TWI823320B - Gas purification equipment and method - Google Patents
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Abstract
Description
本申請涉及氣體淨化領域,特別涉及一種氣體淨化設備及方法。 The present application relates to the field of gas purification, and in particular to a gas purification equipment and method.
為改善室內環境,目前常於室內安裝氣體淨化設備,氣體淨化設備內部設有淨化模組,氣體淨化設備可將局部氣體吸入氣體淨化設備內部,於淨化模組對氣體淨化設備內之氣體完成淨化後,氣體淨化設備再將淨化後之氣體排出,從而達到對室內環境之氣體淨化。 In order to improve the indoor environment, gas purification equipment is often installed indoors. The gas purification equipment is equipped with a purification module. The gas purification equipment can suck local gas into the gas purification equipment, and the purification module completes the purification of the gas in the gas purification equipment. Finally, the gas purification equipment discharges the purified gas, thereby achieving gas purification of the indoor environment.
為提高淨化速率,目前氣體淨化設備對氣體之吸入與排出速率較高,易造成進入氣體淨化設備內之氣體由在於氣體淨化設備內滯留時間不足,進而導致氣體淨化效果不佳。 In order to increase the purification rate, the gas inhalation and discharge rates of current gas purification equipment are relatively high, which may easily cause the gas entering the gas purification equipment to remain in the gas purification equipment for insufficient time, thus resulting in poor gas purification effects.
鑒於以上內容,有必要提供一種氣體淨化設備及方法,可於引導氣體移動至淨化裝置周圍後使氣體滯留於淨化裝置周圍,提高淨化裝置對氣體淨化之時間,提高氣體淨化之效果。 In view of the above, it is necessary to provide a gas purification equipment and method that can guide the gas to move around the purification device so that the gas is retained around the purification device, thereby increasing the time for the purification device to purify the gas and improving the effect of gas purification.
第一方面,本申請的實施例提供一種氣體淨化設備,包括箱體,所述箱體上開設有進氣孔與出氣孔,所述進氣孔用於供氣體進入所述箱體,所述出氣孔用於供氣體排出所述箱體,所述箱體內設有:淨化裝置,用於對所述箱體內之氣體進行淨化;引導結構,並用於將從所述進氣孔進入之氣體引導至 所述淨化裝置,所述引導結構與所述箱體開設所述進氣孔之一側間隔設置,所述引導結構與所述箱體開設所述進氣孔之一側之間形成擾流空間;氣體驅動裝置,用於將氣體從所述進氣孔先驅動至所述淨化裝置,再驅動至所述出氣孔;其中,所述引導結構形成第一通道與第二通道,所述第一通道與所述進氣孔對應設置,所述第一通道之截面積沿所述進氣孔朝向所述出氣孔之方向逐漸減小,所述第二通道之截面積沿所述進氣孔朝向所述出氣孔之方向維持不變,所述第一通道用於引導氣體流入所述第二通道,所述淨化裝置至少部分位於所述第二通道內,所述第一通道與所述擾流空間連通,所述第一通道側壁用於使氣體於所述擾流空間形成擾流。 In a first aspect, an embodiment of the present application provides a gas purification equipment, including a box body, the box body is provided with an air inlet hole and an air outlet hole, the air inlet hole is used to allow gas to enter the box body, the The air outlet is used for gas to be discharged from the box. The box is provided with: a purification device for purifying the gas in the box; a guide structure for guiding the gas entering from the air inlet. to In the purification device, the guide structure is spaced apart from the side of the box with the air inlet hole, and a spoiler space is formed between the guide structure and the side of the box with the air inlet hole. ; Gas driving device, used to drive gas from the air inlet to the purification device first, and then to the air outlet; wherein, the guide structure forms a first channel and a second channel, and the first Channels are provided corresponding to the air inlets. The cross-sectional area of the first channel gradually decreases along the direction of the air inlet toward the air outlet. The cross-sectional area of the second channel is along the direction of the air inlet toward the air inlet. The direction of the air outlet remains unchanged, the first channel is used to guide gas to flow into the second channel, the purification device is at least partially located in the second channel, the first channel is in contact with the flow spoiler The spaces are connected, and the side wall of the first channel is used to cause gas to form a turbulent flow in the turbulent space.
