TWM481374U - Air blocking device for air conditioner drainage pipe - Google Patents

Description

空調排水管路阻氣裝置Air conditioning drain pipe choke

本創作是關於一種阻氣裝置，尤其是一種用以防止沼氣、異味由空調排水管路流入室內的空調排水管路阻氣裝置。The present invention relates to a gas barrier device, in particular to an air conditioning drainage pipe choke device for preventing biogas and odor from flowing into the room from an air conditioning drainage pipe.

按，為於炎熱氣候中使室內環境維持舒適宜人的溫度，使用空調設備的冷房功能是最常見且相對有效的方法。然而，空調設備在運作時多會產生冷凝水，為避免冷凝水隨意排出室外造成滴水噪音或滴到路人等問題，目前政府的相關單位已加強空調設備於建築物外之滴水取締行為，藉以提升大眾的居住環境品質；為此，現今許多大樓建商都是在建築物本身的冷氣組裝處設有連通至大樓雨水排放管的通道，供各層住戶安裝空調設備時，可將空調設備的冷凝水由該通道導引排入雨水排放管中。Press, in order to maintain a comfortable and pleasant temperature in the hot climate, the use of air conditioning equipment is the most common and relatively effective method. However, air-conditioning equipment will generate condensed water during operation. In order to avoid the problem of dripping water or dripping to passers-by if the condensate is discharged freely, the relevant government units have strengthened the dripping behavior of air-conditioning equipment outside the building. The quality of the living environment of the public; for this reason, many building builders today have access to the rainwater discharge pipe of the building in the air-conditioning assembly of the building itself. When the air-conditioning equipment is installed in each floor, the condensate of the air-conditioning equipment can be The channel is guided into the rainwater discharge pipe.

惟，該雨水排放管的末端通常直接連接至大樓外的水溝，而水溝內包含了各種排放物質以致易產生沼氣或其他腐蝕性氣體，故該些氣體也會隨著該雨水排放管及空調設備的管路流入室內，導致室內產生難聞的惡臭異味；同時，空調設備的管路、冷凝管、銅管等構件也易因腐蝕性氣體之作用而毀損，造成冷媒外逸、冷氣不冷、冷氣機滴水、遙控操作失靈等問題，除了增加維修費用以外，也會造成縮短空調設備之使用壽命及污染環境而間接影響生活品質等情事。However, the end of the rainwater discharge pipe is usually directly connected to the ditch outside the building, and the ditch contains various pollutants so as to easily generate biogas or other corrosive gas, so the gas will also follow the rainwater discharge pipe and The pipeline of the air-conditioning equipment flows into the room, causing unpleasant odors and odors in the room. At the same time, the pipelines, condensing pipes, copper pipes and other components of the air-conditioning equipment are also easily damaged by the action of corrosive gases, causing the refrigerant to escape and the air-conditioning not to occur. Cold and air-conditioner dripping, remote control failure and other problems, in addition to increasing maintenance costs, will also result in shortening the service life of air-conditioning equipment and polluting the environment and indirectly affecting the quality of life.

為此，請參照第1圖，其係一種用以阻隔沼氣或其他腐蝕性氣體由外部排水管T1(例如：雨水排放管)流入空調設備內部或室內的阻氣裝置9，該習知的阻氣裝置9包含一盒型體91、一排水接頭92及一進水 接頭93，該盒型體91的內部呈中空狀而具有預設容積，該排水接頭92凸設於該盒型體91的頂部或鄰近頂部處，該進水接頭93則凸設於該盒型體91的底部或鄰近底部處，且該排水接頭92及進水接頭93均與該盒型體91的內部相連通；又，該排水接頭92及進水接頭93分別供該外部排水管T1及一空調排水管T2套接。To this end, please refer to FIG. 1 , which is a gas barrier device 9 for blocking the flow of biogas or other corrosive gases from the external drain pipe T1 (for example, a rainwater discharge pipe) into the interior or interior of the air conditioner. The gas device 9 comprises a box body 91, a drain connector 92 and a water inlet The joint 93 has a hollow interior and has a predetermined volume. The drain joint 92 protrudes from the top of the box body 91 or adjacent to the top, and the water inlet joint 93 protrudes from the box type. The bottom of the body 91 or adjacent to the bottom, and the drain joint 92 and the water inlet joint 93 are connected to the inside of the box body 91; further, the drain joint 92 and the water inlet joint 93 are respectively provided for the outer drain pipe T1 and An air conditioning drain pipe T2 is socketed.

據此，空調設備運作時，其冷凝水可經由該空調排水管T2注入該盒型體91的內部，並積聚於該盒型體91中，直到累積的水位上升至連通該排水接頭92的高度時，冷凝水才會排入該外部排水管T1。如此一來，空調設備停止運作時，積聚於該盒型體91內部及該空調排水管T2末端的冷凝水可形成「水封」，使氣體無法流通於該外部排水管T1與空調排水管T2之間，從而達到避免沼氣或其他腐蝕性氣體由該外部排水管T1流入空調設備內部或室內的效果。該習知阻氣裝置9的一實施例已揭露於中華民國公告第M470929號「一體成型密閉式阻隔氣體盒型體裝置」專利案當中。Accordingly, when the air conditioner operates, its condensed water can be injected into the interior of the box body 91 via the air conditioning drain pipe T2, and accumulates in the box body 91 until the accumulated water level rises to the height of the drain joint 92. The condensed water is discharged into the external drain pipe T1. In this way, when the air conditioner stops operating, the condensed water accumulated in the interior of the box body 91 and the end of the air conditioning drain pipe T2 can form a "water seal", so that the gas cannot flow to the external drain pipe T1 and the air conditioning drain pipe T2. Between the two, the effect of avoiding biogas or other corrosive gases flowing into the interior or interior of the air conditioning unit by the external drain pipe T1 is achieved. An embodiment of the conventional gas barrier device 9 has been disclosed in the Patent Case No. M470929 of the Republic of China, "Integrated Sealed Gas Barrier Device".

