparatus 200 is the same as the installation example of the 1st ion sending apparatus 100.

第2離子送出裝置200之第2送風部205朝向第2落座區域SA2送出第2離子風F2。第2落座區域SA2表示相對於第2離子送出裝置200處在斜下方之區域。因此，根據實施方式1，剖視下，第2送風部205朝第2落座區域SA2，向斜下方送出第2離子風F2。其結果，不僅對落座之人HM3，對站立之人HM4亦能有效地吹送離子。例如，自第2離子送出裝置200至第2落座區域SA2之第2離子風F2之離子濃度為30000個/cm ³。再者，第2離子風F2之風速並不特別限定，只要第2離子風F2到達第2落座區域SA2即可。 The 2nd ventilation part 205 of the 2nd ion sending apparatus 200 sends out the 2nd ion wind F2 toward the 2nd seating area SA2. The 2nd seating area SA2 shows the area|region diagonally downward with respect to the 2nd ion sending apparatus 200. Therefore, according to Embodiment 1, the 2nd blower part 205 sends out the 2nd ion wind F2 diagonally downward toward the 2nd seating area SA2 in cross-sectional view. As a result, not only the seated person HM3 but also the standing person HM4 can be effectively blown ions. For example, the ion concentration of the second ion wind F2 from the second ion sending device 200 to the second seating area SA2 is 30,000 ions/cm ³ . In addition, the wind speed of the second ion wind F2 is not particularly limited, as long as the second ion wind F2 reaches the second seating area SA2.

具體而言，剖視下，第2送風部205藉由相對於第2方向D2朝向斜下方送出第2離子風F2，而使第2離子風F2到達第2落座區域SA2。Specifically, the second air blower 205 sends out the second ion wind F2 obliquely downward with respect to the second direction D2 in a cross-sectional view, so that the second ion wind F2 reaches the second seating area SA2.

又，於實施方式1中，如圖4所示，圖1及圖3所示之第1離子送出裝置100送出之第1離子風F1會到達第1座席C1之第3落座區域SA3。因此，對落座於第3落座區域SA3之人，亦能藉由第1離子風F1吹送離子。第3落座區域SA3中之第1離子風F1之離子濃度低於第2落座區域SA2中之第2離子風F2之離子濃度。第3落座區域SA3中之第1離子風F1之離子濃度例如為23000個/cm ³。再者，於圖4中，第1離子風F1係以低密度之點狀陰影表示。 Moreover, in Embodiment 1, as shown in FIG. 4, the 1st ion wind F1 sent from the 1st ion sending apparatus 100 shown in FIG. 1 and FIG. 3 will reach the 3rd seating area SA3 of the 1st seat C1. Therefore, ions can also be blown by the first ion wind F1 to those who are seated in the third seating area SA3. The ion concentration of the 1st ion wind F1 in the 3rd seating area SA3 is lower than the ion density|concentration of the 2nd ion wind F2 in the 2nd seating area SA2. The ion concentration of the first ion wind F1 in the third seating area SA3 is, for example, 23000 ions/cm ³ . In addition, in FIG. 4, the 1st ion wind F1 is shown by the dot-shaped hatching of low density.

同樣地，如圖3所示，圖1及圖4所示之第2離子送出裝置200送出之第2離子風F2會到達第2座席C2之第4落座區域SA4。因此，對落座於第4落座區域SA4之人，亦能藉由第2離子風F2吹送離子。第4落座區域SA4中之第2離子風F2之離子濃度低於第1落座區域SA1中之第1離子風F1之離子濃度。第4落座區域SA4中之第2離子風F2之離子濃度例如為23000個/cm ³。再者，於圖3中，第2離子風F2係以低密度之點狀陰影表示。 Similarly, as shown in FIG. 3 , the second ion wind F2 sent from the second ion sending device 200 shown in FIGS. 1 and 4 reaches the fourth seating area SA4 of the second seat C2. Therefore, ions can also be blown by the second ion wind F2 to those who are seated in the fourth seating area SA4. The ion concentration of the 2nd ion wind F2 in the 4th seating area SA4 is lower than the ion density|concentration of the 1st ion wind F1 in the 1st seating area SA1. The ion concentration of the second ion wind F2 in the fourth seating area SA4 is, for example, 23000 ions/cm ³ . In addition, in FIG. 3, the 2nd ion wind F2 is shown by the dot-shaped shading of low density.

再次參照圖1，說明第1離子送出裝置100及第2離子送出裝置200之配置。1 again, the arrangement|positioning of the 1st ion sending apparatus 100 and the 2nd ion sending apparatus 200 is demonstrated.

如圖1所示，俯視下，第1離子送出裝置100係相較於第2離子送出裝置200，更偏向第2落座區域SA2之側地設置。又，俯視下，第2離子送出裝置200係相較於第1離子送出裝置100，更偏向第1落座區域SA1之側地設置。As shown in FIG. 1 , in a plan view, the first ion sending device 100 is provided more deviated to the side of the second seating area SA2 than the second ion sending device 200 . Moreover, compared with the 1st ion sending apparatus 100, the 2nd ion sending apparatus 200 is arrange|positioned at the side of 1st seating area SA1 in planar view.

具體而言，俯視下，第1離子送出裝置100與第2離子送出裝置200相對於第1方向D1彼此傾斜地配置。因此，能抑制第1離子風F1與第2離子風F2相互衝撞。其結果，根據實施方式1，能抑制於第1離子風F1與第2離子風F2之間，離子被中和。Specifically, the 1st ion sending apparatus 100 and the 2nd ion sending apparatus 200 are arrange|positioned inclined mutually with respect to 1st direction D1 in planar view. Therefore, the collision of the 1st ion wind F1 and the 2nd ion wind F2 can be suppressed. As a result, according to Embodiment 1, it is possible to suppress the neutralization of ions between the first ion wind F1 and the second ion wind F2.

換言之，俯視下，第1離子送出裝置100與第2離子送出裝置200相對於第2方向D2彼此傾斜地配置。In other words, in a plan view, the first ion sending device 100 and the second ion sending device 200 are arranged to be inclined to each other with respect to the second direction D2.

再換言之，俯視下，第1離子送出裝置100係相對於第2離子風F2之方向，自第2離子送出裝置200傾斜地配置。此外，俯視下，第2離子送出裝置200係相對於第1離子風F1之方向，自第1離子送出裝置100傾斜地配置。In other words, in a plan view, the first ion sending device 100 is arranged to be inclined from the second ion sending device 200 with respect to the direction of the second ion wind F2. Moreover, the 2nd ion sending apparatus 200 is arrange|positioned obliquely from the 1st ion sending apparatus 100 with respect to the direction of the 1st ion wind F1 in planar view.

再者，俯視下，第1送風部105沿著第2方向D2，朝向第1落座區域SA1送出第1離子風F1。又，俯視下，第2送風部205沿著第2方向D2，朝向第2落座區域SA2送出第2離子風F2。此外，俯視下，第1離子風F1之方向與第2離子風F2之方向相反。因此，俯視下，第1離子風F1之方向與第2離子風F2之方向朝向相互靠近之側，而非相互分離之側。In addition, the 1st ventilation part 105 sends out the 1st ion wind F1 toward the 1st seating area SA1 along the 2nd direction D2 in planar view. Moreover, the 2nd ventilation part 205 sends out the 2nd ion wind F2 toward the 2nd seating area SA2 along the 2nd direction D2 in planar view. In addition, in a plan view, the direction of the first ion wind F1 is opposite to the direction of the second ion wind F2. Therefore, in a plan view, the direction of the first ion wind F1 and the direction of the second ion wind F2 are directed toward the side that is close to each other, not the side that is separated from each other.

繼續參照圖1，說明第1離子送出裝置100及第2離子送出裝置200之詳細配置。1, the detailed arrangement|positioning of the 1st ion sending apparatus 100 and the 2nd ion sending apparatus 200 is demonstrated.

如圖1所示，複數個第1離子送出裝置100沿著第1方向D1隔開間隔而設置。於圖1之例中，複數個第1離子送出裝置100沿著第1方向D1以相等間隔而設置。As shown in FIG. 1, the some 1st ion sending apparatus 100 is provided at intervals along the 1st direction D1. In the example of FIG. 1, the some 1st ion sending apparatus 100 is arrange|positioned at equal intervals along 1st direction D1.

又，複數個第2離子送出裝置200沿著第1方向D1隔開間隔而設置。於圖1之例中，複數個第2離子送出裝置200沿著第1方向D1以相等間隔而設置。Moreover, the some 2nd ion sending apparatus 200 is provided at intervals along the 1st direction D1. In the example of FIG. 1, the some 2nd ion sending apparatus 200 is arrange|positioned at equal intervals along 1st direction D1.

具體而言，由複數個第1離子送出裝置100構成之第1行L1沿著第1方向D1延伸。於圖1之例中，俯視下，第1行L1之複數個第1離子送出裝置100大致設置於一條直線上。再者，例如，俯視下，第1行L1之複數個第1離子送出裝置100亦可呈Z字形設置。Specifically, the first row L1 composed of the plurality of first ion sending devices 100 extends along the first direction D1. In the example of FIG. 1, the some 1st ion sending apparatus 100 of the 1st row L1 is arrange|positioned substantially on a straight line in plan view. Furthermore, for example, in a plan view, the plurality of first ion sending devices 100 in the first row L1 may be arranged in a zigzag shape.

又，由複數個第2離子送出裝置200構成之第2行L2沿著第1方向D1延伸。於圖1之例中，俯視下，第2行L2之複數個第2離子送出裝置200大致設置於一條直線上。再者，例如，俯視下，第2行L2之複數個第2離子送出裝置200亦可呈Z字形設置。Moreover, the 2nd row L2 which consists of the some 2nd ion sending apparatus 200 is extended along the 1st direction D1. In the example of FIG. 1 , in a plan view, the plurality of second ion sending devices 200 in the second row L2 are arranged approximately on a straight line. Furthermore, for example, in a plan view, the plurality of second ion sending devices 200 in the second row L2 may be arranged in a zigzag shape.

第1行L1與第2行L2於第2方向D2上相互對向。而且，俯視下，第1行L1與第2行L2之間距離最近之第1離子送出裝置100與第2離子送出裝置200於第1方向D1上相互錯開。換言之，俯視下，於第1行L1與第2行L2之間，第1離子送出裝置100與第2離子送出裝置200沿著第1方向D1交錯地設置。再換言之，俯視下，第1離子送出裝置100與第2離子送出裝置200沿著第1方向D1呈Z字形設置。再換言之，俯視下，第1離子送出裝置100與第2離子送出裝置200呈鋸齒狀設置。The first row L1 and the second row L2 face each other in the second direction D2. Moreover, the 1st ion sending apparatus 100 and the 2nd ion sending apparatus 200 which have the shortest distance between the 1st row L1 and the 2nd row L2 are mutually displaced in the 1st direction D1 in planar view. In other words, in a plan view, between the first row L1 and the second row L2, the first ion sending device 100 and the second ion sending device 200 are alternately arranged along the first direction D1. In other words, the first ion sending device 100 and the second ion sending device 200 are arranged in a zigzag shape along the first direction D1 in a plan view. In other words, the first ion sending device 100 and the second ion sending device 200 are arranged in a zigzag shape in a plan view.

因此，根據實施方式1，既能抑制離子送出裝置(第1離子送出裝置100及第2離子送出裝置200)之數量增加，又能有效地對乘坐於移動體VC之人吹送離子。又，能抑制第1離子風F1與第2離子風F2相互衝撞，因此能抑制於第1離子風F1與第2離子風F2之間，離子被中和。Therefore, according to Embodiment 1, while suppressing the increase in the number of ion sending apparatuses (1st ion sending apparatus 100 and the 2nd ion sending apparatus 200), it can blow ion efficiently to the person riding on the moving body VC. Moreover, since the collision of the 1st ion wind F1 and the 2nd ion wind F2 can be suppressed, it can suppress that an ion is neutralized between the 1st ion wind F1 and the 2nd ion wind F2.

又，於實施方式1中，移動體VC具有通道AS。通道AS沿著第1方向D1延伸。第1座席C1與第2座席C2隔著通道AS，於第2方向D2上對向。第1落座區域SA1與第4落座區域SA4隔著通道AS，於第2方向D2上對向。第2落座區域SA2與第3落座區域SA3隔著通道AS，於第2方向D2上對向。Moreover, in Embodiment 1, the moving body VC has the path AS. The channel AS extends along the first direction D1. The first seat C1 and the second seat C2 face each other in the second direction D2 across the passage AS. The first seating area SA1 and the fourth seating area SA4 face each other in the second direction D2 with the passage AS interposed therebetween. The second seating area SA2 and the third seating area SA3 face each other in the second direction D2 across the passage AS.

即，俯視下，第1落座區域SA1及第3落座區域SA3位於通道AS之一側。通道AS之一側表示第2方向D2上之通道AS之一側。又，俯視下，第2落座區域SA2及第4落座區域SA4位於通道AS之另一側。通道AS之另一側表示第2方向D2上之通道AS之另一側。That is, in a plan view, the first seating area SA1 and the third seating area SA3 are located on one side of the passage AS. One side of the channel AS represents one side of the channel AS in the second direction D2. Moreover, the 2nd seating area SA2 and the 4th seating area SA4 are located in the other side of the passage AS in a plan view. The other side of the channel AS represents the other side of the channel AS in the second direction D2.

於實施方式1中，藉由第1離子送出裝置100，對位於通道AS之人HM2、及落座於第1落座區域SA1之人HM1皆能有效地吹送離子(圖3)。又，藉由第2離子送出裝置200，對位於通道AS之人HM4、及落座於第2落座區域SA2之人HM3皆能有效地吹送離子(圖4)。In Embodiment 1, by the 1st ion sending apparatus 100, both the person HM2 located in the channel AS, and the person HM1 seated in the 1st seating area SA1 can blow ions efficiently (FIG. 3). Moreover, by the 2nd ion sending apparatus 200, ion can be blown effectively to both the person HM4 located in the passage AS, and the person HM3 seated in the 2nd seating area SA2 (FIG. 4).

又，於實施方式1中，第1離子送出裝置100設置於與會被吹送第2離子風F2之第2落座區域SA2於第1方向D1上鄰接之第4落座區域SA4之上方。此外，第2離子送出裝置200設置於與會被吹送第1離子風F1之第1落座區域SA1於第1方向D1上鄰接之第3落座區域SA3之上方。因此，能有效地抑制第1離子風F1與第2離子風F2相互衝撞，從而能有效地抑制於第1離子風F1與第2離子風F2之間，離子被中和。Moreover, in Embodiment 1, the 1st ion sending apparatus 100 is provided above the 4th seating area SA4 adjacent to the 2nd seating area SA2 which blows the 2nd ion wind F2 in 1st direction D1. Moreover, the 2nd ion sending apparatus 200 is provided above the 3rd seating area SA3 adjacent to the 1st seating area SA1 to which the 1st ion wind F1 is blown in the 1st direction D1. Therefore, the collision of the first ion wind F1 and the second ion wind F2 can be effectively suppressed, and the neutralization of ions between the first ion wind F1 and the second ion wind F2 can be effectively suppressed.

具體而言，俯視下，第1離子送出裝置100設置於較第4落座區域SA4之正上方之位置，靠第1落座區域SA1更近之側。因此，第1離子送出裝置100能使第1離子風F1更切實地到達第1落座區域SA1。又，俯視下，第2離子送出裝置200設置於較第3落座區域SA3之正上方之位置，靠第2落座區域SA2更近之側。因此，第2離子送出裝置200能使第2離子風F2更切實地到達第2落座區域SA2。Specifically, the first ion sending device 100 is installed on the side closer to the first seating area SA1 than the position directly above the fourth seating area SA4 in a plan view. Therefore, the 1st ion sending apparatus 100 can make the 1st ion wind F1 reach 1st seating area SA1 more reliably. Moreover, the 2nd ion sending apparatus 200 is arrange|positioned rather than the position directly above the 3rd seating area SA3, and is closer to the second seating area SA2 in a plan view. Therefore, the 2nd ion sending apparatus 200 can make the 2nd ion wind F2 reach 2nd seating area SA2 more reliably.

進而，於實施方式1中，複數個第1離子送出裝置100及複數個第2離子送出裝置200設置於移動體VC。因此，於容易充滿細菌或病毒之移動體VC中，藉由第1離子送出裝置100及第2離子送出裝置200所吹送之離子(第1離子風F1及第2離子風F2)，能抑制病毒及細菌之活動。又，例如，移動體VC中難聞氣味不易疏散，因此藉由第1離子送出裝置100及第2離子送出裝置200所吹送之離子，能有效地進行除臭。進而，例如，藉由第1離子送出裝置100及第2離子送出裝置200所吹送之離子，能有效地抑制移動體VC上產生之靜電。Furthermore, in Embodiment 1, the plurality of first ion sending devices 100 and the plurality of second ion sending devices 200 are provided in the moving body VC. Therefore, in the mobile body VC that is easily filled with bacteria or viruses, viruses can be suppressed by the ions (first ion wind F1 and second ion wind F2) blown by the first ion sending device 100 and the second ion sending device 200 and bacterial activity. Moreover, for example, since the unpleasant smell is not easily dissipated in the moving body VC, deodorization can be effectively performed by the ions blown by the first ion sending device 100 and the second ion sending device 200 . Furthermore, for example, static electricity generated on the moving body VC can be effectively suppressed by the ions blown by the first ion sending device 100 and the second ion sending device 200 .

其次，參照圖5，說明第1離子送出裝置100之第1電極102及第2電極103、以及第2離子送出裝置200之第3電極202及第4電極203之配置。5, the arrangement|positioning of the 1st electrode 102 and the 2nd electrode 103 of the 1st ion sending apparatus 100, and the 3rd electrode 202 and the 4th electrode 203 of the 2nd ion sending apparatus 200 are demonstrated.

圖5係表示第1離子送出裝置100及第2離子送出裝置200之詳細配置之俯視圖。如圖5所示，俯視下，於第1離子送出裝置100A與第2離子送出裝置200A之間，產生第1極性離子之第1電極102係相較於產生第2極性離子之第2電極103，位於靠產生第1極性離子之第3電極202更近之側。第1離子送出裝置100A與第2離子送出裝置200A相對於第1方向D1彼此傾斜地相鄰。此外，於第1離子送出裝置100A與第2離子送出裝置200A之間，產生第2極性離子之第2電極103係相較於產生第1極性離子之第1電極102，位於距產生第1極性離子之第3電極202更遠之側。因此，根據實施方式1，能有效地抑制第1極性離子與第2極性離子被中和。FIG. 5 is a plan view showing the detailed arrangement of the first ion sending device 100 and the second ion sending device 200 . As shown in FIG. 5 , in a plan view, between the first ion sending device 100A and the second ion sending device 200A, the first electrode 102 that generates the first polar ions is compared with the second electrode 103 that generates the second polar ions , located on the side closer to the third electrode 202 that generates the first polarity ions. 100 A of 1st ion sending apparatuses and 200 A of 2nd ion sending apparatuses are adjacent to each other obliquely with respect to 1st direction D1. In addition, between the first ion sending device 100A and the second ion sending device 200A, the second electrode 103 that generates the second polarity ions is located farther from the first electrode 102 that generates the first polarity ions than the first electrode 102 that generates the first polarity ions. The farther side of the third electrode 202 of the ions. Therefore, according to Embodiment 1, neutralization of the first polar ion and the second polar ion can be effectively suppressed.

具體而言，俯視下，於第2離子送出裝置200A與作為2個第1離子送出裝置100A、100B中之一者的第1離子送出裝置100A之間，第1電極102係相較於第2電極103，位於靠第3電極202更近之側，第2電極103係相較於第1電極102，位於距第3電極202更遠之側。因此，根據實施方式1，能有效地抑制第1極性離子與第2極性離子被中和。第2離子送出裝置200A相對於在第1方向D1上相鄰之2個第1離子送出裝置100A、100B傾斜地相鄰。Specifically, in plan view, between the second ion sending device 200A and the first ion sending device 100A which is one of the two first ion sending devices 100A and 100B, the first electrode 102 is compared with the second ion sending device 100A. The electrode 103 is located closer to the third electrode 202 , and the second electrode 103 is located farther from the third electrode 202 than the first electrode 102 . Therefore, according to Embodiment 1, neutralization of the first polar ion and the second polar ion can be effectively suppressed. The 2nd ion sending apparatus 200A adjoins obliquely with respect to two 1st ion sending apparatuses 100A and 100B which adjoin in the 1st direction D1.