可選地,所述氣體淨化設備還包括光感測件,所述光感測件設置於所述箱體內,所述光感測件用於感測所述淨化裝置射出之光線之當前照度。 Optionally, the gas purification equipment further includes a light sensing element, which is disposed in the box, and is used to sense the current illumination of the light emitted by the purification device.
可選地,所述氣體淨化設備還包括氣體流速感測件,所述氣體流速感測件設置於所述箱體內,所述氣體流速感測件用於感測所述箱體內之氣體流速。 Optionally, the gas purification equipment further includes a gas flow rate sensing member, the gas flow rate sensing member is disposed in the box, and the gas flow rate sensing member is used to sense the gas flow rate in the box.
可選地,所述氣體淨化設備還包括處理器單元,所述處理器單元與所述光感測件通訊連接,所述光感測件感測所述淨化裝置射出之光線之當前照度後輸出光感測資訊給所述處理器單元,所述處理器單元用於根據所述光感測資訊確定所述淨化裝置是否故障。 Optionally, the gas purification equipment further includes a processor unit, the processor unit is communicatively connected to the light sensing element, and the light sensing element senses the current illumination of the light emitted by the purification device and then outputs The light sensing information is given to the processor unit, and the processor unit is used to determine whether the purification device is faulty according to the light sensing information.
可選地,所述氣體淨化設備還包括處理器單元,所述處理器單元與所述氣體流速感測件通訊連接,所述氣體流速感測件感測所述箱體內氣體流速後輸出氣體流速資訊給所述處理器單元,所述處理器單元還用於根據氣體流速資訊確定所述進氣孔是否堵塞。 Optionally, the gas purification equipment further includes a processor unit, the processor unit is communicatively connected to the gas flow rate sensing member, and the gas flow rate sensing member senses the gas flow rate in the box and then outputs the gas flow rate. The information is provided to the processor unit, and the processor unit is also used to determine whether the air inlet hole is blocked based on the gas flow rate information.
可選地,所述引導結構朝向所述淨化裝置之側壁上設有反射件,所述反射件用於反射所述淨化裝置射出之光線。 Optionally, a reflective member is provided on the side wall of the guide structure facing the purification device, and the reflective member is used to reflect the light emitted by the purification device.
可選地,所述淨化裝置包括燈管與玻璃纖維套筒,所述燈管用於射出紫外光線,所述玻璃纖維套筒套設於所述燈管上。 Optionally, the purification device includes a lamp tube and a fiberglass sleeve, the lamp tube is used to emit ultraviolet light, and the glass fiber sleeve is sleeved on the lamp tube.
可選地,所述引導結構還形成有第三通道,所述第三通道與所述第一通道分別位於所述第二通道兩側,所述第三通道與所述出氣孔對應設置,所述第三通道之截面積沿所述進氣孔朝向所述出氣孔之方向逐漸增加,所述第三通道用於引導所述第二通道內之氣體流動至所述出氣孔。 Optionally, the guide structure is also formed with a third channel, the third channel and the first channel are respectively located on both sides of the second channel, and the third channel is arranged corresponding to the air outlet, so The cross-sectional area of the third channel gradually increases along the direction of the air inlet toward the air outlet, and the third channel is used to guide the gas in the second channel to flow to the air outlet.
可選地,所述引導結構為兩個對稱設置之引導結構,其中所述第一通道呈漏斗狀,所述第二通道呈矩形。 Optionally, the guide structure is two symmetrically arranged guide structures, wherein the first channel is funnel-shaped and the second channel is rectangular.