然而，若該習知阻氣裝置9的盒型體91內的容積過小，在空調設備長時間停止運作的期間(例如：秋、冬、春之際)，積聚於該盒型體91內部的冷凝水將因蒸發作用而造成「水封」效果失效。反之，若該習知阻氣裝置9的盒型體91內的容積過大，儘管積聚的冷凝水不易在空調設備停止運作的期間全數蒸發，但相對使得注入該盒型體91的冷凝水要積聚較長的時間才能排出；因此，在長時間受到來自該外部排水管T1的穢氣作用之下，積聚於該盒型體91中的冷凝水易變髒、發臭，同樣會由穢水向室內散發異味，使得該習知阻氣裝置9形同虛設。However, if the volume in the cartridge body 91 of the conventional gas barrier device 9 is too small, condensation accumulates inside the cartridge body 91 during a period in which the air conditioner is stopped for a long period of time (for example, during autumn, winter, and spring). Water will fail due to evaporation and the "water seal" effect will be lost. On the other hand, if the volume in the cartridge body 91 of the conventional gas barrier device 9 is excessively large, the accumulated condensed water is less likely to evaporate during the period in which the air conditioner is stopped, but the condensed water injected into the cartridge body 91 is relatively accumulated. It takes a long time to discharge; therefore, under the action of helium from the external drain T1 for a long time, the condensed water accumulated in the box body 91 is easily dirty and stinky, and is also caused by the drowning to the room. The odor is dissipated, so that the conventional gas barrier device 9 is ineffective.

基於上述原因，習知的空調排水管路阻氣裝置確實仍有加以改善之必要。For the above reasons, the conventional air conditioning drainage line gas barrier device does have the need to improve.

本創作之目的係提供一種空調排水管路阻氣裝置，可確保其阻氣效果隨時維持有效，藉以確實避免沼氣或其他腐蝕性氣體由外部排水管流入空調設備內部或室內。The purpose of this creation is to provide a gas barrier device for an air conditioning drain pipe, which ensures that the gas barrier effect is maintained at all times, thereby ensuring that biogas or other corrosive gases are prevented from flowing into the interior or interior of the air conditioning device from the external drain pipe.

為達到前述目的，本創作所運用之技術內容包含有：一種空調排水管路阻氣裝置，包含：一彎管，具有依序相連的一接水部、一蓄水部及一排水部；及一浮力阻氣模組，包含一阻氣接頭及一浮球，該阻氣接頭具有相連通的一中空本體、一進水端及一排水端，該排水端連接該彎管的接水部，該浮球容置於該中空本體的內部以控制該進水端與該彎管之間的連通狀態。In order to achieve the foregoing objectives, the technical content of the present application includes: a gas barrier device for an air conditioning drainage pipeline, comprising: a curved pipe having a water receiving portion, a water storage portion and a drainage portion connected in sequence; a buoyant gas blocking module comprising a gas blocking joint and a floating ball, the gas blocking joint having a hollow body, a water inlet end and a drain end connected to each other, the drain end connecting the water receiving portion of the curved pipe The float is placed inside the hollow body to control the communication state between the water inlet end and the curved pipe.

其中，該阻氣接頭的排水端為一接管，該排水端凸設於該中空本體的外表面，並與該中空本體的內部相連通。The drain end of the gas barrier joint is a nozzle, and the drain end protrudes from an outer surface of the hollow body and communicates with the interior of the hollow body.

其中，該中空本體在該排水端的軸向上具有一最小徑向寬度處，以供該排水端連接。Wherein, the hollow body has a minimum radial width in the axial direction of the drain end for the drain end to be connected.

其中，該浮球的外徑大於該排水端的內徑。Wherein, the outer diameter of the float ball is larger than the inner diameter of the drain end.

其中，該阻氣接頭的進水端為一接管，該進水端凸設於該中空本體的外表面，並與該中空本體的內部相連通，該浮球的外徑大於該進水端的內徑。The water inlet end of the gas barrier joint is a nozzle, and the water inlet end protrudes from the outer surface of the hollow body and communicates with the interior of the hollow body, and the outer diameter of the float ball is larger than the inner diameter of the water inlet end. path.

其中，該蓄水部與該接水部之相連接處具有一第一水平分界，該蓄水部與該排水部之相連接處具有一第二水平分界，該蓄水部在水平方向上相對於地面具有一最低點，該最低點相對於地面的水平高度低於該第一水平分界及第二水平分界分別相對於地面的水平高度。Wherein the connection between the water storage portion and the water receiving portion has a first horizontal boundary, and the connection between the water storage portion and the drainage portion has a second horizontal boundary, and the water storage portion is horizontally opposed There is a lowest point on the ground, and the level of the lowest point relative to the ground is lower than the level of the first horizontal boundary and the second horizontal boundary with respect to the ground.

其中，整個蓄水部相對於地面的水平高度均低於該第二水平分界相對於地面的水平高度。Wherein, the level of the entire water storage portion relative to the ground is lower than the level of the second horizontal boundary with respect to the ground.