此外，俯視下，於第2離子送出裝置200A與作為2個第1離子送出裝置100A、100B中之另一者的第1離子送出裝置100B之間，第2電極103係相較於第1電極102，位於靠第4電極203更近之側，第1電極102係相較於第2電極103，位於距第4電極203更遠之側。因此，根據實施方式1，能有效地抑制第1極性離子與第2極性離子被中和。In addition, in plan view, between the second ion sending device 200A and the first ion sending device 100B which is the other of the two first ion sending devices 100A and 100B, the second electrode 103 is compared with the first electrode 102 is located on the side closer to the fourth electrode 203 , and the first electrode 102 is located on the side farther from the fourth electrode 203 than the second electrode 103 . Therefore, according to Embodiment 1, neutralization of the first polar ion and the second polar ion can be effectively suppressed.

又，於構成第1行L1之複數個第1離子送出裝置100中，第1電極102與第2電極103沿著第1方向D1交替地配置。又，於構成第2行L2之複數個第2離子送出裝置200中，第3電極202與第4電極203沿著第1方向D1交替地配置。而且，自第1電極102向第2電極103之方向與自第3電極202向第4電極203之方向相反。In addition, in the plurality of first ion sending devices 100 constituting the first row L1, the first electrodes 102 and the second electrodes 103 are alternately arranged along the first direction D1. In addition, in the plurality of second ion sending devices 200 constituting the second row L2, the third electrodes 202 and the fourth electrodes 203 are alternately arranged along the first direction D1. Furthermore, the direction from the first electrode 102 to the second electrode 103 is opposite to the direction from the third electrode 202 to the fourth electrode 203 .

更具體而言，於第1離子送出裝置100A與第2離子送出裝置200A之間，第1電極102與第3電極202之間之距離D13短於第2電極103與第3電極202之間之距離D23。此外，於第1離子送出裝置100B與第2離子送出裝置200A之間，第2電極103與第4電極203之間之距離D24短於第1電極102與第4電極203之間之距離D14。More specifically, between the first ion sending device 100A and the second ion sending device 200A, the distance D13 between the first electrode 102 and the third electrode 202 is shorter than the distance between the second electrode 103 and the third electrode 202 Distance D23. Further, between the first ion sending device 100B and the second ion sending device 200A, the distance D24 between the second electrode 103 and the fourth electrode 203 is shorter than the distance D14 between the first electrode 102 and the fourth electrode 203 .

更具體而言，側視下，第1電極102與第3電極202於第1方向D1上相鄰。又，側視下，第4電極203與第2電極103於第1方向D1上相鄰。More specifically, in a side view, the first electrode 102 and the third electrode 202 are adjacent to each other in the first direction D1. In addition, in a side view, the fourth electrode 203 and the second electrode 103 are adjacent to each other in the first direction D1.

於本說明書中，側視表示自第2方向D2觀察對象物。In this specification, the side view means that the object is observed from the second direction D2.

(變化例1) 參照圖6，對實施方式1之變化例1之送風系統1進行說明。變化例1相較於參照圖1所說明之實施方式1而言，第1離子送出裝置100及第2離子送出裝置200之位置不同。以下，主要說明變化例1與實施方式1之不同點。 (Variation 1) 6, the ventilation system 1 of the modification 1 of Embodiment 1 is demonstrated. Variation 1 is different from Embodiment 1 described with reference to FIG. 1 in that the positions of the first ion sending device 100 and the second ion sending device 200 are different. Hereinafter, the difference between Modification 1 and Embodiment 1 will be mainly described.

圖6係表示變化例1之送風系統1之俯視圖。如圖6所示，第1離子送出裝置100設置於第4落座區域SA4之正上方。又，第2離子送出裝置200設置於第3落座區域SA3之正上方。FIG. 6 is a plan view showing the ventilation system 1 of Modification 1. FIG. As shown in FIG. 6, the 1st ion sending apparatus 100 is installed just above the 4th seating area SA4. Moreover, the 2nd ion sending apparatus 200 is installed just above the 3rd seating area SA3.

(變化例2) 其次，參照圖1～圖4及圖7，對實施方式1之變化例2之送風系統1進行說明。變化例2相較於參照圖1所說明之實施方式1而言，主要不同點在於：第1離子送出裝置100向3個方向送出第1離子風F1，及第2離子送出裝置200向3個方向送出第2離子風F2。以下，主要說明變化例2與實施方式1之不同點。 (Variation 2) Next, with reference to FIGS. 1-4 and FIG. 7, the ventilation system 1 of the modification 2 of Embodiment 1 is demonstrated. Variation 2 is mainly different from Embodiment 1 described with reference to FIG. 1 in that the first ion sending device 100 sends the first ion wind F1 in three directions, and the second ion sending device 200 sends the first ion wind F1 to three directions. Send the second ion wind F2 in the direction. Hereinafter, the difference between Modification 2 and Embodiment 1 will be mainly described.

圖7係表示實施方式1之變化例2的第1離子送出裝置100及第2離子送出裝置200之詳細配置之俯視圖。如圖7所示，於移動體VC，設置有複數個第1離子送出裝置100與複數個第2離子送出裝置200。第1離子送出裝置100向第1落座區域SA1與第3落座區域SA3送出第1離子風F1。第2離子送出裝置200向第2落座區域SA2與第4落座區域SA4送出第2離子風F2。FIG. 7 is a plan view showing the detailed arrangement of the first ion sending device 100 and the second ion sending device 200 according to Modification 2 of the first embodiment. As shown in FIG. 7 , the moving body VC is provided with a plurality of first ion sending devices 100 and a plurality of second ion sending devices 200 . The first ion sending device 100 sends the first ion wind F1 to the first seating area SA1 and the third seating area SA3. The second ion sending device 200 sends the second ion wind F2 to the second seating area SA2 and the fourth seating area SA4.

即，第1離子送出裝置100對落座於第3落座區域SA3之人，亦能有效地吹送離子。此外，第2離子送出裝置200對落座於第4落座區域SA4之人，亦能有效地吹送離子。因此，能降低第3落座區域SA3中之第1離子風F1之濃度與第1落座區域SA1中之第1離子風F1之濃度之差，且能降低第4落座區域SA4中之第2離子風F2之濃度與第2落座區域SA2中之第2離子風F2之濃度之差。其結果，能使落座區域附近之離子濃度變得均勻。That is, the 1st ion sending apparatus 100 can blow ion efficiently also to the person who sits in 3rd seating area SA3. Moreover, the 2nd ion sending apparatus 200 can also blow ion efficiently to the person seated in the 4th seating area SA4. Therefore, the difference between the concentration of the first ion wind F1 in the third seating area SA3 and the concentration of the first ion wind F1 in the first seating area SA1 can be reduced, and the second ion wind in the fourth seating area SA4 can be reduced The difference between the concentration of F2 and the concentration of the second ion wind F2 in the second seating area SA2. As a result, the ion concentration in the vicinity of the seating region can be made uniform.

複數個第1離子送出裝置100各自具有複數個圖2所示之第1吹出口132。例如，第1離子送出裝置100具有3個第1吹出口132。即，第1離子送出裝置100送出複數股第1離子風F。具體而言，第1離子送出裝置100送出第1離子風F1A、第1離子風F1B及第1離子風F1C。Each of the plurality of first ion sending devices 100 has a plurality of first air outlets 132 shown in FIG. 2 . For example, the 1st ion sending apparatus 100 has the three 1st blower outlet 132. As shown in FIG. That is, the first ion sending device 100 sends out a plurality of first ion winds F. Specifically, the first ion sending device 100 sends out the first ion wind F1A, the first ion wind F1B, and the first ion wind F1C.

如圖3所示，剖視下，第1送風部105藉由相對於第2方向D2朝向斜下方送出第1離子風F1B，而使第1離子風F1B到達第3落座區域SA3。如圖7所示，俯視下，第1離子風F1B係朝向第3方向D3之側自第1送風部105送出。第3方向D3表示自圖1所示之門VD向操縱機構10之方向。As shown in FIG. 3, the 1st ventilation part 105 sends out the 1st ion wind F1B diagonally downward with respect to 2nd direction D2, and makes 1st ion wind F1B reach 3rd seating area SA3 in cross-sectional view. As shown in FIG. 7, the 1st ion wind F1B is sent from the 1st ventilation part 105 toward the side of the 3rd direction D3 in planar view. The third direction D3 indicates the direction from the door VD shown in FIG. 1 to the operating mechanism 10 .

如圖3所示，剖視下，第1送風部105藉由相對於第2方向D2朝向斜下方送出第1離子風F1C，而使第1離子風F1C到達第3落座區域SA3。如圖7所示，俯視下，第1離子風F1C係朝向第4方向D4之側自第1送風部105送出。第4方向D4表示自圖1所示之操縱機構10向門VD之方向。第4方向D4表示第3方向D3之相反方向。As shown in FIG. 3, when the 1st ventilation part 105 sends out the 1st ion wind F1C diagonally downward with respect to 2nd direction D2, 1st ion wind F1C reaches 3rd seating area SA3 in cross-sectional view. As shown in FIG. 7, the 1st ion wind F1C is sent from the 1st ventilation part 105 toward the side of the 4th direction D4 in planar view. The fourth direction D4 represents the direction from the operating mechanism 10 shown in FIG. 1 to the door VD. The fourth direction D4 represents the opposite direction to the third direction D3.

如圖3所示，剖視下，第1送風部105藉由相對於第2方向D2朝向斜下方送出第1離子風F1A，而使第1離子風F1A到達第1落座區域SA1。如圖7所示，俯視下，第1離子風F1A係朝向第5方向D5之側自第1送風部105送出。第5方向D5表示自第2座席C2向第1座席C1之方向。As shown in FIG. 3, the 1st ventilation part 105 makes the 1st ion wind F1A reach 1st seating area SA1 by sending out 1st ion wind F1A diagonally downward with respect to 2nd direction D2 in cross-sectional view. As shown in FIG. 7, the 1st ion wind F1A is sent from the 1st ventilation part 105 toward the side of the 5th direction D5 in planar view. The fifth direction D5 indicates the direction from the second seat C2 to the first seat C1.

複數個第2離子送出裝置200各自具有複數個圖2所示之第2吹出口232。例如，第2離子送出裝置200具有3個第2吹出口232。即，第2離子送出裝置200送出複數股第2離子風。具體而言，第2離子送出裝置200送出第2離子風F2A、第2離子風F2B及第2離子風F2C。Each of the plurality of second ion sending devices 200 has a plurality of second air outlets 232 shown in FIG. 2 . For example, the 2nd ion sending apparatus 200 has the three 2nd blower outlet 232. As shown in FIG. That is, the second ion sending device 200 sends a plurality of second ion winds. Specifically, the second ion sending device 200 sends out the second ion wind F2A, the second ion wind F2B, and the second ion wind F2C.

如圖4所示，剖視下，第2送風部205藉由相對於第2方向D2朝向斜下方送出第2離子風F2A，而使第2離子風F2A到達第2落座區域SA2。如圖7所示，俯視下，第2離子風F2A係朝向第6方向D6自第2送風部205送出。第6方向D6表示自第1座席C1向第2座席C2之方向。第6方向D6係第5方向D5之相反方向。As shown in FIG. 4, the 2nd ventilation part 205 makes the 2nd ion wind F2A reach the 2nd seating area SA2 by sending out 2nd ion wind F2A diagonally downward with respect to 2nd direction D2 in cross-sectional view. As shown in FIG. 7, the 2nd ion wind F2A is sent out from the 2nd blower part 205 toward the 6th direction D6 in planar view. The sixth direction D6 indicates the direction from the first seat C1 to the second seat C2. The sixth direction D6 is the opposite direction to the fifth direction D5.

如圖4所示，剖視下，第2送風部205藉由相對於第2方向D2朝向斜下方送出第2離子風F2B，而使第2離子風F2B到達第4落座區域SA4。如圖7所示，俯視下，第2離子風F2B係朝向第3方向D3之側自第2送風部205送出。As shown in FIG. 4, when the 2nd ventilation part 205 sends out the 2nd ion wind F2B diagonally downward with respect to the 2nd direction D2 in cross-sectional view, the 2nd ion wind F2B reaches 4th seating area SA4. As shown in FIG. 7, the 2nd ion wind F2B is sent out from the 2nd blower part 205 toward the side of the 3rd direction D3 in planar view.

如圖4所示，剖視下，第2送風部205藉由相對於第2方向D2朝向斜下方送出第2離子風F2C，而使第2離子風F2C到達第4落座區域SA4。如圖7所示，俯視下，第2離子風F2C係朝向第4方向D4之側自第1送風部105送出。As shown in FIG. 4, the 2nd ventilation part 205 makes the 2nd ion wind F2C reach the 4th seating area SA4 by sending out 2nd ion wind F2C diagonally downward with respect to 2nd direction D2 in cross-sectional view. As shown in FIG. 7, the 2nd ion wind F2C is sent from the 1st ventilation part 105 toward the side of the 4th direction D4 in planar view.

[實施方式2] 其次，參照圖2～圖4及圖8，對實施方式2之送風系統1進行說明。實施方式2之送風系統1相較於實施方式1之送風系統1而言，不同點在於：第1離子送出裝置100與第2離子送出裝置200係對向而配置。以下，於實施方式2中，主要說明與實施方式1之不同點。 [Embodiment 2] Next, with reference to FIGS. 2-4 and FIG. 8, the ventilation system 1 of Embodiment 2 is demonstrated. The ventilation system 1 of Embodiment 2 is different from the ventilation system 1 of Embodiment 1 in that the first ion sending device 100 and the second ion sending device 200 are arranged to face each other. Hereinafter, in Embodiment 2, differences from Embodiment 1 will be mainly described.

圖8係表示實施方式2之送風系統1之俯視圖。如圖8所示，送風系統1例如設置於圖1所示之移動體VC之內部。移動體VC包含第1座席C1、第2座席C2、門VD(參照圖1)及操縱機構10(參照圖1)。FIG. 8 is a plan view showing the ventilation system 1 according to the second embodiment. As shown in FIG. 8, the ventilation system 1 is installed in the inside of the moving body VC shown in FIG. 1, for example. The moving body VC includes the first seat C1 , the second seat C2 , the door VD (see FIG. 1 ), and the operating mechanism 10 (see FIG. 1 ).

第1座席C1沿著第1方向D1而設置。第1座席C1包含複數個第1落座區域SA1及複數個第3落座區域SA3。複數個第1落座區域SA1沿著第1方向D1隔開間隔地排列。複數個第3落座區域SA3沿著第1方向D1隔開間隔地排列。第1落座區域SA1與第3落座區域SA3沿著第1方向D1交替地配置。第1落座區域SA1及第3落座區域SA3可供人落座。The first seat C1 is installed along the first direction D1. The first seat C1 includes a plurality of first seating areas SA1 and a plurality of third seating areas SA3. The plurality of first seating areas SA1 are arranged at intervals along the first direction D1. The plurality of third seating areas SA3 are arranged at intervals along the first direction D1. The first seating area SA1 and the third seating area SA3 are alternately arranged along the first direction D1. The first seating area SA1 and the third seating area SA3 are available for seating.

第2座席C2包含複數個第2落座區域SA2及複數個第4落座區域SA4。複數個第2落座區域SA2沿著第1方向D1隔開間隔地排列。複數個第4落座區域SA4沿著第1方向D1隔開間隔地排列。第2落座區域SA2與第4落座區域SA4沿著第1方向D1交替地配置。第2落座區域SA2及第4落座區域SA4可供人落座。The second seat C2 includes a plurality of second seating areas SA2 and a plurality of fourth seating areas SA4. The plurality of second seating areas SA2 are arranged at intervals along the first direction D1. The plurality of fourth seating areas SA4 are arranged at intervals along the first direction D1. The second seating area SA2 and the fourth seating area SA4 are alternately arranged along the first direction D1. The second seating area SA2 and the fourth seating area SA4 are available for seating.

於圖8之例中，俯視下，第1落座區域SA1與第2落座區域SA2隔著通道AS，於第2方向D2上對向。第3落座區域SA3與第4落座區域SA4隔著通道AS，於第2方向D2上對向。即，俯視下，第1落座區域SA1及第3落座區域SA3位於通道AS之第5方向D5之側。又，俯視下，第2落座區域SA2及第4落座區域SA4位於通道AS之第6方向D6之側。In the example of FIG. 8 , the first seating area SA1 and the second seating area SA2 face each other in the second direction D2 with the passage AS interposed therebetween in a plan view. The third seating area SA3 and the fourth seating area SA4 face each other in the second direction D2 with the passage AS interposed therebetween. That is, the 1st seating area SA1 and the 3rd seating area SA3 are located in the side of the 5th direction D5 of the passage AS in plan view. Moreover, the 2nd seating area SA2 and the 4th seating area SA4 are located in the 6th direction D6 side of the passage AS in a plan view.

於實施方式2中，第1離子送出裝置100及第2離子送出裝置200設置於移動體VC之內部空間之上方。具體而言，第1離子送出裝置100及第2離子送出裝置200設置於較第1座席C1及第2座席C2更靠上方之位置。即，第1離子送出裝置100及第2離子送出裝置200設置於較第1落座區域SA1～第4落座區域SA4更靠上方之位置。In Embodiment 2, the 1st ion sending apparatus 100 and the 2nd ion sending apparatus 200 are installed above the internal space of the moving body VC. Specifically, the 1st ion sending apparatus 100 and the 2nd ion sending apparatus 200 are installed in the position higher than the 1st seat C1 and the 2nd seat C2. That is, the 1st ion sending apparatus 100 and the 2nd ion sending apparatus 200 are installed in the position higher than the 1st seating area SA1 - the 4th seating area SA4.

又，於實施方式2中，如圖8所示，俯視下，第1離子送出裝置100係相較於第2離子送出裝置200，更偏向第2落座區域SA2之側地設置。具體而言，第1離子送出裝置100設置於第4落座區域SA4之上方。Moreover, in Embodiment 2, as shown in FIG. 8, the 1st ion sending apparatus 100 is arrange|positioned at the side of 2nd seating area SA2 rather than the 2nd ion sending apparatus 200 in planar view. Specifically, the 1st ion sending apparatus 100 is provided above the 4th seating area SA4.

如圖2所示，第1離子送出裝置100包含第1產生部101、第1送風部105、第1殼體110及第1導管120。又，第1離子送出裝置100具有第1吸入口131與第1吹出口132。第1產生部101、第1送風部105及第1導管120收容於第1殼體110。As shown in FIG. 2 , the first ion sending device 100 includes a first generating unit 101 , a first blowing unit 105 , a first casing 110 , and a first duct 120 . Moreover, the 1st ion sending apparatus 100 has the 1st suction port 131 and the 1st blower outlet 132. The first generation part 101 , the first air blowing part 105 and the first duct 120 are accommodated in the first casing 110 .

第1產生部101產生離子。第1產生部101產生第1極性離子及/或第2極性離子。第1產生部101包含第1電極102與第2電極103。第1電極102藉由放電而產生第1極性離子。第2電極103藉由放電而產生第2極性離子。The first generating unit 101 generates ions. The first generating unit 101 generates first polar ions and/or second polar ions. The first generation part 101 includes a first electrode 102 and a second electrode 103 . The first electrode 102 generates first polar ions by discharge. The second electrode 103 generates second polarity ions by discharge.

第1導管120自第1送風部105延伸至第1吹出口132。The first duct 120 extends from the first air blower 105 to the first air outlet 132 .

第1送風部105自第1吸入口131吸入空氣，使吸入之空氣通過第1導管120，而將其自第1吹出口132吹出。第1送風部105例如為離心式風扇。離心式風扇例如包含馬達與葉輪。The first air blower 105 sucks air from the first suction port 131 , passes the sucked air through the first duct 120 , and blows it out from the first blowing port 132 . The first air blower 105 is, for example, a centrifugal fan. The centrifugal fan includes, for example, a motor and an impeller.

於第1導管120內，突出有第1電極102及第2電極103。Inside the first catheter 120, the first electrode 102 and the second electrode 103 protrude.

第1送風部105吹出第1離子風F1之吹出角度θ包含吹出角度 θA與吹出角度 θB。吹出角度 θA表示相對於水平方向所形成之角度。例如，如圖2所示，吹出角度 θA係相對於水平方向朝向下方形成約45度以上且約65度以下之角度。吹出角度 θA典型為約55度。例如，吹出角度 θA係第1導管120相對於水平方向朝向下方傾斜時第1導管120之吹出角度。 The blow-off angle θ at which the first air blower 105 blows out the first ion wind F1 includes the blow-off angle θ A and the blow-off angle θ B. The blow-out angle θ A represents an angle formed with respect to the horizontal direction. For example, as shown in FIG. 2 , the blowing angle θ A forms an angle of about 45 degrees or more and about 65 degrees or less toward the downward direction with respect to the horizontal direction. The blow-out angle θ A is typically about 55 degrees. For example, the blowing angle θ A is the blowing angle of the first duct 120 when the first duct 120 is inclined downward with respect to the horizontal direction.

如圖8所示，吹出角度 θB表示相對於第2方向D2所形成之角度。再者，例如，吹出角度 θA與吹出角度 θB係基於移動體VC之內部空間之尺寸、第1座席C1及第2座席C2之尺寸及配置、以及第1落座區域SA1～第4落座區域SA4之尺寸及配置而適當設定，並不特別限定。 As shown in FIG. 8 , the blowing angle θ B represents an angle formed with respect to the second direction D2. Furthermore, for example, the blowing angle θ A and the blowing angle θ B are based on the size of the internal space of the moving body VC, the size and arrangement of the first seat C1 and the second seat C2, and the first seating area SA1 to the fourth seating area. The size and arrangement of SA4 are appropriately set, and are not particularly limited.

換言之，如圖3所示，剖視下，第1送風部105藉由相對於第2方向D2朝向斜下方送出第1離子風F1A，而使第1離子風F1A到達第1落座區域SA1。進而，如圖8所示，俯視下，第1離子風F1係朝向第3方向D3之側自第1送風部105送出。In other words, as shown in FIG. 3, the 1st ventilation part 105 makes the 1st ion wind F1A reach 1st seating area SA1 by sending the 1st ion wind F1A diagonally downward with respect to 2nd direction D2 in cross-sectional view. Furthermore, as shown in FIG. 8, the 1st ion wind F1 is sent from the 1st ventilation part 105 toward the side of the 3rd direction D3 in planar view.

如圖8所示，俯視下，第2離子送出裝置200係相較於第1離子送出裝置100，更偏向第1落座區域SA1之側地設置。此外，第2離子送出裝置200設置於在第1方向D1上鄰接之第3落座區域SA3之上方。As shown in FIG. 8 , in a plan view, the second ion sending device 200 is provided more deviated to the side of the first seating area SA1 than the first ion sending device 100 . Moreover, the 2nd ion sending apparatus 200 is provided above the 3rd seating area SA3 which adjoins in 1st direction D1.

如圖2所示，第2離子送出裝置200包含第2產生部201、第2送風部205、第2殼體210及第2導管220。又，第2離子送出裝置200具有第2吸入口231與第2吹出口232。第2產生部201、第2送風部205及第2導管220收容於第2殼體210。As shown in FIG. 2 , the second ion sending device 200 includes a second generating part 201 , a second blowing part 205 , a second casing 210 , and a second duct 220 . Moreover, the 2nd ion sending apparatus 200 has the 2nd suction port 231 and the 2nd blower outlet 232. The second generation part 201 , the second air blowing part 205 and the second duct 220 are accommodated in the second casing 210 .

第2產生部201產生離子。第2產生部201產生第1極性離子及/或第2極性離子。第2產生部201包含第3電極202與第4電極203。第3電極202藉由放電而產生第1極性離子。第4電極203藉由放電而產生第2極性離子。此外，第2產生部201之構成與第1產生部101之構成相同。The second generation unit 201 generates ions. The second generation unit 201 generates first polar ions and/or second polar ions. The second generation part 201 includes a third electrode 202 and a fourth electrode 203 . The third electrode 202 generates first polarity ions by discharge. The fourth electrode 203 generates second polarity ions by discharge. In addition, the configuration of the second generation unit 201 is the same as that of the first generation unit 101 .

第2導管220自第2送風部205延伸至第2吹出口232。The second duct 220 extends from the second blower portion 205 to the second outlet 232 .

第2送風部205自第2吸入口231吸入空氣，使吸入之空氣通過第2導管220，而將其自第2吹出口232吹出。此外，第2送風部205之構成與第1送風部105之構成相同。The second blower 205 sucks in air from the second suction port 231 , passes the sucked air through the second duct 220 , and blows it out from the second outlet 232 . In addition, the structure of the 2nd ventilation part 205 is the same as that of the structure of the 1st ventilation part 105. As shown in FIG.

於第2導管220內，突出有第3電極202及第4電極203。Inside the second conduit 220, the third electrode 202 and the fourth electrode 203 protrude.

第2送風部205吹出第2離子風F2之吹出角度 θ包含吹出角度 θC與吹出角度 θD。吹出角度 θC表示相對於水平方向所形成之角度。如圖2所示，吹出角度 θC例如為相對於水平方向朝向下方形成約45度以上且約65度以下之角度。吹出角度 θC典型為約55度。例如，吹出角度 θC係第2導管220相對於水平方向朝向下方傾斜時第2導管220之吹出角度。 The blowing angle θ at which the second air blower 205 blows out the second ion wind F2 includes the blowing angle θC and the blowing angle θD . The blow-out angle θ C represents an angle formed with respect to the horizontal direction. As shown in FIG. 2 , the blow-out angle θ C is, for example, an angle of about 45 degrees or more and about 65 degrees or less formed downward with respect to the horizontal direction. The blow-out angle θ C is typically about 55 degrees. For example, the blowing angle θ C is the blowing angle of the second duct 220 when the second duct 220 is inclined downward with respect to the horizontal direction.

如圖8所示，吹出角度 θD表示相對於第2方向D2所形成之角度。再者，例如，吹出角度 θC與吹出角度 θD係基於移動體VC之內部空間之尺寸、第1座席C1及第2座席C2之尺寸及配置、以及第1落座區域SA1～第4落座區域SA4之尺寸及配置而適當設定，並不特別限定。 As shown in FIG. 8 , the blowing angle θ D represents an angle formed with respect to the second direction D2. In addition, for example, the blowing angle θ C and the blowing angle θ D are based on the size of the internal space of the moving body VC, the size and arrangement of the first seat C1 and the second seat C2, and the first seating area SA1 to the fourth seating area. The size and arrangement of SA4 are appropriately set, and are not particularly limited.

換言之，如圖4所示，剖視下，第2送風部205藉由相對於第2方向D2朝向斜下方送出第2離子風F2，而使第2離子風F2到達第2落座區域SA2。如圖8所示，俯視下，第2離子風F2係朝向第4方向D4之側自第2送風部205送出。In other words, as shown in FIG. 4 , the second air blower 205 sends out the second ion wind F2 obliquely downward with respect to the second direction D2 in a cross-sectional view, so that the second ion wind F2 reaches the second seating area SA2 . As shown in FIG. 8, the 2nd ion wind F2 is sent out from the 2nd ventilation part 205 toward the side of the 4th direction D4 in planar view.

於實施方式2中，俯視下，第1離子送出裝置100與第2離子送出裝置200相互對向。而且，俯視下，會被第1離子送出裝置100送出第1離子風F1之第1落座區域SA1與會被第2離子送出裝置200送出第2離子風F2之第2落座區域SA2相對於特定方向即第1方向D1彼此傾斜地配置。因此，能抑制第1離子風F1與第2離子風F2相互衝撞。其結果，能於第1離子風F1與第2離子風F2之間，抑制離子被中和。In Embodiment 2, the 1st ion sending apparatus 100 and the 2nd ion sending apparatus 200 are mutually opposed in planar view. Furthermore, in a plan view, the first seating area SA1 where the first ion wind F1 is sent out by the first ion sending device 100 and the second seating area SA2 where the second ion wind F2 is sent by the second ion sending device 200 are relative to a specific direction, namely The first directions D1 are arranged to be inclined to each other. Therefore, the collision of the 1st ion wind F1 and the 2nd ion wind F2 can be suppressed. As a result, it is possible to suppress neutralization of ions between the first ion wind F1 and the second ion wind F2.

具體而言，如圖8所示，俯視下，第3落座區域SA3與第4落座區域SA4對向。第1離子送出裝置100設置於第4落座區域SA4之上方。會被第2離子送出裝置200吹送第2離子風F2之第2落座區域SA2位於上方設置有第1離子送出裝置100之第4落座區域SA4之第4方向D4上。Specifically, as shown in FIG. 8 , the third seating area SA3 and the fourth seating area SA4 are opposed to each other in a plan view. The 1st ion sending apparatus 100 is provided above the 4th seating area SA4. The 2nd seating area SA2 which blows the 2nd ion wind F2 by the 2nd ion sending apparatus 200 is located in the 4th direction D4 of the 4th seating area SA4 which provided the 1st ion sending apparatus 100 above.

又，第2離子送出裝置200設置於第3落座區域SA3之上方。會被第1離子送出裝置100吹送第1離子風F1之第1落座區域SA1位於上方設置有第2離子送出裝置200之第3落座區域SA3之第3方向D3上。因此，能抑制第1離子風F1與第2離子風F2相互衝撞。其結果，能於第1離子風F1與第2離子風F2之間，抑制離子被中和。Moreover, the 2nd ion sending apparatus 200 is provided above the 3rd seating area SA3. The 1st seating area SA1 which blows the 1st ion wind F1 by the 1st ion sending apparatus 100 is located in the 3rd direction D3 of the 3rd seating area SA3 which provided the 2nd ion sending apparatus 200 above. Therefore, the collision of the 1st ion wind F1 and the 2nd ion wind F2 can be suppressed. As a result, it is possible to suppress neutralization of ions between the first ion wind F1 and the second ion wind F2.

繼續參照圖8，說明第1離子送出裝置100及第2離子送出裝置200之詳細配置。8, the detailed arrangement|positioning of the 1st ion sending apparatus 100 and the 2nd ion sending apparatus 200 is demonstrated.

如圖1所示，複數個第1離子送出裝置100沿著第1方向D1隔開間隔而設置。於圖8之例中，複數個第1離子送出裝置100沿著第1方向D1以相等間隔而設置。As shown in FIG. 1, the some 1st ion sending apparatus 100 is provided at intervals along the 1st direction D1. In the example of FIG. 8, the some 1st ion sending apparatus 100 is arrange|positioned at equal intervals along 1st direction D1.

具體而言，由複數個第1離子送出裝置100構成之第1行L1沿著第1方向D1延伸。於圖8之例中，俯視下，第1行L1之複數個第1離子送出裝置100大致設置於一條直線上。Specifically, the first row L1 composed of the plurality of first ion sending devices 100 extends along the first direction D1. In the example of FIG. 8, the some 1st ion sending apparatus 100 of the 1st row L1 is arrange|positioned substantially on a straight line in plan view.

又，複數個第2離子送出裝置200沿著第1方向D1隔開間隔地設置。於圖8之例中，複數個第2離子送出裝置200沿著第1方向D1以相等間隔地設置。Moreover, the some 2nd ion sending apparatus 200 is provided at intervals along the 1st direction D1. In the example of FIG. 8, the some 2nd ion sending apparatus 200 is arrange|positioned at equal intervals along 1st direction D1.

又，由複數個第2離子送出裝置200構成之第2行L2沿著第1方向D1延伸。於圖8之例中，俯視下，第2行L2之複數個第2離子送出裝置200大致設置於一條直線上。第1行L1與第2行L2於第2方向D2上相互對向。而且，俯視下，第1行L1與第2行L2之間距離最近之第1離子送出裝置100與第2離子送出裝置200於第2方向D2上相互對向。Moreover, the 2nd row L2 which consists of the some 2nd ion sending apparatus 200 is extended along the 1st direction D1. In the example of FIG. 8 , the plurality of second ion sending devices 200 in the second row L2 are arranged approximately on a straight line when viewed from above. The first row L1 and the second row L2 face each other in the second direction D2. And the 1st ion sending apparatus 100 and the 2nd ion sending apparatus 200 which have the shortest distance between the 1st row L1 and the 2nd row L2 face each other in the 2nd direction D2 in planar view.

因此，根據實施方式2，既能抑制離子送出裝置(第1離子送出裝置100及第2離子送出裝置200)之數量增加，又能有效地對乘坐於移動體VC之人吹送離子。又，能抑制第1離子風F1與第2離子風F2相互衝撞，因此能抑制於第1離子風F1與第2離子風F2之間，離子被中和。Therefore, according to Embodiment 2, while suppressing the increase in the number of ion sending apparatuses (1st ion sending apparatus 100 and the 2nd ion sending apparatus 200), it can blow ion efficiently to the person riding on the moving body VC. Moreover, since the collision of the 1st ion wind F1 and the 2nd ion wind F2 can be suppressed, it can suppress that an ion is neutralized between the 1st ion wind F1 and the 2nd ion wind F2.

(變化例1) 參照圖2～圖4、圖8及圖9，對實施方式2之變化例1之送風系統1進行說明。實施方式2之變化例1相較於參照圖8所說明之實施方式2而言，主要不同點在於：第1離子送出裝置100向3個方向送出第1離子風F1，及第2離子送出裝置200向2個方向送出第2離子風F2。以下，主要說明變化例1與實施方式2之不同點。 (Variation 1) 2-4, FIG. 8, and FIG. 9, the ventilation system 1 of the modification 1 of Embodiment 2 is demonstrated. Variation 1 of Embodiment 2 is mainly different from Embodiment 2 described with reference to FIG. 8 in that the first ion sending device 100 sends the first ion wind F1 in three directions, and the second ion sending device 200 sends out the second ion wind F2 in two directions. Hereinafter, the difference between Modification 1 and Embodiment 2 will be mainly described.

圖9係表示實施方式2之變化例1的第1離子送出裝置100及第2離子送出裝置200之詳細配置之俯視圖。如圖9所示，於移動體VC，設置有複數個第1離子送出裝置100與複數個第2離子送出裝置200。FIG. 9 is a plan view showing the detailed arrangement of the first ion sending device 100 and the second ion sending device 200 according to Modification 1 of the second embodiment. As shown in FIG. 9 , the moving body VC is provided with a plurality of first ion sending devices 100 and a plurality of second ion sending devices 200 .

如圖9所示，第1離子送出裝置100朝向複數個第1落座區域SA1送出第1離子風F1。複數個第1落座區域SA1位於沿著第1方向D1延伸之通道AS之一側。因此，藉由1個第1離子送出裝置100能向複數個第1落座區域SA1吹送第1離子風F1。其結果，即便第1離子送出裝置100之數量少於第1落座區域SA1之數量，亦能有效地向落座於第1落座區域SA1之人送出離子風。As shown in FIG. 9, the 1st ion sending apparatus 100 sends out the 1st ion wind F1 toward the some 1st seating area SA1. The plurality of first seating areas SA1 are located on one side of the passage AS extending along the first direction D1. Therefore, the 1st ion wind F1 can be blown to the some 1st seating area SA1 by one 1st ion sending apparatus 100. As a result, even if the number of the 1st ion sending apparatuses 100 is smaller than the number of the 1st seating area SA1, the ion wind can be efficiently sent to the person seated in the 1st seating area SA1.

具體而言，複數個第1離子送出裝置100各自具有複數個圖2所示之第1吹出口132。例如，第1離子送出裝置100具有3個第1吹出口132。3個第1吹出口132中之2個第1吹出口132配置於第1離子送出裝置100之與第2離子送出裝置200對向之面。3個第1吹出口132中之1個第1吹出口132配置於第1離子送出裝置100之與移動體VC之壁對向之面。即，第1離子送出裝置100送出複數股第1離子風。具體而言，第1離子送出裝置100送出第1離子風F1B、第1離子風F1C及第1離子風F1D。Specifically, each of the plurality of first ion sending devices 100 has a plurality of first air outlets 132 shown in FIG. 2 . For example, the first ion sending device 100 has three first air outlets 132 . The two first air outlets 132 among the three first air outlets 132 are arranged in a pair between the first ion sending device 100 and the second ion sending device 200 . to the face. One of the three first air outlets 132 is disposed on the surface of the first ion sending device 100 facing the wall of the moving body VC. That is, the first ion sending device 100 sends out a plurality of first ion winds. Specifically, the first ion sending device 100 sends out the first ion wind F1B, the first ion wind F1C, and the first ion wind F1D.

例如，如圖3所示，剖視下，第1送風部105藉由相對於第2方向D2朝向斜下方送出第1離子風F1B，而使第1離子風F1B到達第1落座區域SA1。如圖9所示，俯視下，第1離子風F1B係朝向第3方向D3之側自第1送風部105送出。具體而言，第1離子送出裝置100朝向配置於第3落座區域SA3之第3方向D3之側的第1落座區域SA1，送出第1離子風F1B。For example, as shown in FIG. 3, the 1st ventilation part 105 makes the 1st ion wind F1B reach 1st seating area SA1 by sending out the 1st ion wind F1B diagonally downward with respect to 2nd direction D2 in cross-sectional view. As shown in FIG. 9, the 1st ion wind F1B is sent from the 1st ventilation part 105 toward the side of the 3rd direction D3 in planar view. Specifically, the first ion sending device 100 sends out the first ion wind F1B toward the first seating area SA1 disposed on the side of the third seating area SA3 in the third direction D3.

例如，剖視下，第1送風部105藉由相對於第2方向D2朝向斜下方送出第1離子風F1C，而使第1離子風F1C到達第1落座區域SA1。如圖9所示，俯視下，第1離子風F1C係朝向第4方向D4之側自第1送風部105送出。具體而言，第1離子送出裝置100朝向配置於第3落座區域SA3之第4方向D4之側的第1落座區域SA1，送出第1離子風F1C。For example, the 1st ventilation part 105 sends out the 1st ion wind F1C diagonally downward with respect to 2nd direction D2, and makes 1st ion wind F1C reach 1st seating area SA1 in cross-sectional view. As shown in FIG. 9, the 1st ion wind F1C is sent from the 1st ventilation part 105 toward the side of the 4th direction D4 in planar view. Specifically, the first ion sending device 100 sends the first ion wind F1C toward the first seating area SA1 disposed on the side of the fourth direction D4 of the third seating area SA3.

進而，例如，剖視下，第1送風部105藉由相對於鉛直方向朝向斜下方送出第1離子風F1D，而使第1離子風F1D到達第2落座區域SA2。具體而言，第1離子送出裝置100向配置於第1離子送出裝置100之第6方向D6之側的第2落座區域SA2，送出第1離子風F1C。Furthermore, for example, the 1st ventilation part 105 sends out the 1st ion wind F1D diagonally downward with respect to a vertical direction, and makes 1st ion wind F1D reach 2nd seating area SA2, for example. Specifically, the first ion sending device 100 sends the first ion wind F1C to the second seating area SA2 arranged on the side of the sixth direction D6 of the first ion sending device 100 .

換言之，第1離子送出裝置100能向複數個第1落座區域SA1與第2落座區域SA2送出第1離子風F1。因此，由第2離子送出裝置200朝向第2落座區域SA2吹送之第2離子風F2A與由第1離子送出裝置100朝向第2落座區域SA2吹送之第1離子風F1D會合流。其結果，能使第2落座區域SA2之離子濃度提高。In other words, the 1st ion sending apparatus 100 can send out the 1st ion wind F1 to the some 1st seating area SA1 and the 2nd seating area SA2. Therefore, the 2nd ion wind F2A blown toward the 2nd seating area SA2 by the 2nd ion sending apparatus 200 merges with the 1st ion wind F1D blown toward the 2nd seating area SA2 by the 1st ion sending apparatus 100. As a result, the ion concentration of the 2nd seating area SA2 can be improved.