其中，該排水部具有一頭端及一末端，該排水部的頭端連接該蓄水部，該排水部的末端朝相對低處延伸。The drain portion has a head end and a tip end, and the head end of the drain portion is connected to the water storage portion, and the end portion of the drain portion extends toward a relatively low portion.

其中，該彎管的排水部頭端係由該蓄水部延伸形成，並再連接一轉向接頭以形成該排水部的末端。Wherein, the head end of the drain portion of the elbow is formed by extending from the water storage portion, and a steering joint is further connected to form an end of the drain portion.

該空調排水管路阻氣裝置另包含一保護殼，該保護殼具有一盒體、一第一外接管及一第二外接管，該彎管及浮力阻氣模組均設於該盒體中，該第一外接管的一端位於該盒體的內部並連接該阻氣接頭的進水端，該第一外接管的另一端裸露於該盒體的外部；該第二外接管的一端位於該盒體的內部並連接該彎管的排水部，該第二外接管的另一端裸露於該盒體的外部。The air-conditioning drain line gas-blocking device further comprises a protective shell, wherein the protective shell has a box body, a first outer connecting tube and a second outer connecting tube, wherein the bending tube and the buoyant gas blocking module are disposed in the box body One end of the first outer tube is located inside the box body and connected to the water inlet end of the gas barrier joint, and the other end of the first outer tube is exposed to the outside of the box body; one end of the second outer tube is located at the The inside of the box body is connected to the drain portion of the elbow, and the other end of the second outer tube is exposed to the outside of the box body.

據由前述結構，該空調排水管路阻氣裝置可確保其阻氣效果隨時維持有效，藉以確實避免沼氣或其他腐蝕性氣體由外部排水管流入空調設備內部或室內。According to the foregoing structure, the air-conditioning drain line gas-blocking device can ensure that the gas-blocking effect is maintained at all times, thereby ensuring that biogas or other corrosive gas is prevented from flowing into the interior or interior of the air-conditioning apparatus from the external drain pipe.

〔本創作〕[this creation]

1‧‧‧彎管1‧‧‧ elbow

11‧‧‧接水部11‧‧‧Water Department

12‧‧‧蓄水部12‧‧‧Water Storage Department

13‧‧‧排水部13‧‧‧Drainage Department

14‧‧‧轉向接頭14‧‧‧Steering joint

2‧‧‧浮力阻氣模組2‧‧‧ buoyancy gas barrier module

21‧‧‧阻氣接頭21‧‧‧ gas barrier connector

211‧‧‧中空本體211‧‧‧ hollow body

212‧‧‧進水端212‧‧‧ water inlet

213‧‧‧排水端213‧‧‧Drainage end

22‧‧‧浮球22‧‧‧Floating ball

3‧‧‧保護殼3‧‧‧protective shell

31‧‧‧盒體31‧‧‧Box

32‧‧‧蓋體32‧‧‧ Cover

33‧‧‧第一外接管33‧‧‧First external connection

34‧‧‧第二外接管34‧‧‧Second external pipe

A‧‧‧空調設備A‧‧‧Air conditioning equipment

D‧‧‧盛水盤D‧‧‧Water tray

L1‧‧‧第一水平分界L1‧‧‧ first horizontal demarcation

L2‧‧‧第二水平分界L2‧‧‧ second horizontal boundary

P‧‧‧最低點P‧‧‧ lowest point

T1‧‧‧外部排水管T1‧‧‧External drain

T2‧‧‧空調排水管T2‧‧‧ air conditioning drain

〔習用〕[Use]

9‧‧‧阻氣裝置9‧‧‧ gas barrier

91‧‧‧盒型體91‧‧‧Box body

92‧‧‧排水接頭92‧‧‧Drain joint

93‧‧‧進水接頭93‧‧‧ water inlet joint

T1‧‧‧外部排水管T1‧‧‧External drain

T2‧‧‧空調排水管T2‧‧‧ air conditioning drain

第1圖：一種習知阻氣裝置的結構示意圖。Figure 1: Schematic diagram of a conventional gas barrier device.

第2圖：本創作一實施例的立體分解及局部剖視結構示意圖。Fig. 2 is a perspective view showing the structure of a three-dimensional decomposition and a partial cross-sectional view of an embodiment of the present invention.

第3圖：本創作一實施例組裝至空調設備時的實施示意圖。Fig. 3 is a schematic view showing the implementation of an embodiment of the present invention when assembled to an air conditioner.

第4圖：本創作一實施例的剖視結構示意圖。Fig. 4 is a cross-sectional structural view showing an embodiment of the present invention.

第5圖：本創作一實施例於浮球浮起時的實施示意圖。Fig. 5 is a schematic view showing the implementation of an embodiment of the present invention when the float floats.

第6圖：本創作一實施例於水液排出時的實施示意圖。Fig. 6 is a schematic view showing the implementation of an embodiment of the present invention when water is discharged.