第2離子送出裝置200向配置於第2離子送出裝置200之第6方向D6之側的第2落座區域SA2，送出第2離子風F2A。第2離子風F2A會通過自第1離子送出裝置100送出之第1離子風F1B與第1離子風F1C之間。由於能抑制第1離子風F1B、第1離子風F1C及第2離子風F2A相互衝撞，因此能於第1離子風F1與第2離子風F2之間，抑制離子被中和。The second ion sending device 200 sends out the second ion wind F2A to the second seating area SA2 arranged on the side of the sixth direction D6 of the second ion sending device 200 . The second ion wind F2A passes between the first ion wind F1B and the first ion wind F1C sent from the first ion sending device 100 . Since the collision of the first ion wind F1B, the first ion wind F1C, and the second ion wind F2A can be suppressed, neutralization of ions between the first ion wind F1 and the second ion wind F2 can be suppressed.

進而，第2離子送出裝置200向配置於第2離子送出裝置200之第5方向D5之側的第3落座區域SA3，送出第2離子風F2D。即，第2離子送出裝置200能有效地對落座於第2落座區域SA2之人、及落座於第3落座區域SA3之人吹送離子。因此，能降低第3落座區域SA3中之第2離子風F2之濃度與第1落座區域SA1中之第1離子風F1之濃度之差。其結果，能使第1座席C1之離子濃度變得均勻。Furthermore, the 2nd ion sending apparatus 200 sends out the 2nd ion wind F2D to the 3rd seating area SA3 arrange|positioned at the 5th direction D5 side of the 2nd ion sending apparatus 200. That is, the 2nd ion sending apparatus 200 can blow ion efficiently to the person seated in the 2nd seating area SA2, and the person seated in the 3rd seating area SA3. Therefore, the difference between the density|concentration of the 2nd ion wind F2 in the 3rd seating area SA3, and the density|concentration of the 1st ion wind F1 in the 1st seating area SA1 can be reduced. As a result, the ion concentration of the first seat C1 can be made uniform.

(變化例2) 參照圖2～圖4、圖8及圖10，對實施方式2之變化例2之送風系統1進行說明。實施方式2之變化例2相較於參照圖8所說明之實施方式2而言，主要不同點在於：第1離子送出裝置100向2個方向送出第1離子風F1，及第2離子送出裝置200向3個方向送出第2離子風F2。以下，主要說明變化例2與實施方式2之不同點。 (Variation 2) 2-4, FIG. 8, and FIG. 10, the ventilation system 1 of the modification 2 of Embodiment 2 is demonstrated. Variation 2 of Embodiment 2 is mainly different from Embodiment 2 described with reference to FIG. 8 in that the first ion sending device 100 sends the first ion wind F1 in two directions, and the second ion sending device 200 sends out the second ion wind F2 in three directions. Hereinafter, the difference between Modification 2 and Embodiment 2 will be mainly described.

圖10係表示實施方式2之變化例2的第1離子送出裝置100及第2離子送出裝置200之詳細配置之俯視圖。如圖10所示，於移動體VC，設置有複數個第1離子送出裝置100與複數個第2離子送出裝置200。FIG. 10 is a plan view showing the detailed arrangement of the first ion sending device 100 and the second ion sending device 200 according to the modification 2 of the second embodiment. As shown in FIG. 10 , the moving body VC is provided with a plurality of first ion sending devices 100 and a plurality of second ion sending devices 200 .

如圖10所示，第2離子送出裝置200朝向複數個第2落座區域SA2送出第2離子風F2。複數個第2落座區域SA2位於沿著第1方向D1延伸之通道AS之另一側。因此，藉由1個第2離子送出裝置200能向複數個第2落座區域SA2吹送第2離子風F2。其結果，即便第2離子送出裝置200之數量少於第2落座區域SA2之數量，亦能有效地向落座於第2落座區域SA2之人送出離子風。As shown in FIG. 10, the 2nd ion sending apparatus 200 sends out the 2nd ion wind F2 toward the some 2nd seating area SA2. The plurality of second seating areas SA2 are located on the other side of the passage AS extending along the first direction D1. Therefore, the 2nd ion wind F2 can be blown to the some 2nd seating area SA2 by one 2nd ion sending apparatus 200. As a result, even if the number of the second ion sending apparatuses 200 is smaller than the number of the second seating area SA2, the ion wind can be efficiently sent to the person seated in the second seating area SA2.

具體而言，複數個第2離子送出裝置200各自具有複數個圖2所示之第2吹出口232。例如，第2離子送出裝置200具有3個第2吹出口232。3個第2吹出口232中之2個第2吹出口232配置於第2離子送出裝置200之與第1離子送出裝置100對向之面。3個第2吹出口232中之1個第2吹出口232配置於第2離子送出裝置200之與移動體VC之壁相對向之面。即，第2離子送出裝置200送出複數股第2離子風。具體而言，第2離子送出裝置200送出第2離子風F2B、第2離子風F2C及第2離子風F2D。Specifically, each of the plurality of second ion sending devices 200 has a plurality of second air outlets 232 shown in FIG. 2 . For example, the second ion sending device 200 has three second blowing ports 232 . The two second blowing ports 232 of the three second blowing ports 232 are arranged between the second ion sending device 200 and the first ion sending device 100 . to the face. One of the three second air outlets 232 is disposed on the surface of the second ion sending device 200 facing the wall of the moving body VC. That is, the second ion sending device 200 sends a plurality of second ion winds. Specifically, the second ion sending device 200 sends out the second ion wind F2B, the second ion wind F2C, and the second ion wind F2D.

例如，如圖4所示，剖視下，第2送風部205藉由相對於第2方向D2朝向斜下方送出第2離子風F2B，而使第2離子風F2B到達第2落座區域SA2。如圖9所示，俯視下，第2離子風F2B係朝向第3方向D3之側自第2送風部205送出。具體而言，第2離子送出裝置200朝向配置於第4落座區域SA4之第3方向D3之側的第2落座區域SA2，送出第2離子風F2B。For example, as shown in FIG. 4, the 2nd ventilation part 205 makes the 2nd ion wind F2B reach 2nd seating area SA2 by sending out 2nd ion wind F2B diagonally downward with respect to 2nd direction D2 in cross-sectional view. As shown in FIG. 9, the 2nd ion wind F2B is sent out from the 2nd ventilation part 205 toward the side of the 3rd direction D3 in planar view. Specifically, the second ion sending device 200 sends the second ion wind F2B toward the second seating area SA2 disposed on the side of the third direction D3 of the fourth seating area SA4.

例如，剖視下，第2送風部205藉由相對於第2方向D2朝向斜下方送出第2離子風F2C，而使第2離子風F2C到達第2落座區域SA2。如圖9所示，俯視下，第2離子風F2C係朝向第4方向D4之側自第2送風部205送出。具體而言，第2離子送出裝置200朝向配置於第4落座區域SA4之第4方向D4之側的第2落座區域SA2，送出第2離子風F2C。For example, the 2nd ventilation part 205 sends out the 2nd ion wind F2C diagonally downward with respect to 2nd direction D2 in cross-section, and makes 2nd ion wind F2C reach 2nd seating area SA2. As shown in FIG. 9, the 2nd ion wind F2C is sent out from the 2nd ventilation part 205 toward the side of the 4th direction D4 in planar view. Specifically, the second ion sending device 200 sends the second ion wind F2C toward the second seating area SA2 disposed on the side of the fourth seating area SA4 in the fourth direction D4.

進而，例如，剖視下，第2送風部205藉由相對於鉛直方向朝向斜下方送出第2離子風F2D，而使第2離子風F2D到達第1落座區域SA1。具體而言，第2離子送出裝置200向配置於第2離子送出裝置200之第5方向D5之側的第1落座區域SA1，送出第2離子風F2D。Furthermore, for example, the 2nd ventilation part 205 sends out the 2nd ion wind F2D diagonally downward with respect to a vertical direction, and makes the 2nd ion wind F2D reach 1st seating area SA1, for example. Specifically, the second ion sending device 200 sends the second ion wind F2D to the first seating area SA1 arranged on the side of the second ion sending device 200 in the fifth direction D5.

換言之，第2離子送出裝置200能向第1落座區域SA1與複數個第2落座區域SA2送出第2離子風F2。因此，由第1離子送出裝置100朝向第1落座區域SA1吹送之第1離子風F1A與由第2離子送出裝置200朝向第1落座區域SA1吹送之第2離子風F2D會合流。其結果，能使第1落座區域SA1之離子濃度提高。In other words, the second ion sending device 200 can send the second ion wind F2 to the first seating area SA1 and the plurality of second seating areas SA2. Therefore, the 1st ion wind F1A blown toward the 1st seating area SA1 by the 1st ion sending apparatus 100 merges with the 2nd ion wind F2D blown toward the 1st seating area SA1 by the 2nd ion sending apparatus 200. As a result, the ion concentration of the 1st seating area SA1 can be improved.

第1離子送出裝置100向配置於第1離子送出裝置100之第5方向D5之側的第1落座區域SA1，送出第1離子風F1A。第1離子風F1A會通過自第2離子送出裝置200送出之第2離子風F2B與第2離子風F2C之間。由於能抑制第2離子風F2B、第2離子風F2C及第1離子風F1A相互衝撞，因此能抑制於第1離子風F1與第2離子風F2之間，離子被中和。The 1st ion sending apparatus 100 sends out 1st ion wind F1A to 1st seating area SA1 arrange|positioned at the 5th direction D5 side of the 1st ion sending apparatus 100. The first ion wind F1A passes between the second ion wind F2B and the second ion wind F2C sent from the second ion sending device 200 . Since the second ion wind F2B, the second ion wind F2C, and the first ion wind F1A can be suppressed from colliding with each other, the ions can be suppressed from being neutralized between the first ion wind F1 and the second ion wind F2.

進而，第1離子送出裝置100向配置於第1離子送出裝置100之第6方向D6之側的第4落座區域SA4，送出第1離子風F1D。即，第1離子送出裝置100能有效地對落座於第1落座區域SA1之人、及落座於第4落座區域SA4之人吹送離子。因此，能降低第4落座區域SA4中之第1離子風F1之濃度與第2落座區域SA2中之第2離子風F2之濃度之差。其結果，能使第2座席C2之離子濃度變得均勻。Furthermore, the 1st ion sending apparatus 100 sends out the 1st ion wind F1D to the 4th seating area SA4 arrange|positioned at the 6th direction D6 side of the 1st ion sending apparatus 100. That is, the 1st ion sending apparatus 100 can blow ion efficiently to the person seated in 1st seating area SA1, and the person seated in 4th seating area SA4. Therefore, the difference between the density|concentration of the 1st ion wind F1 in the 4th seating area SA4, and the density|concentration of the 2nd ion wind F2 in the 2nd seating area SA2 can be reduced. As a result, the ion concentration of the second seat C2 can be made uniform.

[實施方式3] 參照圖11～圖13，對實施方式3之送風系統1進行說明。實施方式3相較於參照圖1所說明之實施方式1、及參照圖8所說明之實施方式2而言，主要不同點在於：第1離子送出裝置100具有第1輸出部141，及第2離子送出裝置200具有第2輸出部241。以下，於實施方式3中，主要說明與實施方式1及實施方式2之不同點。 [Embodiment 3] 11-13, the ventilation system 1 of Embodiment 3 is demonstrated. Compared with Embodiment 1 described with reference to FIG. 1 and Embodiment 2 described with reference to FIG. 8 , Embodiment 3 is mainly different in that the first ion sending device 100 has a first output unit 141 and a second The ion sending apparatus 200 has a second output unit 241 . Hereinafter, in Embodiment 3, differences from Embodiment 1 and Embodiment 2 will be mainly described.

圖11係表示實施方式3之送風系統1的第1離子送出裝置100之構成之方塊圖。如圖11所示，第1離子送出裝置100包含第1產生部101、第1送風部105、第1輸出部141、第1檢測部142、第1控制部150及第1記憶部160。FIG. 11 is a block diagram showing the configuration of the first ion sending device 100 of the ventilation system 1 according to the third embodiment. As shown in FIG. 11 , the first ion sending device 100 includes a first generation unit 101 , a first blower unit 105 , a first output unit 141 , a first detection unit 142 , a first control unit 150 , and a first memory unit 160 .

第1產生部101產生離子。第1產生部101產生第1極性離子及/或第2極性離子。The first generating unit 101 generates ions. The first generating unit 101 generates first polar ions and/or second polar ions.

第1送風部105送出空氣。The first air blower 105 sends out air.

第1輸出部141輸出聲音。聲音例如包括警告音或語音。第1輸出部141例如為揚聲器。The first output unit 141 outputs sound. Sounds include, for example, warning tones or speech. The first output unit 141 is, for example, a speaker.

第1檢測部142檢測人。具體而言，第1檢測部142檢測人之接近。該情形時，第1檢測部142例如為測距感測器。即，第1檢測部142向第1控制部150輸出根據人與第1檢測部142之距離而形成之信號。The first detection unit 142 detects a person. Specifically, the first detection unit 142 detects the approach of a person. In this case, the first detection unit 142 is, for example, a ranging sensor. That is, the first detection unit 142 outputs a signal formed according to the distance between the person and the first detection unit 142 to the first control unit 150 .

又，第1檢測部142亦可檢測人是否與第1離子送出裝置100之第1殼體110接觸。該情形時，第1檢測部142例如為感壓感測器。感壓感測器向第1控制部150輸出根據壓力而形成之信號。即，第1檢測部142向第1控制部150輸出根據人與第1離子送出裝置100之第1殼體110接觸所產生之壓力而形成之信號。Moreover, the 1st detection part 142 can also detect whether a person is in contact with the 1st case 110 of the 1st ion sending apparatus 100. In this case, the first detection unit 142 is, for example, a pressure-sensitive sensor. The pressure-sensitive sensor outputs a signal based on the pressure to the first control unit 150 . That is, the first detection unit 142 outputs to the first control unit 150 a signal based on the pressure generated by the contact between the person and the first casing 110 of the first ion sending device 100 .

第1控制部150包含CPU(Central　Processing　Unit，中央處理單元)或ASIC(Application　Specific　Integrated　Circuit，專用積體電路)等處理器、及記憶裝置。例如，第1控制部150自第1離子送出裝置100之各要素接收各種信號，而基於所接收到之信號，控制第1離子送出裝置100之各要素。具體而言，第1控制部150控制第1產生部101、第1送風部105、第1輸出部141、第1檢測部142及第1記憶部160等第1離子送出裝置100之各要素。The first control unit 150 includes a processor such as a CPU (Central Processing Unit) or an ASIC (Application Specific Integrated Circuit), and a memory device. For example, the 1st control part 150 receives various signals from each element of the 1st ion transmission apparatus 100, and controls each element of the 1st ion transmission apparatus 100 based on the received signal. Specifically, the 1st control part 150 controls each element of the 1st ion sending apparatus 100, such as the 1st generation part 101, the 1st ventilation part 105, the 1st output part 141, the 1st detection part 142, and the 1st memory part 160.

第1記憶部160記憶資料及電腦程式。例如，第1記憶部160暫時記憶第1控制部150之各處理所需之資料。第1記憶部160包含記憶裝置(主記憶裝置及輔助記憶裝置)，例如包含記憶體及硬碟驅動器。第1記憶部160亦能包含可移動媒體。The first memory unit 160 stores data and computer programs. For example, the first memory unit 160 temporarily stores data necessary for each process of the first control unit 150 . The first memory unit 160 includes memory devices (a main memory device and an auxiliary memory device), for example, a memory and a hard disk drive. The first storage unit 160 may also include a removable medium.

繼續參照圖11，對第1控制部150所執行之處理進行說明。如圖11所示，第1控制部150包含第1輸出控制部151。第1控制部150藉由執行第1記憶部160中記憶之電腦程式，而使第1輸出控制部151發揮功能。11, the processing executed by the first control unit 150 will be described. As shown in FIG. 11 , the first control unit 150 includes a first output control unit 151 . The first control unit 150 causes the first output control unit 151 to function by executing the computer program stored in the first memory unit 160 .

第1輸出控制部151控制第1輸出部141。具體而言，第1輸出控制部151基於第1檢測部142之檢測結果，控制第1輸出部141，使第1輸出部141輸出聲音。因此，第1離子送出裝置100能對第1檢測部142所檢測到之人輸出聲音。其結果，能以聲音對人進行警告。The first output control unit 151 controls the first output unit 141 . Specifically, the first output control unit 151 controls the first output unit 141 based on the detection result of the first detection unit 142 to cause the first output unit 141 to output sound. Therefore, the 1st ion sending apparatus 100 can output a sound to the person detected by the 1st detection part 142. As a result, it is possible to warn a person with a sound.

更具體而言，第1檢測部142之檢測結果為表示檢測到了人之檢測結果之情形時，第1輸出控制部151控制第1輸出部141，使第1輸出部141輸出聲音。因此，第1離子送出裝置100能對第1檢測部142所檢測到之人輸出聲音。其結果，能以聲音對人進行警告。More specifically, when the detection result of the first detection unit 142 is a detection result indicating that a person has been detected, the first output control unit 151 controls the first output unit 141 so that the first output unit 141 outputs sound. Therefore, the 1st ion sending apparatus 100 can output a sound to the person detected by the 1st detection part 142. As a result, it is possible to warn a person with a sound.

例如，第1檢測部142之檢測結果表示第1離子送出裝置100與人之距離處在特定距離以內之情形時，第1輸出控制部151控制第1輸出部141，使第1輸出部141輸出聲音。因此，第1離子送出裝置100能對接近第1離子送出裝置100之人輸出聲音。其結果，能以聲音對人進行警告。For example, when the detection result of the first detection unit 142 indicates that the distance between the first ion sending device 100 and the person is within a certain distance, the first output control unit 151 controls the first output unit 141 to output the output from the first output unit 141 sound. Therefore, the 1st ion sending apparatus 100 can output a sound to the person approaching the 1st ion sending apparatus 100. As a result, it is possible to warn a person with a sound.

進而，例如，第1檢測部142之檢測結果表示人與第1離子送出裝置100接觸之情形時，第1輸出控制部151控制第1輸出部141，使第1輸出部141輸出聲音。因此，第1離子送出裝置100能對接近第1離子送出裝置100之人輸出聲音。其結果，能以聲音對人進行警告。Furthermore, for example, when the detection result of the 1st detection part 142 shows that a person is in contact with the 1st ion sending apparatus 100, the 1st output control part 151 controls the 1st output part 141, and makes the 1st output part 141 output a sound. Therefore, the 1st ion sending apparatus 100 can output a sound to the person approaching the 1st ion sending apparatus 100. As a result, it is possible to warn a person with a sound.

圖12係表示實施方式3之送風系統1的第2離子送出裝置200之構成之方塊圖。如圖12所示，第2離子送出裝置200包含第2產生部201、第2送風部205、第2輸出部241、第2檢測部242、第2控制部250及第2記憶部260。FIG. 12 is a block diagram showing the configuration of the second ion sending device 200 of the ventilation system 1 according to the third embodiment. As shown in FIG. 12 , the second ion sending device 200 includes a second generation unit 201 , a second blower unit 205 , a second output unit 241 , a second detection unit 242 , a second control unit 250 , and a second memory unit 260 .

圖12所示之第2離子送出裝置200之構成與參照圖11所說明之實施方式3之第1離子送出裝置100之構成相同。The structure of the 2nd ion sending apparatus 200 shown in FIG. 12 is the same as the structure of the 1st ion sending apparatus 100 of Embodiment 3 demonstrated with reference to FIG. 11. FIG.

第2產生部201產生離子。第2產生部201產生第1極性離子及/或第2極性離子。The second generation unit 201 generates ions. The second generation unit 201 generates first polar ions and/or second polar ions.

第2送風部205送出空氣。The second air blower 205 sends out air.

第2輸出部241輸出聲音。聲音例如包括警告音或語音。第2輸出部241例如為揚聲器。The second output unit 241 outputs sound. Sounds include, for example, warning tones or speech. The second output unit 241 is, for example, a speaker.

第2檢測部242檢測人。具體而言，第2檢測部242檢測人之接近。該情形時，第2檢測部242例如為測距感測器。即，第2檢測部242向第2控制部250輸出根據人與第2檢測部242之距離而形成之信號。The second detection unit 242 detects a person. Specifically, the second detection unit 242 detects the approach of a person. In this case, the second detection unit 242 is, for example, a ranging sensor. That is, the second detection unit 242 outputs a signal formed according to the distance between the person and the second detection unit 242 to the second control unit 250 .

又，第2檢測部242亦可檢測人是否與第2離子送出裝置200之第2殼體210接觸。該情形時，第2檢測部242例如為感壓感測器。即，第2檢測部242向第2控制部250輸出根據人與第2離子送出裝置200之第2殼體210接觸所產生之壓力而形成的信號。In addition, the second detection unit 242 may detect whether or not a person is in contact with the second casing 210 of the second ion sending device 200 . In this case, the second detection unit 242 is, for example, a pressure-sensitive sensor. That is, the second detection unit 242 outputs to the second control unit 250 a signal based on the pressure generated by the contact between the person and the second casing 210 of the second ion sending device 200 .

第2控制部250包含CPU或ASIC等處理器、及記憶裝置。例如，第2控制部250自第2離子送出裝置200之各要素接收各種信號，而基於所接收到之信號，控制第2離子送出裝置200之各要素。具體而言，第2控制部250控制第2產生部201、第2送風部205、第2輸出部241、第2檢測部242及第2記憶部260等第2離子送出裝置200之各要素。The second control unit 250 includes a processor such as a CPU or an ASIC, and a memory device. For example, the 2nd control part 250 receives various signals from each element of the 2nd ion transmission apparatus 200, and controls each element of the 2nd ion transmission apparatus 200 based on the received signal. Specifically, the second control unit 250 controls each element of the second ion sending device 200 such as the second generation unit 201 , the second blower unit 205 , the second output unit 241 , the second detection unit 242 , and the second memory unit 260 .

第2記憶部260記憶資料及電腦程式。例如，第2記憶部260暫時記憶第2控制部250之各處理所需之資料。第2記憶部260包含記憶裝置(主記憶裝置及輔助記憶裝置)，例如包含記憶體及硬碟驅動器。第2記憶部260亦能包含可移動媒體。The second memory unit 260 stores data and computer programs. For example, the second memory unit 260 temporarily stores data necessary for each process of the second control unit 250 . The second memory portion 260 includes memory devices (a main memory device and an auxiliary memory device), for example, a memory and a hard disk drive. The second storage unit 260 may also include a removable medium.

繼續參照圖12，對第2控制部250所執行之處理進行說明。如圖12所示，第2控制部250包含第2輸出控制部251。第2控制部250藉由執行第2記憶部260中記憶之電腦程式，而使第2輸出控制部251發揮功能。12, the processing executed by the second control unit 250 will be described. As shown in FIG. 12 , the second control unit 250 includes a second output control unit 251 . The second control unit 250 causes the second output control unit 251 to function by executing the computer program stored in the second memory unit 260 .

第2輸出控制部251控制第2輸出部241。具體而言，第2輸出控制部251基於第2檢測部242之檢測結果，控制第2輸出部241，使第2輸出部241輸出聲音。因此，第2離子送出裝置200能對第2檢測部242所檢測到之人輸出聲音。其結果，能以聲音對人進行警告。The second output control unit 251 controls the second output unit 241 . Specifically, the second output control unit 251 controls the second output unit 241 based on the detection result of the second detection unit 242 to cause the second output unit 241 to output sound. Therefore, the 2nd ion sending apparatus 200 can output a sound to the person detected by the 2nd detection part 242. As a result, it is possible to warn a person with a sound.

更具體而言，第2檢測部242之檢測結果為表示檢測到了人之檢測結果之情形時，第2輸出控制部251控制第2輸出部241，使第2輸出部241輸出聲音。因此，第2離子送出裝置200能對第2檢測部242所檢測到之人輸出聲音。其結果，能以聲音對人進行警告。More specifically, when the detection result of the second detection unit 242 indicates that a person has been detected, the second output control unit 251 controls the second output unit 241 to output sound. Therefore, the 2nd ion sending apparatus 200 can output a sound to the person detected by the 2nd detection part 242. As a result, it is possible to warn a person with a sound.

例如，第2檢測部242之檢測結果表示第2離子送出裝置200與人之距離處在特定距離以內之情形時，第2輸出控制部251控制第2輸出部241，使第2輸出部241輸出聲音。因此，第2離子送出裝置200能對接近第2離子送出裝置200之人輸出聲音。其結果，能以聲音對人進行警告。For example, when the detection result of the second detection unit 242 indicates that the distance between the second ion sending device 200 and the person is within a certain distance, the second output control unit 251 controls the second output unit 241 to output the output from the second output unit 241 sound. Therefore, the second ion sending device 200 can output sound to the person approaching the second ion sending device 200 . As a result, it is possible to warn a person with a sound.

進而，例如，第2檢測部242之檢測結果表示人與第2離子送出裝置200接觸之情形時，第2輸出控制部251控制第2輸出部241，使第2輸出部241輸出聲音。因此，第2離子送出裝置200能對接近第2離子送出裝置200之人輸出聲音。其結果，能以聲音對人進行警告。Furthermore, for example, when the detection result of the 2nd detection part 242 shows that a person is in contact with the 2nd ion sending apparatus 200, the 2nd output control part 251 controls the 2nd output part 241, and makes the 2nd output part 241 output a sound. Therefore, the second ion sending device 200 can output sound to the person approaching the second ion sending device 200 . As a result, it is possible to warn a person with a sound.

其次，參照圖11～圖13，更詳細地對第1控制部150所執行之處理進行說明。再者，第2控制部250所執行之處理與第1控制部150所執行之處理相同，因此省略說明。圖13係表示實施方式3之送風系統1的第1控制部150所執行之處理之流程圖。第1控制部150所執行之處理包含步驟S101～步驟S103。Next, the processing executed by the first control unit 150 will be described in more detail with reference to FIGS. 11 to 13 . In addition, since the process performed by the 2nd control part 250 is the same as the process performed by the 1st control part 150, description is abbreviate|omitted. FIG. 13 is a flowchart showing the processing executed by the first control unit 150 of the ventilation system 1 according to the third embodiment. The processing executed by the first control unit 150 includes steps S101 to S103.

於步驟S101中，第1輸出控制部151對第1檢測部142是否檢測到了人進行判定。第1檢測部142之檢測結果表示未檢測到人之情形時(於步驟S101中為「否」)，處理進入步驟S103。第1檢測部142之檢測結果表示檢測到了人之情形時(於步驟S101中為「是」)，處理進入步驟S102。In step S101, the first output control unit 151 determines whether or not the first detection unit 142 has detected a person. When the detection result of the first detection unit 142 indicates that no person has been detected (NO in step S101 ), the process proceeds to step S103 . When the detection result of the first detection unit 142 indicates that a person has been detected (YES in step S101 ), the process proceeds to step S102 .

步驟S101中為「是」之情形時，於步驟S102中，第1輸出控制部151控制第1輸出部141，使第1輸出部141輸出聲音。處理進入步驟S103。In the case of "Yes" in step S101, in step S102, the first output control unit 151 controls the first output unit 141 to cause the first output unit 141 to output sound. The process proceeds to step S103.

於步驟S103中，第1控制部150對是否滿足結束條件進行判定。不滿足結束條件之情形時(於步驟S103中為「否」)，處理進入步驟S101。滿足結束條件之情形時(於步驟S103中為「是」)，處理結束。In step S103, the first control unit 150 determines whether or not the end condition is satisfied. When the end condition is not satisfied (NO in step S103), the process proceeds to step S101. When the end condition is satisfied (YES in step S103), the process ends.

再者，第2控制部250執行圖13所示之處理之情形時，將第1輸出部141替換成第2輸出部241，將第1檢測部142替換成第2檢測部242，將第1控制部150替換成第2控制部250，將第1輸出控制部151替換成第2輸出控制部251。Furthermore, when the second control unit 250 executes the processing shown in FIG. 13, the first output unit 141 is replaced by the second output unit 241, the first detection unit 142 is replaced by the second detection unit 242, and the first output unit 142 is replaced by the second detection unit 242. The control unit 150 is replaced by the second control unit 250 , and the first output control unit 151 is replaced by the second output control unit 251 .

實施方式1之第1離子送出裝置100亦可具有實施方式3中所說明之第1離子送出裝置100之第1輸出部141、第1檢測部142、第1控制部150及第1記憶部160。又，實施方式1之第2離子送出裝置200亦可具有實施方式3中所說明之第2離子送出裝置200之第2輸出部241、第2檢測部242、第2控制部250及第2記憶部260。The first ion sending device 100 of the first embodiment may include the first output unit 141 , the first detection unit 142 , the first control unit 150 , and the first memory unit 160 of the first ion sending device 100 described in the third embodiment. . In addition, the second ion sending device 200 of the first embodiment may include the second output unit 241, the second detection unit 242, the second control unit 250, and the second memory of the second ion sending device 200 described in the third embodiment Section 260.

實施方式2之第1離子送出裝置100亦可具有實施方式3中所說明之第1離子送出裝置100之第1輸出部141、第1檢測部142、第1控制部150及第1記憶部160。又，實施方式2之第2離子送出裝置200亦可具有實施方式3中所說明之第2離子送出裝置200之第2輸出部241、第2檢測部242、第2控制部250及第2記憶部260。The first ion sending device 100 of the second embodiment may include the first output unit 141 , the first detection unit 142 , the first control unit 150 , and the first memory unit 160 of the first ion sending device 100 described in the third embodiment. . In addition, the second ion sending device 200 of the second embodiment may include the second output unit 241, the second detection unit 242, the second control unit 250, and the second memory of the second ion sending device 200 described in the third embodiment Section 260.

[實施方式4] 其次，參照圖14～16，對實施方式4之送風系統1進行說明。實施方式4之送風系統1相較於實施方式1之送風系統1～實施方式3之送風系統1而言，不同點在於，會變更送風量。以下，於實施方式4中，主要說明與實施方式1～實施方式3之不同點。 [Embodiment 4] Next, with reference to FIGS. 14-16, the ventilation system 1 of Embodiment 4 is demonstrated. The ventilation system 1 of Embodiment 4 is different from the ventilation system 1 of Embodiment 1 to the ventilation system 1 of Embodiment 3 in that the ventilation volume is changed. Hereinafter, in Embodiment 4, differences from Embodiments 1 to 3 will be mainly described.

圖14係表示實施方式4之送風系統1的第1離子送出裝置100之構成之方塊圖。如圖14所示，第1離子送出裝置100包含第1產生部101、第1送風部105、第3檢測部143、第1控制部150及第1記憶部160。FIG. 14 is a block diagram showing the configuration of the first ion sending device 100 of the ventilation system 1 according to the fourth embodiment. As shown in FIG. 14 , the first ion sending device 100 includes a first generation unit 101 , a first blower unit 105 , a third detection unit 143 , a first control unit 150 , and a first memory unit 160 .

第1產生部101產生離子。第1產生部101產生第1極性離子及/或第2極性離子。The first generating unit 101 generates ions. The first generating unit 101 generates first polar ions and/or second polar ions.

第1送風部105送出空氣。The first air blower 105 sends out air.

第3檢測部143檢測人。具體而言，第3檢測部143藉由檢測人之熱量，而檢測人。第3檢測部143例如為焦電型紅外線感測器。焦電型紅外線感測器檢測自人體釋放之遠紅外線(輻射熱)。The third detection unit 143 detects a person. Specifically, the third detection unit 143 detects a person by detecting the heat of the person. The third detection unit 143 is, for example, a pyroelectric infrared sensor. The pyroelectric infrared sensor detects far infrared rays (radiant heat) emitted from the human body.

第1控制部150包含CPU或ASIC等處理器、及記憶裝置。例如，第1控制部150自第1離子送出裝置100之各要素接收各種信號，而基於所接收到之信號，控制第1離子送出裝置100之各要素。具體而言，第1控制部150控制第1產生部101、第1送風部105、第3檢測部143及第1記憶部160等第1離子送出裝置100之各要素。The first control unit 150 includes a processor such as a CPU or an ASIC, and a memory device. For example, the 1st control part 150 receives various signals from each element of the 1st ion transmission apparatus 100, and controls each element of the 1st ion transmission apparatus 100 based on the received signal. Specifically, the 1st control part 150 controls each element of the 1st ion sending apparatus 100, such as the 1st generation part 101, the 1st ventilation part 105, the 3rd detection part 143, and the 1st memory part 160.

第1記憶部160記憶資料及電腦程式。例如，第1記憶部160暫時記憶第1控制部150之各處理所需之資料。第1記憶部160包含記憶裝置(主記憶裝置及輔助記憶裝置)，例如包含記憶體及硬碟驅動器。第1記憶部160亦能包含可移動媒體。The first memory unit 160 stores data and computer programs. For example, the first memory unit 160 temporarily stores data necessary for each process of the first control unit 150 . The first memory unit 160 includes memory devices (a main memory device and an auxiliary memory device), for example, a memory and a hard disk drive. The first storage unit 160 may also include a removable medium.

繼續參照圖14，對第1控制部150所執行之處理進行說明。如圖14所示，第1控制部150包含第1送風控制部152與第1判定部153。第1控制部150藉由執行第1記憶部160中記憶之電腦程式，而使第1送風控制部152及第1判定部153發揮功能。14, the processing executed by the first control unit 150 will be described. As shown in FIG. 14 , the first control unit 150 includes a first ventilation control unit 152 and a first determination unit 153 . The 1st control part 150 makes the 1st ventilation control part 152 and the 1st determination part 153 function by executing the computer program memorize|stored in the 1st memory part 160.

第1判定部153基於第3檢測部143之檢測結果，對人多不多進行判定。具體而言，第1判定部153基於在特定期間內第3檢測部143所檢測到之人之熱量，對人多不多進行判定。更具體而言，在特定期間內第3檢測部143所檢測到之人之熱量大於閾值之情形時，第1判定部153判定為人多。又，在特定期間內第3檢測部143所檢測到之人之熱量不大於閾值之情形時，第1判定部153判定為人不多。The first determination unit 153 determines the number of people based on the detection result of the third detection unit 143 . Specifically, the first determination unit 153 determines the number of people based on the heat of the person detected by the third detection unit 143 within a specific period. More specifically, the first determination unit 153 determines that there are many people when the calorific value of the person detected by the third detection unit 143 is greater than the threshold value within a specific period of time. In addition, when the calorific value of the person detected by the third detection unit 143 is not greater than the threshold value within a specific period, the first determination unit 153 determines that there are not many people.

第1送風控制部152基於第1判定部153之判定結果，控制第1送風部105。因此，能根據人之多少，變更第1送風部105之送風量。其結果，能根據人之多少，變更離子之濃度。The 1st ventilation control part 152 controls the 1st ventilation part 105 based on the determination result of the 1st determination part 153. Therefore, the blowing volume of the first blowing part 105 can be changed according to the number of people. As a result, the concentration of ions can be changed according to the number of people.

具體而言，第1判定部153之判定結果表示在特定期間內第3檢測部143所檢測到之人之熱量不大於閾值之情形時，第1送風控制部152控制第1送風部105，使第1送風部105之風量自對第1送風部105所設定之當前風量變更成第1風量。又，第1判定部153之判定結果表示在特定期間內第3檢測部143所檢測到之人之熱量大於閾值之情形時，第1送風控制部152控制第1送風部105，使第1送風部105之風量自對第1送風部105所設定之當前風量變更成第2風量。第2風量係大於第1風量之風量。Specifically, when the determination result of the first determination unit 153 indicates that the heat of the person detected by the third detection unit 143 is not greater than the threshold value within a certain period of time, the first air supply control unit 152 controls the first air supply unit 105 so that the The air volume of the 1st ventilation part 105 is changed from the current air volume set to the 1st ventilation part 105 to the 1st air volume. In addition, when the determination result of the first determination unit 153 indicates that the heat of the person detected by the third detection unit 143 is greater than the threshold value within a certain period, the first air blowing control unit 152 controls the first air blowing unit 105 to make the first air blowing The air volume of the part 105 is changed from the current air volume set to the first air supply part 105 to the second air volume. The second air volume is an air volume larger than the first air volume.

圖15係表示實施方式4之送風系統1的第2離子送出裝置200之構成之方塊圖。如圖15所示，第2離子送出裝置200包含第2產生部201、第2送風部205、第4檢測部243、第2控制部250及第2記憶部260。FIG. 15 is a block diagram showing the configuration of the second ion sending device 200 of the ventilation system 1 according to the fourth embodiment. As shown in FIG. 15 , the second ion sending device 200 includes a second generation unit 201 , a second blower unit 205 , a fourth detection unit 243 , a second control unit 250 , and a second memory unit 260 .

圖15所示之第2離子送出裝置200之構成與參照圖14所說明之實施方式4之第1離子送出裝置100之構成相同。The structure of the 2nd ion sending apparatus 200 shown in FIG. 15 is the same as the structure of the 1st ion sending apparatus 100 of Embodiment 4 demonstrated with reference to FIG. 14. FIG.

第2產生部201產生離子。第2產生部201產生第1極性離子及/或第2極性離子。The second generation unit 201 generates ions. The second generation unit 201 generates first polar ions and/or second polar ions.

第2送風部205送出空氣。The second air blower 205 sends out air.

第4檢測部243檢測人。具體而言，第4檢測部243藉由檢測人之熱量，而檢測人。第4檢測部243例如為焦電型紅外線感測器。焦電型紅外線感測器檢測自人體釋放之遠紅外線(輻射熱)。The fourth detection unit 243 detects a person. Specifically, the fourth detection unit 243 detects a person by detecting the heat of the person. The fourth detection unit 243 is, for example, a pyroelectric infrared sensor. The pyroelectric infrared sensor detects far infrared rays (radiant heat) emitted from the human body.

第2控制部250包含CPU或ASIC等處理器、及記憶裝置。例如，第2控制部250自第2離子送出裝置200之各要素接收各種信號，而基於所接收到之信號，控制第2離子送出裝置200之各要素。具體而言，第2控制部250控制第2產生部201、第2送風部205、第4檢測部243及第2記憶部260等第2離子送出裝置200之各要素。The second control unit 250 includes a processor such as a CPU or an ASIC, and a memory device. For example, the 2nd control part 250 receives various signals from each element of the 2nd ion transmission apparatus 200, and controls each element of the 2nd ion transmission apparatus 200 based on the received signal. Specifically, the second control unit 250 controls each element of the second ion sending device 200 such as the second generation unit 201 , the second blower unit 205 , the fourth detection unit 243 , and the second memory unit 260 .

第2記憶部260記憶資料及電腦程式。例如，第2記憶部260暫時記憶第2控制部250之各處理所需之資料。第2記憶部260包含記憶裝置(主記憶裝置及輔助記憶裝置)，例如包含記憶體及硬碟驅動器。第2記憶部260亦能包含可移動媒體。The second memory unit 260 stores data and computer programs. For example, the second memory unit 260 temporarily stores data necessary for each process of the second control unit 250 . The second memory portion 260 includes memory devices (a main memory device and an auxiliary memory device), for example, a memory and a hard disk drive. The second storage unit 260 may also include a removable medium.

繼續參照圖15，對第2控制部250所執行之處理進行說明。如圖15所示，第2控制部250包含第2送風控制部252與第2判定部253。第2控制部250藉由執行第2記憶部260中記憶之電腦程式，而使第2送風控制部252及第2判定部253發揮功能。15, the processing executed by the second control unit 250 will be described. As shown in FIG. 15 , the second control unit 250 includes a second ventilation control unit 252 and a second determination unit 253 . The second control unit 250 causes the second air supply control unit 252 and the second determination unit 253 to function by executing the computer program stored in the second memory unit 260 .