為讓本創作之上述及其他目的、特徵及優點能更明顯易懂，下文特舉本創作之較佳實施例，並配合所附圖式，作詳細說明如下：請參照第2、3圖，為本創作的一個實施例，本創作之空調排水管路阻氣裝置大致上包含一彎管1及一浮力阻氣模組2，該浮力阻氣模組2設於該彎管1的一端，以於該空調排水管路阻氣裝置組裝至一空調 設備A後，藉該空調設備A運作時所產生的冷凝水，由該浮力阻氣模組2控制該空調設備A內部與一外部排水管T1之間的連通狀態。In order to make the above and other objects, features and advantages of the present invention more comprehensible, the preferred embodiments of the present invention will be described in detail below with reference to the accompanying drawings. Referring to Figures 2 and 3, In one embodiment of the present invention, the air-conditioning drainage pipe choke device of the present invention generally comprises an elbow 1 and a buoyant gas-blocking module 2, and the buoyant gas-blocking module 2 is disposed at one end of the elbow 1. So that the air conditioning drain line gas blocker is assembled to an air conditioner After the device A, the buoyant gas barrier module 2 controls the communication state between the inside of the air conditioner A and an external drain pipe T1 by the condensed water generated when the air conditioner A operates.

請參照第2、4圖，該彎管1為一彎曲的中空管體，該彎管1具有依序相連的一接水部11、一蓄水部12及一排水部13，該接水部11的自由端處係用以連接該浮力阻氣模組2，該蓄水部12與該接水部11之相連接處具有一第一水平分界L1，該蓄水部12與該排水部13之相連接處具有一第二水平分界L2，該蓄水部12在水平方向上相對於地面具有一最低點P，該最低點P相對於地面的水平高度低於該第一水平分界L1及第二水平分界L2分別相對於地面的水平高度，以於該蓄水部12蓄有水液時形成「水封」，使該接水部11與該排水部13之間無法流通氣體。較佳地，整個蓄水部12相對於地面的水平高度均低於該第二水平分界L2相對於地面的水平高度。該排水部13的頭端連接該蓄水部12，該排水部13的末端則朝相對低處延伸。Referring to Figures 2 and 4, the elbow 1 is a curved hollow tube body having a water receiving portion 11, a water storage portion 12 and a drainage portion 13 connected in sequence. The free end of the portion 11 is configured to connect the buoyant gas barrier module 2, and the junction between the water storage portion 12 and the water receiving portion 11 has a first horizontal boundary L1, the water storage portion 12 and the drainage portion The junction of 13 has a second horizontal boundary L2, and the water storage portion 12 has a lowest point P in the horizontal direction with respect to the ground, and the level of the lowest point P relative to the ground is lower than the first horizontal boundary L1 and The second horizontal boundary L2 is horizontal with respect to the ground, and a "water seal" is formed when the water storage unit 12 stores water, so that no gas can flow between the water receiving portion 11 and the drain portion 13. Preferably, the level of the entire water storage portion 12 relative to the ground is lower than the level of the second horizontal boundary L2 with respect to the ground. The head end of the drain portion 13 is connected to the water storage portion 12, and the end of the drain portion 13 extends toward a relatively low portion.

其中，該彎管1可以是一體成型的管體，也可以是由數個管件在流向改變幅度較大處搭配使用轉向接頭而相連組成的管體；舉例而言，在如第4圖所示的實施例中，該彎管1的接水部11與蓄水部12即呈一體相連，而該排水部13的頭端則由該蓄水部12延伸形成，並再連接一轉向接頭14以形成該排水部13的末端。Wherein, the elbow 1 may be an integrally formed pipe body, or may be a pipe body which is composed of a plurality of pipe members connected with a steering joint at a large change direction of the flow direction; for example, as shown in FIG. 4 In the embodiment, the water receiving portion 11 of the elbow 1 is integrally connected with the water storage portion 12, and the head end of the drain portion 13 is formed by the water storage portion 12 and is connected to a steering joint 14 to The end of the drain portion 13 is formed.

該浮力阻氣模組2包含一阻氣接頭21及一浮球22，該浮球22容置於該阻氣接頭21的內部。更詳言之，該阻氣接頭21具有相連通的一中空本體211、一進水端212及一排水端213，該中空本體211的內部呈中空狀以供容置該浮球22，該進水端212及排水端213則可分別為一接管或一孔洞，其中較佳將該進水端212及排水端213均選擇為一接管，以提升其餘管件與該中空本體211連接時的便利性；即，該進水端212及排水端213分別凸設於該中空本體211的外表面，並與該中空本體211的內部 相連通，且該排水端213可與該彎管1的接水部11相連接。又，該中空本體211在該排水端213的軸向上具有一最小徑向寬度處，以供該排水端213連接；即，該中空本體211之縱向截面可例如呈圓形、橢圓形、菱形或倒三角形等不同的形態，本創作並不加以限制。該浮球22係能夠浮於水面的球體，該浮球22可以是一中空而質輕的球體，或是實心而密度低於水密度的球體；該浮球22的外徑大於該進水端212及排水端213的內徑，以於無浮力作用時，使該浮球22得以受重力作用而堵住該排水端213與該中空本體211之連接處。The buoyant gas barrier module 2 includes a gas barrier joint 21 and a float ball 22, and the float ball 22 is received inside the gas barrier joint 21. More specifically, the gas barrier joint 21 has a hollow body 211, a water inlet end 212 and a drain end 213. The hollow body 211 has a hollow interior for receiving the float ball 22, and the inlet The water end 212 and the drain end 213 are respectively a connecting tube or a hole. Preferably, the water inlet end 212 and the drain end 213 are both selected as a connecting tube to improve the convenience of connecting the remaining tube members to the hollow body 211. That is, the water inlet end 212 and the drain end 213 are respectively protruded from the outer surface of the hollow body 211 and the interior of the hollow body 211 The drain end 213 is connectable to the water receiving portion 11 of the elbow 1. Moreover, the hollow body 211 has a minimum radial width in the axial direction of the drain end 213 for the drain end 213 to be connected; that is, the longitudinal section of the hollow body 211 may be, for example, circular, elliptical, diamond or Different forms such as inverted triangles, this creation is not limited. The float 22 is a sphere that can float on the surface of the water. The float 22 can be a hollow and light sphere, or a solid sphere having a density lower than the water density; the outer diameter of the float 22 is larger than the inlet end. The inner diameter of the 212 and the drain end 213 is such that when the buoyancy is not applied, the float 22 is subjected to gravity to block the connection between the drain end 213 and the hollow body 211.