第2判定部253基於第4檢測部243之檢測結果，對人多不多進行判定。具體而言，第2判定部253基於在特定期間內第4檢測部243所檢測到之人之熱量，對人多不多進行判定。更具體而言，在特定期間內第4檢測部243所檢測到之人之熱量大於閾值之情形時，第2判定部253判定為人多。又，在特定期間內第4檢測部243所檢測到之人之熱量不大於閾值之情形時，第2判定部253判定為人不多。The second determination unit 253 determines the number of people based on the detection result of the fourth detection unit 243 . Specifically, the second determination unit 253 determines the number of people based on the calorific value of the person detected by the fourth detection unit 243 within a specific period. More specifically, the second determination unit 253 determines that there are many people when the calorific value of the person detected by the fourth detection unit 243 is larger than the threshold value within a specific period of time. In addition, when the calorific value of the person detected by the fourth detection unit 243 is not greater than the threshold value within a specific period, the second determination unit 253 determines that there are not many people.

第2送風控制部252基於第2判定部253之判定結果，控制第2送風部205。因此，能根據人之多少，變更第2送風部205之送風量。其結果，能根據人之多少，變更離子之濃度。The 2nd ventilation control part 252 controls the 2nd ventilation part 205 based on the determination result of the 2nd determination part 253. Therefore, the blowing volume of the second blowing part 205 can be changed according to the number of people. As a result, the concentration of ions can be changed according to the number of people.

具體而言，第2判定部253之判定結果表示在特定期間內第4檢測部243所檢測到之人之熱量不大於閾值之情形時，第2送風控制部252控制第2送風部205，使第2送風部205之風量自對第2送風部205所設定之當前風量變更成第1風量。又，第2判定部253之判定結果表示在特定期間內第4檢測部243所檢測到之人之熱量大於閾值之情形時，第2送風控制部252控制第2送風部205，使第2送風部205之風量自對第2送風部205所設定之當前風量變更成第2風量。Specifically, when the determination result of the second determination unit 253 indicates that the heat of the person detected by the fourth detection unit 243 is not greater than the threshold value within a specific period, the second air supply control unit 252 controls the second air supply unit 205 so that the The air volume of the second air supply unit 205 is changed from the current air volume set to the second air supply unit 205 to the first air volume. In addition, when the determination result of the second determination unit 253 indicates that the heat of the person detected by the fourth detection unit 243 is greater than the threshold value within a certain period of time, the second air supply control unit 252 controls the second air supply unit 205 to cause the second air supply The air volume of the part 205 is changed from the current air volume set to the second air supply part 205 to the second air volume.

其次，參照圖14～圖16，更詳細地對第1控制部150所執行之處理進行說明。再者，第2控制部250所執行之處理與第1控制部150所執行之處理相同，因此省略說明。圖16係表示實施方式4之第1離子送出裝置100的第1控制部150所執行之處理之流程圖。第1控制部150所執行之處理包含步驟S111～步驟S115。Next, the processing executed by the first control unit 150 will be described in more detail with reference to FIGS. 14 to 16 . In addition, since the process performed by the 2nd control part 250 is the same as the process performed by the 1st control part 150, description is abbreviate|omitted. FIG. 16 is a flowchart showing the processing executed by the first control unit 150 of the first ion sending device 100 according to the fourth embodiment. The processing executed by the first control unit 150 includes steps S111 to S115.

於步驟S111中，第1判定部153基於第3檢測部143之檢測結果，對人多不多進行判定。判定為人不多之情形時(於步驟S111中為「否」)，處理進入步驟S115。判定為人多之情形時(於步驟S111中為「是」)，處理進入步驟S112。In step S111 , the first determination unit 153 determines whether there are many people based on the detection result of the third detection unit 143 . When it is determined that there are not many people (NO in step S111 ), the process proceeds to step S115 . When it is determined that there are many people (YES in step S111), the process proceeds to step S112.

步驟S111中為「是」之情形時，於步驟S112中，第1送風控制部152控制第1送風部105，將第1送風部105之風量變更成第2風量。處理進入步驟S113。In the case of YES in step S111, in step S112, the 1st ventilation control part 152 controls the 1st ventilation part 105, and changes the air volume of the 1st ventilation part 105 to the 2nd air volume. The process proceeds to step S113.

於步驟S113中，第1判定部153基於第3檢測部143之檢測結果，對人多不多進行判定。判定為人多之情形時(於步驟S113中為「是」)，處理進入步驟S115。判定為人不多之情形時(於步驟S113中為「否」)，處理進入步驟S114。In step S113 , the first determination unit 153 determines whether there are many people based on the detection result of the third detection unit 143 . When it is determined that there are many people (YES in step S113), the process proceeds to step S115. When it is determined that there are not many people (NO in step S113 ), the process proceeds to step S114 .

步驟S113中為「否」之情形時，於步驟S114中，第1送風控制部152控制第1送風部105，將第1送風部105之風量變更成第1風量。處理進入步驟S115。In the case of NO in step S113, in step S114, the 1st ventilation control part 152 controls the 1st ventilation part 105, and changes the air volume of the 1st ventilation part 105 to the 1st air volume. The process proceeds to step S115.

步驟S111中為「否」之情形時、步驟S113中為「是」之情形時、及步驟S114之後，於步驟S115中，第1控制部150對是否滿足結束條件進行判定。不滿足結束條件之情形時(於步驟S115中為「否」)，處理返回步驟S111。滿足結束條件之情形時(於步驟S115中為「是」)，處理結束。In the case of "No" in step S111, in the case of "Yes" in step S113, and after step S114, in step S115, the first control unit 150 determines whether or not the end condition is satisfied. When the end condition is not satisfied (NO in step S115), the process returns to step S111. When the end condition is satisfied (YES in step S115), the process ends.

再者，第2控制部250執行圖16所示之處理之情形時，將第1送風部105替換成第2送風部205，將第3檢測部143替換成第4檢測部243，將第1控制部150替換成第2控制部250，將第1送風控制部152替換成第2送風控制部252，將第1判定部153替換成第2判定部253。Furthermore, when the second control unit 250 executes the process shown in FIG. 16, the first air blowing unit 105 is replaced by the second air blowing unit 205, the third detecting unit 143 is replaced by the fourth detecting unit 243, and the first The control unit 150 is replaced by the second control unit 250 , the first ventilation control unit 152 is replaced by the second ventilation control unit 252 , and the first determination unit 153 is replaced by the second determination unit 253 .

實施方式1之第1離子送出裝置100、或實施方式2之第1離子送出裝置100亦可具有實施方式4中所說明之第1離子送出裝置100之第3檢測部143、第1控制部150及第1記憶部160。又，實施方式1之第2離子送出裝置200、或實施方式2之第2離子送出裝置200亦可具有實施方式4中所說明之第2離子送出裝置200之第4檢測部243、第2控制部250及第2記憶部260。The first ion sending device 100 of the first embodiment or the first ion sending device 100 of the second embodiment may have the third detection unit 143 and the first control unit 150 of the first ion sending device 100 described in the fourth embodiment. and the first memory unit 160 . Moreover, the 2nd ion sending apparatus 200 of Embodiment 1 or the 2nd ion sending apparatus 200 of Embodiment 2 may have the 4th detection part 243 of the 2nd ion sending apparatus 200 demonstrated in Embodiment 4, and the 2nd control part 250 and the second memory part 260 .

(變化例1) 參照圖17，對實施方式4之變化例1之送風系統1進行說明。實施方式4之變化例1相較於參照圖14～圖16所說明之實施方式4而言，主要不同點在於：第1離子送出裝置100基於第1記憶部160中記憶之預約資訊，控制第1送風部105，及第2離子送出裝置200基於第2記憶部260中記憶之預約資訊，控制第2送風部205。以下，主要說明變化例1與實施方式4之不同點。 (Variation 1) 17, the ventilation system 1 of the modification 1 of Embodiment 4 is demonstrated. Variation 1 of Embodiment 4 is mainly different from Embodiment 4 described with reference to FIGS. 14 to 16 in that the first ion sending device 100 controls the The first air blowing unit 105 and the second ion sending device 200 control the second air blowing unit 205 based on the reservation information stored in the second memory unit 260 . Hereinafter, the difference between Modification 1 and Embodiment 4 will be mainly described.

圖14所示之第1記憶部160記憶預約資訊。第1記憶部160中記憶之預約資訊包含開始送風之時刻、及送風量。具體而言，預約資訊包含：於特定時刻第1離子送出裝置100開始吹送第1離子風F1之資訊；表示第1送風部105之風量之資訊；及於特定時刻第1離子送出裝置100停止吹送第1離子風F1之資訊。The first storage unit 160 shown in FIG. 14 stores reservation information. The reservation information memorized in the first memory unit 160 includes the time to start blowing and the amount of blowing. Specifically, the reservation information includes: information that the first ion sending device 100 starts blowing the first ion wind F1 at a specific time; information that shows the air volume of the first air blower 105 ; and that the first ion sending device 100 stops blowing at a specific time Information on the first ion wind F1.

第1控制部150對時刻進行計時。又，第1控制部150能對所計時刻是否已至特定時刻進行判定。The first control unit 150 counts the time. In addition, the first control unit 150 can determine whether or not the counted time has reached a specific time.

第1送風控制部152基於預約資訊，控制第1送風部105。The 1st ventilation control part 152 controls the 1st ventilation part 105 based on reservation information.

圖15所示之第2記憶部260記憶預約資訊。第2記憶部260中記憶之預約資訊包含開始送風之時刻、及送風量。具體而言，預約資訊包含：於特定時刻第2離子送出裝置200開始吹送第2離子風F2之資訊；表示第2送風部205之風量之資訊；及於特定時刻第2離子送出裝置200停止吹送第2離子風F2之資訊。The second storage unit 260 shown in FIG. 15 stores reservation information. The reservation information memorized in the second memory unit 260 includes the time to start blowing and the amount of blowing. Specifically, the reservation information includes: information that the second ion sending device 200 starts blowing the second ion wind F2 at a specific time; information that indicates the air volume of the second air blowing part 205; and that the second ion sending device 200 stops blowing at a specific time Information on the second ion wind F2.

例如，預約資訊係基於移動體VC之運行資訊而預先製作。運行資訊包含供移動體VC停靠之複數個站點之名稱、及對複數個站點分別規定之抵達時刻。For example, the reservation information is prepared in advance based on the operation information of the mobile VC. The operation information includes the names of a plurality of stations where the mobile body VC stops, and the arrival times respectively specified for the plurality of stations.

再者，預約資訊例如亦可基於會議室之使用預約資訊而預先製作。使用預約資訊包含開始使用會議室之時刻、結束使用會議室之時刻、及使用人數。Furthermore, the reservation information may be pre-created based on the use reservation information of the conference room, for example. The use reservation information includes the time when the conference room is used, the time when the conference room is ended, and the number of users.

第2控制部250對時刻進行計時。又，第2控制部250能對所計時刻是否已至特定時刻進行判定。The second control unit 250 counts the time. In addition, the second control unit 250 can determine whether or not the counted time has reached a specific time.

第2送風控制部252基於預約資訊，控制第2送風部205。因此，能根據製作預約資訊之人之意願，控制送風系統1。其結果，能高效地送出離子風。The second blower control unit 252 controls the second blower unit 205 based on the reservation information. Therefore, the air supply system 1 can be controlled according to the wishes of the person who created the reservation information. As a result, the ion wind can be efficiently sent out.

其次，參照圖17，更詳細地對第1控制部150所執行之處理進行說明。再者，第2控制部250所執行之處理與第1控制部150所執行之處理相同，因此省略說明。圖17係表示實施方式4之變化例1之第1離子送出裝置100的第1控制部150所執行之處理之流程圖。第1控制部150所執行之處理包含步驟S121～步驟S123。Next, referring to FIG. 17 , the processing executed by the first control unit 150 will be described in more detail. In addition, since the process performed by the 2nd control part 250 is the same as the process performed by the 1st control part 150, description is abbreviate|omitted. FIG. 17 is a flowchart showing the processing executed by the first control unit 150 of the first ion sending device 100 according to the modification 1 of the fourth embodiment. The processing executed by the first control unit 150 includes steps S121 to S123.

於步驟S121中，第1控制部150自第1記憶部160取得預約資訊。處理進入步驟S122。In step S121 , the first control unit 150 acquires reservation information from the first memory unit 160 . The process proceeds to step S122.

於步驟S122中，第1控制部150基於預約資訊，對第1控制部150所計時刻是否已至特定時刻進行判定。未至特定時刻之情形時(於步驟S122中為「否」)，處理重複步驟S122。已至特定時刻之情形時(於步驟S122中為「是」)，處理進入步驟S123。In step S122, the first control unit 150 determines whether or not the time counted by the first control unit 150 has reached a specific time based on the reservation information. When the specific time is not reached (NO in step S122), the process repeats step S122. When it has reached the specific time (YES in step S122), the process proceeds to step S123.

步驟S122中為「是」之情形時，於步驟S123中，第1送風控制部152基於預約資訊，控制第1送風部105。具體而言，第1送風控制部152基於預約資訊中包含之表示風量之資訊，變更第1送風部105之風量，送出第1離子風F1。處理至此結束。In the case of "Yes" in step S122, in step S123, the first blower control unit 152 controls the first blower unit 105 based on the reservation information. Specifically, the 1st ventilation control part 152 changes the air volume of the 1st ventilation part 105 based on the information which shows the air volume included in the reservation information, and sends out the 1st ion wind F1. The processing ends here.

再者，第2控制部250執行圖17所示之處理之情形時，將第1送風部105替換成第2送風部205，將第1控制部150替換成第2控制部250，將第1記憶部160替換成第2記憶部260，將第1輸出控制部151替換成第2輸出控制部251。Furthermore, when the second control unit 250 executes the process shown in FIG. 17, the first air blowing unit 105 is replaced by the second air blowing unit 205, the first control unit 150 is replaced by the second control unit 250, and the first The memory unit 160 is replaced by the second memory unit 260 , and the first output control unit 151 is replaced by the second output control unit 251 .

再者，第1送風控制部152亦能以使第1送風部105自較預約資訊所表示之特定時刻早之時刻，開始吹送第1離子風F1之方式，控制第1送風部105。進而，第2送風控制部252亦能以使第2送風部205自較預約資訊所表示之特定時刻早之時刻，開始吹送第2離子風F2之方式，控制第2送風部205。因此，第1離子送出裝置100與第2離子送出裝置200能預先使其設置空間充滿離子。其結果，能於人進入空間之前，預先使空間充滿離子。Furthermore, the 1st ventilation control part 152 can also control the 1st ventilation part 105 so that the 1st ventilation part 105 may start blowing the 1st ion wind F1 from the time earlier than the specific time indicated by reservation information. Furthermore, the 2nd ventilation control part 252 can also control the 2nd ventilation part 205 so that the 2nd ventilation part 205 may start blowing the 2nd ion wind F2 from the time earlier than the specific time indicated by reservation information. Therefore, the 1st ion sending apparatus 100 and the 2nd ion sending apparatus 200 can fill the installation space with ions in advance. As a result, the space can be filled with ions in advance before a person enters the space.

[實施方式5] 其次，參照圖18與圖19，對實施方式5之送風系統1進行說明。實施方式5之送風系統1相較於實施方式1之送風系統1～實施方式4之送風系統1而言，不同點在於：第1離子送出裝置100與第2離子送出裝置200會根據移動體VC之門之開關，變更離子風之吹送量。以下，於實施方式5中，主要說明與實施方式1～實施方式4之不同點。 [Embodiment 5] Next, with reference to FIGS. 18 and 19, the ventilation system 1 of Embodiment 5 is demonstrated. The air supply system 1 of the fifth embodiment is different from the air supply system 1 of the first embodiment to the air supply system 1 of the fourth embodiment in that the first ion sending device 100 and the second ion sending device 200 are based on the moving body VC. The opening and closing of the door changes the blowing amount of the ion wind. Hereinafter, in Embodiment 5, differences from Embodiments 1 to 4 will be mainly described.

圖18係表示實施方式5之送風系統1之構成之方塊圖。如圖18所示，移動體VC包含驅動部V1、開關感測器V2、控制部V5、記憶部V6及移動體通信部V7。FIG. 18 is a block diagram showing the configuration of the ventilation system 1 according to the fifth embodiment. As shown in FIG. 18 , the mobile body VC includes a drive unit V1 , a switch sensor V2 , a control unit V5 , a memory unit V6 , and a mobile body communication unit V7 .

驅動部V1使移動體VC移動。The drive unit V1 moves the moving body VC.

開關感測器V2檢測圖1所示之移動體VC之門VD之打開與關閉。開關感測器V2亦可配置於門VD上。開關感測器V2向控制部V5輸出表示門VD已打開之信號。又，開關感測器V2向控制部V5輸出表示門VD已關閉之信號。The switch sensor V2 detects the opening and closing of the door VD of the moving body VC shown in FIG. 1 . The switch sensor V2 can also be configured on the gate VD. The switch sensor V2 outputs a signal indicating that the gate VD is opened to the control unit V5. In addition, the switch sensor V2 outputs a signal indicating that the gate VD is closed to the control unit V5.

控制部V5包含CPU或ASIC等處理器、及記憶裝置。例如，控制部V5自移動體VC之各要素接收各種信號，而基於所接收到之信號，控制移動體VC之各要素。具體而言，控制部V5控制驅動部V1、記憶部V6及移動體通信部V7等第2離子送出裝置200之各要素。The control unit V5 includes a processor such as a CPU or an ASIC, and a memory device. For example, the control unit V5 receives various signals from the respective elements of the moving body VC, and controls the respective elements of the moving body VC based on the received signals. Specifically, the control part V5 controls each element of the 2nd ion sending apparatus 200, such as the drive part V1, the memory part V6, and the mobile communication part V7.

記憶部V6記憶資料及電腦程式。例如，記憶部V6暫時記憶控制部V5之各處理所需之資料。記憶部V6包含記憶裝置(主記憶裝置及輔助記憶裝置)，例如包含記憶體及硬碟驅動器。記憶部V6亦能包含可移動媒體。Memory V6 memory data and computer programs. For example, the storage unit V6 temporarily stores data required for each process of the control unit V5. The memory portion V6 includes memory devices (a main memory device and an auxiliary memory device), such as a memory and a hard disk drive. The memory V6 can also contain removable media.

移動體通信部V7與第1離子送出裝置100及第2離子送出裝置200通信。移動體通信部V7包含符合近距離無線通信標準之無線通信模組。近距離無線通信標準例如為Bluetooth(註冊商標)。例如，藉由使移動體通信部V7與第1離子送出裝置100建立對應關係，移動體VC與第1離子送出裝置100得以連接。又，例如，藉由使移動體通信部V7與第2離子送出裝置200建立對應關係，移動體VC與第2離子送出裝置200得以連接。又，移動體通信部V7亦可與第1離子送出裝置100及第2離子送出裝置200有線連接。The mobile communication unit V7 communicates with the first ion sending device 100 and the second ion sending device 200 . The mobile communication unit V7 includes a wireless communication module conforming to the short-range wireless communication standard. The short-range wireless communication standard is, for example, Bluetooth (registered trademark). For example, the moving body VC and the 1st ion sending apparatus 100 are connected by making the moving body communication part V7 and the 1st ion sending apparatus 100 correspond. Moreover, for example, the moving body VC and the 2nd ion sending apparatus 200 are connected by making the moving body communication part V7 and the 2nd ion sending apparatus 200 correspond. In addition, the mobile communication unit V7 may be connected to the first ion sending device 100 and the second ion sending device 200 by wire.

移動體通信部V7向第1離子送出裝置100發送開關資訊。又，移動體通信部V7向第2離子送出裝置200發送開關資訊。The mobile communication unit V7 transmits switch information to the first ion sending device 100 . Further, the mobile communication unit V7 transmits switch information to the second ion sending device 200 .

如圖18所示，第1離子送出裝置100包含第1產生部101、第1送風部105、第1控制部150、第1記憶部160及第1通信部170。As shown in FIG. 18 , the first ion sending device 100 includes a first generation unit 101 , a first blower unit 105 , a first control unit 150 , a first memory unit 160 , and a first communication unit 170 .

第1產生部101產生離子。第1產生部101產生第1極性離子及/或第2極性離子。The first generating unit 101 generates ions. The first generating unit 101 generates first polar ions and/or second polar ions.