此外，該空調排水管路阻氣裝置較佳另設有一保護殼3，該彎管1及浮力阻氣模組2均設於該保護殼3中，以藉由該保護殼3提供保護作用，避免該彎管1及浮力阻氣模組2直接受到碰撞而破壞其連接的穩固性，及避免該彎管1及浮力阻氣模組2沾染髒污或遭外力破壞，並減緩材料變質的速度，有助延長該彎管1及浮力阻氣模組2的使用壽命，同時還能確保該彎管1及浮力阻氣模組2維持正常運作以達到預期的阻氣效果；另，該空調排水管路阻氣裝置亦可藉由將該彎管1及浮力阻氣模組2收納於該保護殼3中，提供更為整齊、大方等美觀效果。In addition, the air-conditioning drain line gas-blocking device is preferably further provided with a protective shell 3, and the curved tube 1 and the buoyant gas-blocking module 2 are disposed in the protective shell 3 to provide protection by the protective shell 3, The elbow 1 and the buoyant gas barrier module 2 are directly subjected to collision to break the stability of the connection, and the pipe 1 and the buoyant gas block 2 are prevented from being contaminated or damaged by external force, and the deterioration rate of the material is slowed down. , which can extend the service life of the elbow 1 and the buoyant gas blocking module 2, and at the same time ensure that the elbow 1 and the buoyant choke module 2 maintain normal operation to achieve the desired gas barrier effect; The pipeline gas barrier device can also accommodate the elbow 1 and the buoyant gas barrier module 2 in the protective casing 3 to provide a more tidy and generous aesthetic effect.

請參照第3、4圖，在本實施例中，該保護殼3包含一盒體31及一蓋體32，該盒體31的內部呈中空以供容置該彎管1及浮力阻氣模組2，該蓋體32則可拆卸地結合於該盒體31，以將該彎管1及浮力阻氣模組2密封於該盒體31中。又，為提升組裝時的便利性，該保護殼3還可另包含一第一外接管33及一第二外接管34，該第一外接管33的一端位於該盒體31的內部，以供連接該浮力阻氣模組2的阻氣接頭21(例如連接於該阻氣接頭21的進水端212)，該第一外接管33的另一端裸露於該盒體31的外部，以供連接該空調設備A的一空調排水管T2；該第二外接管34的一端位於該盒體31的內部，以供連接該彎管1的排水部13末端，該第二 外接管34的另一端裸露於該盒體31的外部，以供連接該外部排水管T1。舉例而言，在如第3圖所示的實施例中，該蓋體32設於該盒體31的頂部，該第一外接管33固接於該蓋體32，該第一外接管33由一端穿伸通過該蓋體32以伸入該盒體31中，並與該浮力阻氣模組2的阻氣接頭21連接；該第二外接管34則固接於該盒體31的底部，並由一端穿入該盒體31中以連接該彎管1的排水部13末端。據此，安裝時，只要將該第一外接管33裸露於該盒體31外的一端與該空調排水管T2相連接，及將該第二外接管34裸露於該盒體31外的一端與該外部排水管T1相連接，即可簡易而快速地完成該空調排水管路阻氣裝置的安裝作業，令消費者可自行安裝而不需專業人員之協助，有助提升安裝效率及節省安裝費用。Referring to Figures 3 and 4, in the present embodiment, the protective casing 3 includes a casing 31 and a cover 32. The interior of the casing 31 is hollow for accommodating the elbow 1 and the buoyancy choke mold. In the group 2, the cover 32 is detachably coupled to the casing 31 to seal the elbow 1 and the buoyant gas barrier module 2 in the casing 31. Moreover, in order to improve the convenience in assembly, the protective casing 3 may further include a first outer connecting pipe 33 and a second outer connecting pipe 34. One end of the first outer connecting pipe 33 is located inside the casing 31 for Connecting the gas barrier joint 21 of the buoyant gas barrier module 2 (for example, to the water inlet end 212 of the gas barrier joint 21), the other end of the first outer tube 33 is exposed outside the casing 31 for connection. An air conditioning drain pipe T2 of the air conditioner A; one end of the second outer pipe 34 is located inside the casing 31 for connecting the end of the drain portion 13 of the elbow 1, the second The other end of the circumscribed pipe 34 is exposed to the outside of the casing 31 for connection to the external drain pipe T1. For example, in the embodiment shown in FIG. 3, the cover body 32 is disposed at the top of the box body 31, and the first outer connecting tube 33 is fixed to the cover body 32. The first outer connecting tube 33 is One end extends through the cover body 32 to extend into the box body 31, and is connected to the gas barrier joint 21 of the buoyant gas block module 2; the second outer tube 34 is fixed to the bottom of the box body 31, And inserted into the casing 31 from one end to connect the end of the drain portion 13 of the elbow 1. Accordingly, at the time of installation, the first outer connecting pipe 33 is exposed to the outer side of the casing 31 to be connected to the air conditioning drain pipe T2, and the second outer connecting pipe 34 is exposed at the outer end of the casing 31. The external drain pipe T1 is connected to complete the installation operation of the air-conditioning drain line gas-blocking device in a simple and quick manner, so that the consumer can install it himself without the assistance of a professional, which can improve the installation efficiency and save the installation cost. .

據由前述結構，本創作之空調排水管路阻氣裝置可組裝至一空調設備A；在如第3圖所示之實施例中，該空調設備A具有一盛水盤D以容裝該空調設備A運作時所產生的冷凝水，該盛水盤D的底部設有一空調排水管T2以排出積水。組裝時，由於該彎管1及浮力阻氣模組2均已預先組裝並容置於該保護殼3中，故只要將該保護殼3之第一外接管33連接至該空調排水管T2，及將該保護殼3之第二外接管34連接至該外部排水管T1即可。According to the foregoing structure, the air-conditioning drain line gas-blocking device of the present invention can be assembled to an air-conditioning apparatus A; in the embodiment as shown in FIG. 3, the air-conditioning apparatus A has a water tray D for accommodating the air-conditioning apparatus. The condensed water generated during the operation of the water tray D is provided with an air conditioning drain pipe T2 at the bottom of the water tray D to discharge the accumulated water. In the assembly, since the elbow 1 and the buoyant choke module 2 are pre-assembled and housed in the protective casing 3, as long as the first outer connecting pipe 33 of the protective casing 3 is connected to the air-conditioning drain pipe T2, And connecting the second outer pipe 34 of the protective casing 3 to the outer drain pipe T1.

請參照第3、4圖，在尚未有水液流入該彎管1時，該浮球22將受重力作用而堵住該阻氣接頭21之排水端213與中空本體211連接處，使該空調排水管T2與該外部排水管T1呈現無法連通的狀態。Referring to Figures 3 and 4, when there is no water flowing into the elbow 1, the float 22 will be blocked by gravity to block the connection between the drain end 213 of the choke joint 21 and the hollow body 211, so that the air conditioner The drain pipe T2 and the outer drain pipe T1 are in a state in which they cannot communicate with each other.

請參照第3、5圖，該空調設備A運作時所產生的冷凝水將由該盛水盤D盛接，並流經該空調排水管T2及該第一外接管33，再流入該阻氣接頭21的中空本體211內；此時，流入該中空本體211內的水液可對該浮球22提供浮力，使該浮球22浮起，供水液能通過該排水端213而流入該彎管1中，並暫存於該彎管1的蓄水部12中以形成「水封」，使該 彎管1的接水部11與排水部13之間無法流通氣體，進而避免氣體從該外部排水管T1流入該空調排水管T2中。其中，由於本實施例係選擇使該彎管1的整個蓄水部12相對於地面的水平高度均低於該第二水平分界L2相對於地面的水平高度，故當水液逐漸累積且水位上升到使該浮球22維持漂浮狀態時，水位仍未超過該第二水平分界L2而暫時不會排出，此時，可確保該空調排水管路阻氣裝置係藉由水液阻斷該外部排水管T1與該空調排水管T2之間的連通狀態，會比僅以該浮球22阻斷時(即第4圖所示之狀態)的阻氣效果來得更好、更確實。Referring to Figures 3 and 5, the condensed water generated during operation of the air conditioner A will be carried by the water tray D, and will flow through the air conditioning drain pipe T2 and the first outer pipe 33, and then flow into the gas barrier joint 21 In the hollow body 211; at this time, the water flowing into the hollow body 211 can provide buoyancy to the floating ball 22, so that the floating ball 22 floats, and the water supply liquid can flow into the curved pipe 1 through the drain end 213. And temporarily stored in the water storage portion 12 of the elbow 1 to form a "water seal", so that the Gas cannot flow between the water receiving portion 11 of the elbow 1 and the drain portion 13, thereby preventing gas from flowing into the air-conditioning drain pipe T2 from the external drain pipe T1. In this embodiment, since the horizontal height of the entire water storage portion 12 of the curved pipe 1 relative to the ground is lower than the horizontal level of the second horizontal boundary L2 with respect to the ground, when the water liquid gradually accumulates and the water level rises. When the floating ball 22 is maintained in a floating state, the water level does not exceed the second horizontal boundary L2 and is temporarily not discharged. At this time, it is ensured that the air-conditioning drain line gas-blocking device blocks the external drainage by the water liquid. The state of communication between the tube T1 and the air-conditioning drain pipe T2 is better and more reliable than the gas-blocking effect when only the float ball 22 is blocked (that is, the state shown in Fig. 4).

請參照第3、6圖，當水位上升至超過該第二水平分界L2時，水液將通過該彎管1的排水部13並流向該第二外接管34，進而排入該外部排水管T1。據此，可確保該空調設備A運作時所產生的冷凝水能以適當的方法排出，不會造成滴水噪音或滴到路人等問題；同時，還可藉冷凝水形成「水封」，使氣體無法流通於該外部排水管T1與空調排水管T2之間，從而達到避免沼氣或其他腐蝕性氣體由該外部排水管T1流入該空調設備A內部或室內的效果。Referring to Figures 3 and 6, when the water level rises above the second horizontal boundary L2, the water will pass through the drain portion 13 of the elbow 1 and flow to the second outer tube 34, thereby being discharged into the external drain tube T1. . According to this, it is ensured that the condensed water generated during the operation of the air conditioner A can be discharged in an appropriate manner without causing dripping noise or dripping to passers-by, etc. At the same time, a condensed water can be used to form a "water seal" to make the gas It is impossible to circulate between the external drain pipe T1 and the air conditioning drain pipe T2, thereby achieving the effect of preventing biogas or other corrosive gas from flowing into the interior or interior of the air-conditioning apparatus A from the external drain pipe T1.