第1送風部105送出空氣。The first air blower 105 sends out air.

第1控制部150包含CPU或ASIC等處理器、及記憶裝置。例如，第1控制部150自第1離子送出裝置100之各要素接收各種信號，而基於所接收到之信號，控制第1離子送出裝置100之各要素。具體而言，第1控制部150控制第1產生部101、第1送風部105、第1記憶部160及第1通信部170等第1離子送出裝置100之各要素。The first control unit 150 includes a processor such as a CPU or an ASIC, and a memory device. For example, the 1st control part 150 receives various signals from each element of the 1st ion transmission apparatus 100, and controls each element of the 1st ion transmission apparatus 100 based on the received signal. Specifically, the 1st control part 150 controls each element of the 1st ion sending apparatus 100, such as the 1st generation part 101, the 1st ventilation part 105, the 1st memory part 160, and the 1st communication part 170.

第1記憶部160記憶資料及電腦程式。例如，第1記憶部160暫時記憶第1控制部150之各處理所需之資料。第1記憶部160包含記憶裝置(主記憶裝置及輔助記憶裝置)，例如包含記憶體及硬碟驅動器。第1記憶部160亦能包含可移動媒體。The first memory unit 160 stores data and computer programs. For example, the first memory unit 160 temporarily stores data necessary for each process of the first control unit 150 . The first memory unit 160 includes memory devices (a main memory device and an auxiliary memory device), for example, a memory and a hard disk drive. The first storage unit 160 may also include a removable medium.

第1通信部170與移動體VC之移動體通信部V7通信。第1通信部170包含符合近距離無線通信標準之無線通信模組。近距離無線通信標準例如為Bluetooth(註冊商標)。又，第1通信部170亦可與移動體通信部V7有線連接。The first communication unit 170 communicates with the mobile body communication unit V7 of the mobile body VC. The first communication unit 170 includes a wireless communication module conforming to the short-range wireless communication standard. The short-range wireless communication standard is, for example, Bluetooth (registered trademark). In addition, the first communication unit 170 may be connected to the mobile communication unit V7 by wire.

如圖18所示，第2離子送出裝置200包含第2產生部201、第2送風部205、第2控制部250、第2記憶部260及第2通信部270。As shown in FIG. 18 , the second ion sending device 200 includes a second generation unit 201 , a second blower unit 205 , a second control unit 250 , a second memory unit 260 , and a second communication unit 270 .

圖18所示之第2離子送出裝置200之構成與參照圖18所說明之實施方式5之第1離子送出裝置100之構成相同。The configuration of the second ion sending device 200 shown in FIG. 18 is the same as the configuration of the first ion sending device 100 according to Embodiment 5 described with reference to FIG. 18 .

第2產生部201產生離子。第2產生部201產生第1極性離子及/或第2極性離子。The second generation unit 201 generates ions. The second generation unit 201 generates first polar ions and/or second polar ions.

第2送風部205送出空氣。The second air blower 205 sends out air.

第2控制部250包含CPU或ASIC等處理器、及記憶裝置。例如，第2控制部250自第2離子送出裝置200之各要素接收各種信號，而基於所接收到之信號，控制第2離子送出裝置200之各要素。具體而言，第2控制部250控制第2產生部201、第2送風部205、第2記憶部260及第2通信部270等第2離子送出裝置200之各要素。The second control unit 250 includes a processor such as a CPU or an ASIC, and a memory device. For example, the 2nd control part 250 receives various signals from each element of the 2nd ion transmission apparatus 200, and controls each element of the 2nd ion transmission apparatus 200 based on the received signal. Specifically, the second control unit 250 controls each element of the second ion sending device 200 such as the second generation unit 201 , the second blower unit 205 , the second memory unit 260 , and the second communication unit 270 .

第2記憶部260記憶資料及電腦程式。例如，第2記憶部260暫時記憶第2控制部250之各處理所需之資料。第2記憶部260包含記憶裝置(主記憶裝置及輔助記憶裝置)，例如包含記憶體及硬碟驅動器。第2記憶部260亦能包含可移動媒體。The second memory unit 260 stores data and computer programs. For example, the second memory unit 260 temporarily stores data necessary for each process of the second control unit 250 . The second memory portion 260 includes memory devices (a main memory device and an auxiliary memory device), for example, a memory and a hard disk drive. The second storage unit 260 may also include a removable medium.

第2通信部270與移動體VC之移動體通信部V7通信。第2通信部270包含符合近距離無線通信標準之無線通信模組。近距離無線通信標準例如為Bluetooth(註冊商標)。又，第2通信部270亦可與移動體通信部V7有線連接。The second communication unit 270 communicates with the mobile body communication unit V7 of the mobile body VC. The second communication unit 270 includes a wireless communication module conforming to the short-range wireless communication standard. The short-range wireless communication standard is, for example, Bluetooth (registered trademark). In addition, the second communication unit 270 may be connected to the mobile communication unit V7 by wire.

繼續參照圖18，詳細地對第1離子送出裝置100之第1控制部150及第2離子送出裝置200之第2控制部250進行說明。如圖18所示，第1控制部150包含第1送風控制部152。第1控制部150藉由執行第1記憶部160中記憶之電腦程式，而使第1送風控制部152發揮功能。18, the 1st control part 150 of the 1st ion sending apparatus 100 and the 2nd control part 250 of the 2nd ion sending apparatus 200 are demonstrated in detail. As shown in FIG. 18 , the first control unit 150 includes a first ventilation control unit 152 . The 1st control part 150 makes the 1st ventilation control part 152 function by executing the computer program memorize|stored in the 1st memory part 160.

第1送風控制部152基於開關資訊，控制第1送風部105。而且，第2送風控制部252基於開關資訊，控制第2送風部205。因此，能調整隨著門VD之開關而變更之離子濃度。其結果，容易使離子濃度保持固定。The first blower control unit 152 controls the first blower unit 105 based on the switch information. And the 2nd ventilation control part 252 controls the 2nd ventilation part 205 based on the switch information. Therefore, the ion concentration which changes with the opening and closing of the gate VD can be adjusted. As a result, it becomes easy to keep the ion concentration constant.

具體而言，第1通信部170接收到表示門VD已打開之開關資訊之情形時，第1送風控制部152控制第1送風部105，將風量變更成第2送風量。又，第1通信部170接收到表示門VD已關閉之開關資訊之情形時，第1控制部150對自接收到表示門VD已關閉之開關資訊之時起是否經過了特定期間進行判定。第1控制部150判定為經過了特定期間之情形時，第1送風控制部152控制第1送風部105，以自第2風量變更成第1送風量。因此，第1送風部105會以第2風量持續送出第1離子風F1，直至門VD關閉後經過特定期間為止。其結果，雖然為了讓人出入，而將門VD打開後，離子濃度會減小，但因係以第2風量送出第1離子風F1，故減少之離子能得到補充。Specifically, when the first communication unit 170 receives the switch information indicating that the door VD is opened, the first air supply control unit 152 controls the first air supply unit 105 to change the air volume to the second air supply volume. Furthermore, when the first communication unit 170 receives the switch information indicating that the door VD is closed, the first control unit 150 determines whether or not a specific period of time has elapsed since the reception of the switch information indicating that the door VD is closed. When the 1st control part 150 determines that a specific period has passed, the 1st ventilation control part 152 controls the 1st ventilation part 105 so that it may change from a 2nd air volume to a 1st ventilation volume. Therefore, the 1st ventilation part 105 continues sending the 1st ion wind F1 at the 2nd air volume until a predetermined period passes after the door VD is closed. As a result, the ion concentration decreases when the door VD is opened to allow people to enter and exit. However, since the first ion wind F1 is sent out at the second air volume, the reduced ions can be replenished.

又，第2通信部270接收到表示門VD已打開之開關資訊之情形時，第2送風控制部252控制第2送風部205，將風量變更成第2送風量。又，第2通信部270接收到表示門VD已關閉之開關資訊之情形時，第2控制部250對自接收到表示門VD已關閉之開關資訊之時起是否經過了特定期間進行判定。第2控制部250判定為經過了特定期間之情形時，第2送風控制部252控制第2送風部205，以自第2風量變更成第1送風量。因此，第2送風部205會以第2風量持續送出第2離子風F2，直至門VD關閉後經過特定期間為止。其結果，雖然為了讓人出入，而將門VD打開後，離子濃度會減小，但因係以第2風量送出第2離子風F2，故減少之離子能得到補充。此外，因亦會自第1離子送出裝置100送出第1離子風F1，故移動體VC之內部之離子濃度穩定。When the second communication unit 270 receives the switch information indicating that the door VD is opened, the second air supply control unit 252 controls the second air supply unit 205 to change the air volume to the second air supply volume. Furthermore, when the second communication unit 270 receives the switch information indicating that the door VD is closed, the second control unit 250 determines whether or not a specific period of time has elapsed since the reception of the switch information indicating that the door VD is closed. When the 2nd control part 250 determines that a specific period has passed, the 2nd ventilation control part 252 controls the 2nd ventilation part 205 so that it may change from a 2nd air volume to a 1st ventilation volume. Therefore, the 2nd ventilation part 205 continues sending the 2nd ion wind F2 at the 2nd air volume until a predetermined period passes after the door VD is closed. As a result, the ion concentration is reduced when the door VD is opened to allow people to come in and out, but since the second ion wind F2 is sent out at the second air volume, the reduced ions can be replenished. Moreover, since the 1st ion wind F1 is also sent out from the 1st ion sending apparatus 100, the ion density|concentration inside the moving body VC becomes stable.

其次，參照圖19，詳細地對實施方式5中揭示之送風系統1所執行之處理進行說明。圖19係實施方式5中揭示之送風系統1的第1離子送出裝置100所執行之處理之流程圖。如圖19所示，第1離子送出裝置100所執行之處理包含步驟S131～步驟S135。再者，第2離子送出裝置200之第2控制部250所執行之處理與第1控制部150所執行之處理相同，因此省略說明。Next, with reference to FIG. 19, the process performed by the ventilation system 1 disclosed in Embodiment 5 is demonstrated in detail. 19 is a flowchart of a process performed by the first ion sending device 100 of the ventilation system 1 disclosed in the fifth embodiment. As shown in FIG. 19, the process performed by the 1st ion sending apparatus 100 includes step S131 - step S135. In addition, since the process performed by the 2nd control part 250 of the 2nd ion sending apparatus 200 is the same as the process performed by the 1st control part 150, description is abbreviate|omitted.

於步驟S131中，第1控制部150控制第1通信部170，使第1通信部170自移動體通信部V7接收開關資訊。處理進入步驟S132。In step S131, the first control unit 150 controls the first communication unit 170 so that the first communication unit 170 receives switch information from the mobile communication unit V7. The process proceeds to step S132.

於步驟S132中，第1送風控制部152基於表示門VD已打開之開關資訊，控制第1送風部105，將風量變更成第2送風量。處理進入步驟S133。In step S132, the 1st ventilation control part 152 controls the 1st ventilation part 105 based on the switch information which shows that the door VD is open, and changes an air volume to a 2nd ventilation volume. The process proceeds to step S133.

於步驟S133中，第1控制部150控制第1通信部170，使第1通信部170自移動體通信部V7接收開關資訊。處理進入步驟S134。In step S133, the first control unit 150 controls the first communication unit 170 so that the first communication unit 170 receives the switch information from the mobile communication unit V7. The process proceeds to step S134.

於步驟S134中，第1控制部150對自接收到表示門VD已關閉之開關資訊之時起是否經過了特定期間進行判定。未經過特定時間之情形時(於步驟S134中為「否」)，處理重複步驟S134。經過了特定時間之情形時(於步驟S134中為「是」)，處理進入步驟S135。In step S134, the first control unit 150 determines whether or not a specific period of time has elapsed since receiving the switch information indicating that the door VD is closed. When the specific time has not elapsed (NO in step S134), the process repeats step S134. When the predetermined time has elapsed (YES in step S134), the process proceeds to step S135.

步驟S134中為「是」之情形時，於步驟S135中，第1送風控制部152基於表示門VD已關閉之開關資訊，控制第1送風部105，以自第2風量變更成第1送風量。處理至此結束。In the case of "Yes" in step S134, in step S135, the first air supply control unit 152 controls the first air supply unit 105 based on the switch information indicating that the door VD is closed to change from the second air volume to the first air supply volume . The processing ends here.

再者，第2控制部250執行圖19所示之處理之情形時，將第1送風部105替換成第2送風部205，將第1控制部150替換成第2控制部250，將第1輸出控制部151替換成第2輸出控制部251，將第1通信部170替換成第2通信部270。Furthermore, when the second control unit 250 executes the process shown in FIG. 19, the first air blowing unit 105 is replaced by the second air blowing unit 205, the first control unit 150 is replaced by the second control unit 250, and the first The output control unit 151 is replaced by the second output control unit 251 , and the first communication unit 170 is replaced by the second communication unit 270 .

以上，參照圖式對本發明之實施方式進行了說明。但本發明並不僅限於上述實施方式，而可於不脫離其主旨之範圍內採用各種形態加以實施。又，上述實施方式中揭示之複數個構成要素可酌情改變。例如，可將某實施方式中揭示之全部構成要素內之某構成要素追加至其他實施方式之構成要素中，或，亦可將某實施方式中揭示之全部構成要素內之若干構成要素自實施方式中刪除。The embodiments of the present invention have been described above with reference to the drawings. However, the present invention is not limited to the above-described embodiments, and can be implemented in various forms without departing from the gist of the present invention. In addition, a plurality of constituent elements disclosed in the above-described embodiments can be changed as appropriate. For example, a certain component among all the components disclosed in a certain embodiment may be added to the components of another embodiment, or some components among all the components disclosed in a certain embodiment may be removed from the embodiment. deleted in.

又，為了使發明容易理解，圖式中係將各個構成要素模式化而展示主體，有時為了便於製作圖式，會使圖示出之各構成要素之厚度、長度、個數、間隔等與實際不同。又，上述實施方式中揭示之各構成要素之構成僅為一例，並不特別限定，當然可於不自本發明之效果實質脫離之範圍內進行各種變更。In addition, in order to make the invention easy to understand, the main components are shown in the drawings in the form of a model, and sometimes the thickness, length, number, interval, etc. of the components shown in the drawings are different from the thickness, length, number, interval, etc. actually different. In addition, the configuration of each component disclosed in the above-described embodiment is merely an example and is not particularly limited, and of course various modifications can be made within a range that does not substantially deviate from the effects of the present invention.

(1)圖2所示之第1離子送出裝置100亦可具有第1風向調整機構(未圖示)。第1風向調整機構例如將第1離子風F1之風向調整成第1方向D1(圖1)及/或鉛直方向。又，圖2所示之第2離子送出裝置200亦可具有第2風向調整機構(未圖示)。第2風向調整機構例如將第2離子風F2之風向調整成第1方向D1(圖1)及/或鉛直方向。例如，第1風向調整機構及第2風向調整機構各自包含通風孔及馬達。例如，第1風向調整機構及第2風向調整機構分別配置於第1吹出口132及第2吹出口232。(1) The 1st ion sending apparatus 100 shown in FIG. 2 may have a 1st wind direction adjustment mechanism (not shown). The 1st wind direction adjustment means adjusts the wind direction of the 1st ion wind F1 to 1st direction D1 (FIG. 1) and/or a vertical direction, for example. Moreover, the 2nd ion sending apparatus 200 shown in FIG. 2 may have a 2nd wind direction adjustment mechanism (not shown). The second wind direction adjustment means adjusts, for example, the wind direction of the second ion wind F2 to the first direction D1 ( FIG. 1 ) and/or the vertical direction. For example, each of the first airflow direction adjustment mechanism and the second airflow direction adjustment mechanism includes a ventilation hole and a motor. For example, the 1st air direction adjustment mechanism and the 2nd air direction adjustment mechanism are arrange|positioned at the 1st blower outlet 132 and the 2nd blower outlet 232, respectively.

例如，第1風向調整機構亦可使第1離子風F1之風向朝第1方向D1及/或鉛直方向擺動。例如，第2風向調整機構亦可使第2離子風F2之風向朝第1方向D1及/或鉛直方向擺動。該情形時，可使第1風向調整機構擺動風向之擺動模式與第2風向調整機構擺動風向之擺動模式彼此互補，各不相同。例如，第1離子風F1之風向自上側向下側擺動時，第2離子風F2之風向自下側向上側擺動，第1離子風F1之風向自下側向上側擺動時，第2離子風F2之風向自上側向下側擺動。For example, the first wind direction adjustment mechanism may swing the wind direction of the first ion wind F1 in the first direction D1 and/or the vertical direction. For example, the second wind direction adjustment mechanism may swing the wind direction of the second ion wind F2 in the first direction D1 and/or the vertical direction. In this case, the swing pattern in which the first air direction adjusting mechanism swings the air direction and the swing pattern in which the second air direction adjusting mechanism swings the air direction can complement each other and be different from each other. For example, when the wind direction of the first ion wind F1 swings from the upper side to the lower side, the wind direction of the second ion wind F2 swings from the lower side to the upper side, and when the wind direction of the first ion wind F1 swings from the lower side to the upper side, the second ion wind The wind direction of F2 swings from top to bottom.

又，例如，第1離子送出裝置100之第1風向調整機構(未圖示)將第1離子風F1之風向調整成第3方向D3(圖5)及/或第4方向D4(圖5)。又，例如，第2離子送出裝置200之第2風向調整機構(未圖示)將第2離子風F2之風向調整成第3方向D3(圖5)及/或第4方向D4(圖5)。Moreover, for example, the 1st wind direction adjustment means (not shown) of the 1st ion sending apparatus 100 adjusts the wind direction of the 1st ion wind F1 to the 3rd direction D3 (FIG. 5) and/or the 4th direction D4 (FIG. 5) . Furthermore, for example, the second wind direction adjustment mechanism (not shown) of the second ion sending device 200 adjusts the wind direction of the second ion wind F2 to the third direction D3 ( FIG. 5 ) and/or the fourth direction D4 ( FIG. 5 ) .

例如，第1風向調整機構亦可使第1離子風F1之風向朝第3方向D3及/或第4方向D4擺動。例如，第2風向調整機構亦可使第2離子風F2之風向朝第3方向D3及/或第4方向D4擺動。該情形時，可使第1風向調整機構擺動風向之擺動模式與第2風向調整機構擺動風向之擺動模式彼此互補，各不相同。例如，第1離子風F1之風向自第3方向D3向第4方向D4擺動時，第2離子風F2之風向自第4方向D4向第3方向D3擺動，第1離子風F1之風向自第3方向D3側向第4方向D4側擺動時，第2離子風F2之風向自第4方向D4側向第3方向D3側擺動。For example, the first wind direction adjustment mechanism may swing the wind direction of the first ion wind F1 in the third direction D3 and/or the fourth direction D4. For example, the second wind direction adjustment mechanism may swing the wind direction of the second ion wind F2 in the third direction D3 and/or the fourth direction D4. In this case, the swing pattern in which the first air direction adjusting mechanism swings the air direction and the swing pattern in which the second air direction adjusting mechanism swings the air direction can complement each other and be different from each other. For example, when the wind direction of the first ion wind F1 swings from the third direction D3 to the fourth direction D4, the wind direction of the second ion wind F2 swings from the fourth direction D4 to the third direction D3, and the wind direction of the first ion wind F1 swings from the fourth direction D4 to the third direction D3. When the 3rd direction D3 side swings to the 4th direction D4 side, the wind direction of the 2nd ion wind F2 oscillates from the 4th direction D4 side to the 3rd direction D3 side.

(2)圖1及圖6所示之送風系統1例如亦可包含人感感測器。人感感測器檢測人之存在。第1離子送出裝置100及第2離子送出裝置200分別於自人感感測器檢測到人之存在之時起特定期間內，送出第1離子風F1及第2離子風F2。(2) The air supply system 1 shown in FIG. 1 and FIG. 6 may also include, for example, a human sensor. The human sensor detects the presence of a human. The 1st ion sending apparatus 100 and the 2nd ion sending apparatus 200 send out the 1st ion wind F1 and the 2nd ion wind F2 respectively within a specific period from the time when a person sensor detects the presence of a person.