其中，由於該空調排水管路阻氣裝置形成「水封」的部位僅為該彎管1的一部分，因此不會有容積過大的問題，使得冷凝水不會積聚太多就能被排出，可有效改善冷凝水積聚過久而變髒、發臭的問題。另一方面，由於該空調排水管路阻氣裝置具有該浮球22，故於該空調設備A長時間停止運作的期間(例如：秋、冬、春之際)，只要水位下降至不足以使該浮球22漂浮時，該浮球22就會受重力作用而堵住該阻氣接頭21之排水端213與中空本體211連接處(如第4圖所示)；因此，即便該彎管1中的所有水液都蒸發，該外部排水管T1中的氣體仍無法通過該浮力阻氣模組2而流入該空調排水管T2，故該空調排水管路阻氣裝置的阻氣效果係隨時維持有效，可確實避免沼氣或其他腐蝕性氣體由該外部排水管T1流入該空調 設備A內部或室內。Wherein, the portion of the air-conditioning drain line gas blocking device forming the "water seal" is only a part of the curved pipe 1, so there is no problem of excessive volume, so that the condensed water can be discharged without being accumulated too much. Effectively improve the problem that condensed water accumulates too long and becomes dirty and smelly. On the other hand, since the air-conditioning drain line gas-blocking device has the float 22, when the air-conditioning apparatus A stops operating for a long period of time (for example, during autumn, winter, and spring), as long as the water level drops to be insufficient to make the When the float 22 floats, the float 22 is subjected to gravity to block the connection between the drain end 213 of the gas barrier joint 21 and the hollow body 211 (as shown in Fig. 4); therefore, even in the bend 1 All the water liquid evaporates, and the gas in the external drain pipe T1 still cannot flow into the air conditioning drain pipe T2 through the buoyant gas block module 2, so the gas barrier effect of the gas blockage device of the air conditioner drain pipe is maintained at all times. Can surely prevent biogas or other corrosive gases from flowing into the air conditioner from the external drain pipe T1 Equipment A internal or indoor.

值得一提的是，該保護殼3並非該空調排水管路阻氣裝置之必要構件；亦即，在其他實施例中，該空調排水管路阻氣裝置可以不設有該保護殼3，而直接將該空調排水管T2與該浮力阻氣模組2的阻氣接頭21相接，及將該彎管1的排水部13末端與該外部排水管T1相接。據此結構，同樣可達到上述之阻氣效果。It is worth mentioning that the protective casing 3 is not a necessary component of the air-blocking device of the air-conditioning drain line; that is, in other embodiments, the air-conditioning drain line gas-blocking device may not be provided with the protective casing 3, and The air conditioning drain pipe T2 is directly connected to the gas barrier joint 21 of the buoyant gas block module 2, and the end of the drain portion 13 of the elbow 1 is brought into contact with the outer drain pipe T1. According to this structure, the above gas barrier effect can also be achieved.

綜上所述，本創作空調排水管路阻氣裝置，可確保其阻氣效果隨時維持有效，藉以確實避免沼氣或其他腐蝕性氣體由外部排水管流入空調設備內部或室內。In summary, the air-conditioning drain line gas-blocking device of the present invention can ensure that the gas-blocking effect is maintained at all times, thereby ensuring that biogas or other corrosive gases are prevented from flowing into the interior or interior of the air-conditioning apparatus by the external drain pipe.

雖然本創作已利用上述較佳實施例揭示，然其並非用以限定本創作，任何熟習此技藝者在不脫離本創作之精神和範圍之內，相對上述實施例進行各種更動與修改仍屬本創作所保護之技術範疇，因此本創作之保護範圍當視後附之申請專利範圍所界定者為準。Although the present invention has been disclosed by the above-described preferred embodiments, it is not intended to limit the present invention, and it is still within the spirit and scope of the present invention to make various changes and modifications to the above embodiments. The technical scope of the protection is created, so the scope of protection of this creation is subject to the definition of the patent application scope attached.

1‧‧‧彎管1‧‧‧ elbow

11‧‧‧接水部11‧‧‧Water Department

12‧‧‧蓄水部12‧‧‧Water Storage Department

13‧‧‧排水部13‧‧‧Drainage Department

14‧‧‧轉向接頭14‧‧‧Steering joint

2‧‧‧浮力阻氣模組2‧‧‧ buoyancy gas barrier module

21‧‧‧阻氣接頭21‧‧‧ gas barrier connector

211‧‧‧中空本體211‧‧‧ hollow body

212‧‧‧進水端212‧‧‧ water inlet

213‧‧‧排水端213‧‧‧Drainage end

22‧‧‧浮球22‧‧‧Floating ball

3‧‧‧保護殼3‧‧‧Protection shell

31‧‧‧盒體31‧‧‧Box

32‧‧‧蓋體32‧‧‧ Cover

33‧‧‧第一外接管33‧‧‧First external connection

34‧‧‧第二外接管34‧‧‧Second external pipe

L1‧‧‧第一水平分界L1‧‧‧ first horizontal demarcation

L2‧‧‧第二水平分界L2‧‧‧ second horizontal boundary

P‧‧‧最低點P‧‧‧ lowest point

Claims (10)

一種空調排水管路阻氣裝置，包含：一彎管，具有依序相連的一接水部、一蓄水部及一排水部；及一浮力阻氣模組，包含一阻氣接頭及一浮球，該阻氣接頭具有相連通的一中空本體、一進水端及一排水端，該排水端連接該彎管的接水部，該浮球容置於該中空本體的內部以控制該進水端與該彎管之間的連通狀態。The air-conditioning drainage pipeline gas blocking device comprises: an elbow having a water connection portion, a water storage portion and a drainage portion connected in sequence; and a buoyancy gas blocking module comprising a gas barrier joint and a float a ball joint having a hollow body, a water inlet end and a drain end connected to the water pipe, the drain end connecting the water receiving portion of the elbow, the float ball being accommodated inside the hollow body to control the ball The state of communication between the water end and the elbow. 如申請專利範圍第1項所述之空調排水管路阻氣裝置，其中，該阻氣接頭的排水端為一接管，該排水端凸設於該中空本體的外表面，並與該中空本體的內部相連通。The air-conditioning drain line gas-blocking device according to claim 1, wherein the drain end of the gas-proof joint is a nozzle, and the drain end protrudes from an outer surface of the hollow body and is opposite to the hollow body Internally connected. 如申請專利範圍第2項所述之空調排水管路阻氣裝置，其中，該中空本體在該排水端的軸向上具有一最小徑向寬度處，以供該排水端連接。The air conditioning drain line gas barrier device of claim 2, wherein the hollow body has a minimum radial width in the axial direction of the drain end for the drain end to be connected. 如申請專利範圍第3項所述之空調排水管路阻氣裝置，其中，該浮球的外徑大於該排水端的內徑。The air conditioning drain line gas barrier device of claim 3, wherein the outer diameter of the float ball is larger than the inner diameter of the drain end. 如申請專利範圍第4項所述之空調排水管路阻氣裝置，其中，該阻氣接頭的進水端為一接管，該進水端凸設於該中空本體的外表面，並與該中空本體的內部相連通，該浮球的外徑大於該進水端的內徑。The air-conditioning drain line gas-blocking device of claim 4, wherein the water-injecting end of the gas-proof joint is a nozzle, and the water inlet end protrudes from an outer surface of the hollow body, and is hollow The interior of the body is in communication, and the outer diameter of the float is larger than the inner diameter of the water inlet end. 如申請專利範圍第1至5項中任一項所述之空調排水管路阻氣裝置，其中，該蓄水部與該接水部之相連接處具有一第一水平分界，該蓄水部與該排水部之相連接處具有一第二水平分界，該蓄水部在水平方向上相對於地面具有一最低點，該最低點相對於地面的水平高度低於該第一水平分界及第二水平分界分別相對於地面的水平高度。The air-conditioning drain line gas barrier device according to any one of claims 1 to 5, wherein the water-storing portion and the water-receiving portion are connected to each other at a first horizontal boundary, the water storage portion Connecting to the drain portion has a second horizontal boundary, the water storage portion having a lowest point in the horizontal direction with respect to the ground, the lowest point relative to the ground level being lower than the first horizontal boundary and the second The horizontal boundary is the level of the ground relative to the ground. 如申請專利範圍第6項所述之空調排水管路阻氣裝置，其中，整個蓄水部相對於地面的水平高度均低於該第二水平分界相對於地面的水平高度。The air conditioning drainage line gas barrier device according to claim 6, wherein the level of the entire water storage portion relative to the ground is lower than the level of the second horizontal boundary with respect to the ground. 如申請專利範圍第6項所述之空調排水管路阻氣裝置，其中，該排水部具有一頭端及一末端，該排水部的頭端連接該蓄水部，該排水部的末端朝相對低處延伸。The air-conditioning drain pipe choke device according to claim 6, wherein the drain portion has a head end and an end end, and the head end of the drain portion is connected to the water storage portion, and the end portion of the drain portion is relatively low Extended. 如申請專利範圍第8項所述之空調排水管路阻氣裝置，其中，該彎管的排水部頭端係由該蓄水部延伸形成，並再連接一轉向接頭以形成該排水部的末端。The air-conditioning drain pipe choke device of claim 8, wherein the drain end of the elbow is formed by the water-storing portion, and a steering joint is further connected to form an end of the drain portion. . 如申請專利範圍第1至5項中任一項所述之空調排水管路阻氣裝置，另包含一保護殼，該保護殼具有一盒體、一第一外接管及一第二外接管，該彎管及浮力阻氣模組均設於該盒體中，該第一外接管的一端位於該盒體的內部並連接該阻氣接頭的進水端，該第一外接管的另一端裸露於該盒體的外部；該第二外接管的一端位於該盒體的內部並連接該彎管的排水部，該第二外接管的另一端裸露於該盒體的外部。The air-conditioning drain line gas-blocking device according to any one of claims 1 to 5, further comprising a protective shell having a box body, a first outer connecting tube and a second outer connecting tube, The elbow and the buoyant gas blocking module are disposed in the box body, and one end of the first outer connecting tube is located inside the box body and connected to the water inlet end of the gas blocking joint, and the other end of the first outer connecting tube is exposed The outer portion of the second outer connecting tube is located inside the box body and is connected to the drain portion of the elbow, and the other end of the second outer connecting tube is exposed to the outside of the box body.