(3)圖1及圖6所示之第1座席C1及第2座席C2之配置並不特別限定。例如，複數個第1座席C1亦可沿著第2方向D2而排列。例如，複數個第2座席C2亦可沿著第2方向D2而排列。(3) The arrangement of the first seat C1 and the second seat C2 shown in FIGS. 1 and 6 is not particularly limited. For example, the plurality of first seats C1 may be arranged along the second direction D2. For example, a plurality of second seats C2 may be arranged along the second direction D2.

(4)於圖1及圖6中，第1離子送出裝置100之第1送風部105亦可朝向第1落座區域SA1與第3落座區域SA3之間之區域，送出第1離子風F1。因此，所謂朝向第1落座區域SA1送出第1離子風F1表示：朝向第1落座區域SA1之全部或一部分區域，送出第1離子風F1。又，第2離子送出裝置200之第2送風部205亦可朝向第2落座區域SA2與第4落座區域SA4之間之區域，送出第2離子風F2。因此，所謂朝向第2落座區域SA2送出第2離子風F2表示：朝向第2落座區域SA2之全部或一部分區域，送出第2離子風F2。(4) In FIG. 1 and FIG. 6, the 1st ventilation part 105 of the 1st ion sending apparatus 100 may send out the 1st ion wind F1 toward the area|region between the 1st seating area SA1 and the 3rd seating area SA3. Therefore, sending the 1st ion wind F1 toward the 1st seating area SA1 means sending the 1st ion wind F1 toward the whole or a part of area|regions of the 1st seating area SA1. Moreover, the 2nd ventilation part 205 of the 2nd ion sending apparatus 200 may send out the 2nd ion wind F2 toward the area|region between the 2nd seating area SA2 and the 4th seating area SA4. Therefore, sending the 2nd ion wind F2 toward the 2nd seating area SA2 means sending the 2nd ion wind F2 toward the whole or a part of the 2nd seating area SA2.

(5)第1離子送出裝置100亦可不僅朝向第1落座區域SA1，進而朝向第4落座區域SA4，吹送包含離子之空氣(離子風)。第4落座區域SA4位於第1離子送出裝置100之下方。又，第2離子送出裝置200亦可不僅朝向第2落座區域SA2，進而朝向第3落座區域SA3，吹送包含離子之空氣(離子風)。第3落座區域SA3位於第2離子送出裝置200之下方。(5) The 1st ion sending apparatus 100 may blow the air (ion wind) containing ions not only toward 1st seating area SA1, but also toward 4th seating area SA4. The 4th seating area SA4 is located below the 1st ion sending apparatus 100. Moreover, the 2nd ion sending apparatus 200 may blow the air (ion wind) containing an ion not only toward 2nd seating area SA2, but also toward 3rd seating area SA3. The 3rd seating area SA3 is located below the 2nd ion sending apparatus 200.

(6)圖1及圖6所示之送風系統1之設置場地並不限定於移動體VC。例如，送風系統1亦可設置於建築物之內部(例如，室內)。 [產業上之可利用性] (6) The installation site of the air supply system 1 shown in FIGS. 1 and 6 is not limited to the moving body VC. For example, the air supply system 1 can also be installed inside a building (eg, indoors). [Industrial Availability]

本發明提供一種送風系統，其具有產業上之可利用性。The present invention provides an air supply system with industrial applicability.

1:送風系統 100:第1離子送出裝置 101:第1產生部 102:第1電極 103:第2電極 105:第1送風部 141:第1輸出部 142:第1檢測部 143:第3檢測部 151:第1輸出控制部 152:第1送風控制部 153:第1判定部 200:第2離子送出裝置 201:第2產生部 202:第3電極 203:第4電極 205:第2送風部 241:第2輸出部 242:第2檢測部 243:第4檢測部 251:第2輸出控制部 252:第2送風控制部 253:第2判定部 AS:通道 SA1:第1落座區域 SA2:第2落座區域 SA3:第3落座區域 SA4:第4落座區域 D1:第1方向(特定方向) D2:第2方向 VC:移動體 VD:門 1: Air supply system 100: 1st ion sending device 101: Part 1 Generation 102: 1st electrode 103: 2nd electrode 105: 1st air supply part 141: 1st output section 142: 1st detection unit 143: 3rd Detection Section 151: 1st output control unit 152: 1st air supply control unit 153: First Judgment Division 200: Second ion sending device 201: Part 2 Production 202: 3rd electrode 203: 4th electrode 205: 2nd air supply unit 241: 2nd output part 242: Second Inspection Section 243: 4th Inspection Section 251: 2nd output control unit 252: 2nd air supply control unit 253: 2nd Judgment Division AS: channel SA1: 1st seating area SA2: Second seating area SA3: 3rd seating area SA4: 4th seating area D1: 1st direction (specific direction) D2: 2nd direction VC: moving body VD: door

圖1係表示本發明之實施方式1之送風系統之俯視圖。 圖2係表示實施方式1之第1離子送出裝置之圖。 圖3係沿著圖1之III-III線之模式化剖視圖。 圖4係沿著圖1之IV-IV線之模式化剖視圖。 圖5係表示實施方式1之第1離子送出裝置及第2離子送出裝置之詳細配置之俯視圖。 圖6係表示實施方式1之變化例1之送風系統之俯視圖。 圖7係表示實施方式1之變化例2的第1離子送出裝置及第2離子送出裝置之詳細配置之俯視圖。 圖8係表示實施方式2之送風系統之俯視圖。 圖9係表示實施方式2之變化例1的第1離子送出裝置及第2離子送出裝置之詳細配置之俯視圖。 圖10係表示實施方式2之變化例2的第1離子送出裝置及第2離子送出裝置之詳細配置之俯視圖。 圖11係表示實施方式3之送風系統的第1離子送出裝置之構成之方塊圖。 圖12係表示實施方式3之送風系統的第2離子送出裝置之構成之方塊圖。 圖13係表示實施方式3之送風系統的第1控制部所執行之處理之流程圖。 圖14係表示實施方式4之送風系統的第1離子送出裝置之構成之方塊圖。 圖15係表示實施方式4之送風系統的第2離子送出裝置之構成之方塊圖。 圖16係表示實施方式4之第1離子送出裝置的第1控制部所執行之處理之流程圖。 圖17係表示實施方式4之變化例1之第1離子送出裝置的第1控制部所執行之處理之流程圖。 圖18係表示實施方式5之送風系統之構成之方塊圖。 圖19係實施方式5中揭示之送風系統的第1離子送出裝置所執行之處理之流程圖。 FIG. 1 is a plan view showing an air supply system according to Embodiment 1 of the present invention. 2 : is a figure which shows the 1st ion sending apparatus of Embodiment 1. FIG. FIG. 3 is a schematic cross-sectional view taken along line III-III of FIG. 1 . FIG. 4 is a schematic cross-sectional view taken along line IV-IV of FIG. 1 . 5 : is a top view which shows the detailed arrangement|positioning of the 1st ion sending apparatus and the 2nd ion sending apparatus in Embodiment 1. FIG. FIG. 6 is a plan view showing an air supply system according to Modification 1 of Embodiment 1. FIG. It is a top view which shows the detailed arrangement|positioning of the 1st ion sending apparatus and the 2nd ion sending apparatus of Variation 2 of Embodiment 1. FIG. FIG. 8 is a plan view showing an air supply system according to Embodiment 2. FIG. It is a top view which shows the detailed arrangement|positioning of the 1st ion sending apparatus and the 2nd ion sending apparatus of the modification 1 of Embodiment 2. FIG. FIG. 10 is a plan view showing the detailed arrangement of the first ion sending device and the second ion sending device according to Modification 2 of Embodiment 2. FIG. 11 is a block diagram showing the configuration of the first ion sending device of the air supply system according to the third embodiment. 12 is a block diagram showing the configuration of the second ion sending device of the air supply system according to the third embodiment. FIG. 13 is a flowchart showing the processing executed by the first control unit of the ventilation system according to Embodiment 3. FIG. 14 is a block diagram showing the configuration of the first ion sending device of the ventilation system according to the fourth embodiment. FIG. 15 is a block diagram showing the configuration of the second ion sending device of the ventilation system according to Embodiment 4. FIG. 16 is a flowchart showing a process executed by the first control unit of the first ion sending apparatus according to Embodiment 4. FIG. FIG. 17 is a flowchart showing a process executed by the first control unit of the first ion sending device in Modification 1 of Embodiment 4. FIG. FIG. 18 is a block diagram showing the configuration of an air supply system according to Embodiment 5. FIG. 19 is a flowchart of a process performed by the first ion sending device of the ventilation system disclosed in Embodiment 5. FIG.

1:送風系統 1: Air supply system

50:頂面 50: top surface

100:第1離子送出裝置 100: 1st ion sending device

101:第1產生部 101: Part 1 Generation

105:第1送風部 105: 1st air supply part

AS:通道 AS: channel

HM1:落座之人 HM1: The man who took the seat

HM2:站立之人 HM2: The Standing Man

F1:第1離子風 F1: 1st ion wind

F2:第2離子風 F2: 2nd ion wind

C1:第1座席 C1: Seat 1

C2:第2座席 C2: Seat 2

SA1:第1落座區域 SA1: 1st seating area

SA4:第4落座區域 SA4: 4th seating area

D2:第2方向 D2: 2nd direction

VC:移動體 VC: moving body

Claims (21)

一種送風系統，其包含第1離子送出裝置， 該第1離子送出裝置包含： 第1產生部，其產生離子；及 第1送風部，其朝向可供人落座之第1落座區域，送出包含該離子之空氣即第1離子風， 該第1落座區域表示相對於該第1離子送出裝置處在斜下方之區域。 An air supply system including a first ion sending device, The first ion sending device includes: generating part 1, which generates ions; and The first air supply part faces the first seating area where people can sit, and sends out the air containing the ions, that is, the first ionized air, This 1st seating area shows the area|region diagonally downward with respect to this 1st ion sending apparatus. 如請求項1所述之送風系統，其進而包含第2離子送出裝置， 該第2離子送出裝置包含： 第2產生部，其產生離子；及 第2送風部，其朝向可供人落座之第2落座區域，送出包含該離子之空氣即第2離子風；且 該第2落座區域表示相對於該第2離子送出裝置處在斜下方之區域， 俯視下，該第1離子送出裝置與該第2離子送出裝置相對於特定方向彼此傾斜地配置。 The air supply system according to claim 1, further comprising a second ion sending device, The second ion sending device includes: generating part 2, which generates ions; and The second air supply part, which faces the second seating area where people can sit, sends out the air containing the ions, that is, the second ion wind; and The second seating area represents an area obliquely below the second ion sending device, In a plan view, the first ion sending device and the second ion sending device are arranged to be inclined to each other with respect to a specific direction. 如請求項2所述之送風系統，其包含複數個該第1離子送出裝置與複數個該第2離子送出裝置，且 該複數個第1離子送出裝置分別朝向複數個該第1落座區域，送出該第1離子風， 該複數個第2離子送出裝置分別朝向複數個該第2落座區域，送出該第2離子風， 該複數個第1離子送出裝置沿著該特定方向隔開間隔而設置， 該複數個第2離子送出裝置沿著該特定方向隔開間隔而設置。 The air supply system according to claim 2, comprising a plurality of the first ion sending devices and a plurality of the second ion sending devices, and The plurality of first ion sending devices are directed toward the plurality of first seating regions, respectively, and send the first ion wind, The plurality of second ion sending devices are directed toward the plurality of second seating areas, respectively, and send the second ion wind, The plurality of first ion sending devices are provided at intervals along the specific direction, The plurality of second ion sending devices are provided at intervals along the specific direction. 如請求項3所述之送風系統，其中該複數個第1落座區域沿著該特定方向而排列， 該複數個第2落座區域沿著該特定方向而排列，且 該第2離子送出裝置設置於與該第1落座區域於該特定方向上鄰接之第3落座區域之上方， 該第1離子送出裝置設置於與該第2落座區域於該特定方向上鄰接之第4落座區域之上方。 The air supply system of claim 3, wherein the plurality of first seating areas are arranged along the specific direction, The plurality of second seating areas are arranged along the specific direction, and The second ion sending device is disposed above the third seating area adjacent to the first seating area in the specific direction, The first ion sending device is provided above the fourth seating area adjacent to the second seating area in the specific direction. 如請求項3或4所述之送風系統，其中俯視下，該第1離子送出裝置與該第2離子送出裝置呈鋸齒狀設置。The air supply system according to claim 3 or 4, wherein the first ion sending device and the second ion sending device are arranged in a zigzag shape when viewed from above. 如請求項3至5中任一項所述之送風系統，其中該複數個第1落座區域位於沿著該特定方向延伸之通道之一側， 該複數個第2落座區域位於該通道之另一側。 The air supply system according to any one of claims 3 to 5, wherein the plurality of first seating areas are located on one side of the passage extending along the specific direction, The plurality of second seating areas are located on the other side of the channel. 如請求項3至6中任一項所述之送風系統，其中該複數個第1離子送出裝置與該複數個第2離子送出裝置設置於移動體。The air supply system according to any one of claims 3 to 6, wherein the plurality of first ion sending devices and the plurality of second ion sending devices are provided on the moving body. 如請求項2至7中任一項所述之送風系統，其中該第1產生部包含： 第1電極，其產生第1極性離子；及 第2電極，其產生第2極性離子； 該第2產生部包含： 第3電極，其產生該第1極性離子；及 第4電極，其產生該第2極性離子， 在相對於該特定方向彼此傾斜地相鄰之該第1離子送出裝置與該第2離子送出裝置之間，該第1電極相較於該第2電極而言，位於靠該第3電極更近之側，該第2電極相較於該第1電極而言，位於距該第3電極更遠之側。 The air supply system according to any one of claims 2 to 7, wherein the first generating part comprises: a first electrode that produces ions of a first polarity; and a second electrode, which produces ions of a second polarity; This second generating part includes: a third electrode that generates the first polarity ion; and a fourth electrode, which generates the second polarity ions, Between the first ion sending device and the second ion sending device that are adjacent to each other obliquely with respect to the specific direction, the first electrode is located closer to the third electrode than the second electrode side, the second electrode is located farther from the third electrode than the first electrode. 如請求項2至8中任一項所述之送風系統，其中該第1離子送出裝置設置於可供人落座之第4落座區域之上方，且 該第4落座區域與該第1落座區域對向。 The air supply system according to any one of claims 2 to 8, wherein the first ion sending device is disposed above the fourth seating area where people can sit, and The fourth seating area is opposite to the first seating area. 如請求項4所述之送風系統，其中該第1離子送出裝置向該第1落座區域與該第3落座區域，送出該第1離子風， 該第2離子送出裝置向該第2落座區域與該第4落座區域，送出該第2離子風。 The air supply system according to claim 4, wherein the first ion sending device sends the first ion wind to the first seating area and the third seating area, The second ion sending device sends the second ion wind to the second seating area and the fourth seating area. 如請求項1所述之送風系統，其進而包含第2離子送出裝置， 該第2離子送出裝置包含： 第2產生部，其產生離子；及 第2送風部，其朝向可供人落座之第2落座區域，送出包含該離子之空氣即第2離子風， 該第2落座區域表示相對於該第2離子送出裝置處在斜下方之區域，且 俯視下，該第1離子送出裝置與該第2離子送出裝置相互對向， 俯視下，該第1落座區域與該第2落座區域相對於特定方向彼此傾斜地配置。 The air supply system according to claim 1, further comprising a second ion sending device, The second ion sending device includes: generating part 2, which generates ions; and The second air supply part faces the second seating area where people can sit, and sends out the air containing the ions, that is, the second ion wind, The second seating area represents an area obliquely below the second ion sending device, and In plan view, the first ion sending device and the second ion sending device face each other, In plan view, the first seating area and the second seating area are arranged to be inclined to each other with respect to a specific direction. 如請求項11所述之送風系統，其中該第1離子送出裝置朝向複數個該第1落座區域送出該第1離子風，且 該複數個第1落座區域位於沿著該特定方向延伸之通道之一側。 The air supply system of claim 11, wherein the first ion sending device sends the first ion wind toward the plurality of first seating areas, and The plurality of first seating areas are located on one side of the channel extending along the specific direction. 如請求項12所述之送風系統，其中該第1離子送出裝置能朝向該第2落座區域送出該第1離子風。The air supply system of claim 12, wherein the first ion sending device can send the first ion wind toward the second seating area. 如請求項11至13中任一項所述之送風系統，其中該第2離子送出裝置朝向複數個該第2落座區域送出該第2離子風，且 該複數個第2落座區域位於沿著該特定方向延伸之通道之另一側。 The air supply system of any one of claims 11 to 13, wherein the second ion sending device sends the second ion wind toward the plurality of second seating areas, and The plurality of second seating areas are located on the other side of the channel extending along the specific direction. 如請求項14所述之送風系統，其中該第2離子送出裝置能朝向該第1落座區域送出該第2離子風。The air supply system of claim 14, wherein the second ion sending device can send the second ion wind toward the first seating area. 如請求項2至15中任一項所述之送風系統，其中該第1離子送出裝置包含： 第1輸出部，其輸出聲音； 第1檢測部，其檢測人；及 第1輸出控制部，其控制該第1輸出部；且 該第1輸出控制部基於該第1檢測部之檢測結果，控制該第1輸出部，使該第1輸出部輸出該聲音。 The air supply system according to any one of claims 2 to 15, wherein the first ion sending device comprises: a first output part, which outputs sound; Inspection Division 1, its inspectors; and a first output control unit that controls the first output unit; and The first output control unit controls the first output unit to output the sound based on the detection result of the first detection unit. 如請求項16所述之送風系統，其中該第2離子送出裝置包含： 第2輸出部，其輸出聲音； 第2檢測部，其檢測人；及 第2輸出控制部，其控制該第2輸出部， 該第2輸出控制部基於該第2檢測部之檢測結果，控制該第2輸出部，使該第2輸出部輸出該聲音。 The air supply system of claim 16, wherein the second ion sending device comprises: a second output part, which outputs sound; Inspection Division 2, its inspectors; and a second output control unit that controls the second output unit, The second output control unit controls the second output unit to output the sound based on the detection result of the second detection unit. 如請求項2至17中任一項所述之送風系統，其中該第1離子送出裝置進而包含： 第3檢測部，其檢測人； 第1判定部，其基於該第3檢測部之檢測結果，對人多不多進行判定；及 第1送風控制部，其基於該第1判定部之判定結果，控制該第1送風部。 The air supply system according to any one of claims 2 to 17, wherein the first ion sending device further comprises: The third inspection department, the inspector; a first judging part for judging the number of people based on the detection results of the third detection part; and A 1st ventilation control part controls this 1st ventilation part based on the determination result of this 1st judgment part. 如請求項18所述之送風系統，其中該第2離子送出裝置進而包含： 第4檢測部，其檢測人； 第2判定部，其基於該第4檢測部之檢測結果，對人多不多進行判定；及 第2送風控制部，其基於該第2判定部之判定結果，控制該第2送風部。 The air supply system of claim 18, wherein the second ion sending device further comprises: Section 4, the inspectors; a second judging part for judging the number of people based on the detection results of the fourth detection part; and A second air supply control unit controls the second air supply unit based on the determination result of the second determination unit. 如請求項19所述之送風系統，其中該第1送風控制部基於表示移動體之門之打開與該門之關閉之開關資訊，控制該第1送風部， 該第2送風控制部基於該開關資訊，控制該第2送風部。 The air supply system according to claim 19, wherein the first air supply control unit controls the first air supply unit based on switch information indicating opening and closing of the door of the movable body, The second air supply control unit controls the second air supply unit based on the switch information. 如請求項19或20所述之送風系統，其中該第1送風控制部基於包含開始送風之時刻之預約資訊，控制該第1送風部， 該第2送風控制部基於該預約資訊，控制該第2送風部。 The air supply system according to claim 19 or 20, wherein the first air supply control unit controls the first air supply unit based on reservation information including the time to start air supply, The second air supply control unit controls the second air supply unit based on the reservation information.

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