第二方面,本申請的實施例提供一種淨化方法,應用於氣體淨化設備中,所述氣體淨化設備具有箱體,所述箱體上開設有進氣孔與出氣孔,所述箱體內設置有淨化裝置、引導結構和氣體驅動裝置,所述引導結構形成第一通道與第二通道,所述引導結構與所述箱體開設所述進氣孔之一側間隔設置,所述引導結構與所述箱體開設所述進氣孔之一側之間形成擾流空間,所述第一通道與所述擾流空間連通,所述第一通道側壁用於使氣體於所述擾流空間形成擾流,所述淨化方法包括:所述氣體驅動裝置將氣體從所述進氣孔驅動至所述第一通道;所述氣體驅動裝置將氣體從所述第一通道驅動至所述第二通道,其中,所述第一通道之截面積沿所述進氣孔朝向所述出氣孔之方向逐漸減小,所述第二通道之截面積小於所述第一通道靠近所述進氣孔一側之截面積;所述淨化裝置淨化所述箱體內之氣體,其中,所述淨化裝置至少部分位於所述第二通道內;所述氣體驅動裝置將氣體從所述第二通道驅動至所述出氣孔。 In the second aspect, embodiments of the present application provide a purification method for use in gas purification equipment. The gas purification equipment has a box with an air inlet and an air outlet. The box is provided with an air inlet and an air outlet. Purification device, guide structure and gas driving device, the guide structure forms a first channel and a second channel, the guide structure is spaced apart from the side of the box where the air inlet is opened, the guide structure is separated from the air inlet hole. A spoiler space is formed between one side of the box with the air inlet, the first channel is connected to the spoiler space, and the side wall of the first channel is used to cause gas to form a spoiler in the spoiler space. flow, the purification method includes: the gas driving device drives gas from the air inlet to the first channel; the gas driving device drives gas from the first channel to the second channel, Wherein, the cross-sectional area of the first channel gradually decreases along the direction of the air inlet toward the air outlet, and the cross-sectional area of the second channel is smaller than the side of the first channel close to the air inlet. Cross-sectional area; the purification device purifies the gas in the box, wherein the purification device is at least partially located in the second channel; the gas driving device drives gas from the second channel to the air outlet .
本申請實現方式提供之氣體淨化設備及方法,藉由引導結構形成的第一通道將氣體引導至第二通道內,並造成第二通道內氣體的滯留,增加了淨化裝置對第二通道和第一通道內氣體的淨化時間,提高了氣體淨化效果。 The gas purification equipment and method provided by the implementation method of this application guides the gas into the second channel through the first channel formed by the guide structure, and causes the retention of gas in the second channel, which increases the impact of the purification device on the second channel and the third channel. The purification time of gas in one channel improves the gas purification effect.
100:氣體淨化設備 100:Gas purification equipment
10:箱體 10: Cabinet
11:進氣孔 11: Air intake hole
12:出氣孔 12: Air outlet
13:頂壁 13: Top wall
14:底壁 14: Bottom wall
15:隔網 15:Network
16:擾流空間 16: Spoiler space
20:淨化裝置 20:Purification device
21:燈管 21:Lamp tube
22:玻璃纖維套筒 22:Fiberglass sleeve
30:氣體驅動裝置 30:Gas driven device
40:引導結構 40: Boot structure
41:第一通道 41:First channel
42:第二通道 42:Second channel
43:第三通道 43:Third channel
44:反射件 44: Reflective parts
50:光感測件 50:Light sensing parts
60:處理器單元 60: Processor unit
70:氣體流速感測件 70: Gas flow rate sensing element
80:防護罩 80:Protective cover
S81~S85:步驟 S81~S85: steps
S91~S98:步驟 S91~S98: steps
S101~S104:步驟 S101~S104: Steps
圖1為本申請實施例中氣體淨化設備之內部結構示意圖。 Figure 1 is a schematic diagram of the internal structure of the gas purification equipment in the embodiment of the present application.
圖2為本申請實施例中淨化裝置之結構示意圖。 Figure 2 is a schematic structural diagram of the purification device in the embodiment of the present application.
圖3為本申請實施例中氣體淨化設備之內部結構示意圖。 Figure 3 is a schematic diagram of the internal structure of the gas purification equipment in the embodiment of the present application.
圖4為本申請實施例中箱體之局部剖視圖。 Figure 4 is a partial cross-sectional view of the box in the embodiment of the present application.
圖5為本申請實施例中氣體淨化設備之另一內部結構示意圖。 Figure 5 is another schematic diagram of the internal structure of the gas purification equipment in the embodiment of the present application.
圖6為本申請實施例中氣體淨化設備之結構拆解圖。 Figure 6 is an exploded view of the structure of the gas purification equipment in the embodiment of the present application.
圖7為本申請實施例中氣體淨化設備之系統示意圖。 Figure 7 is a system schematic diagram of the gas purification equipment in the embodiment of the present application.
圖8為本申請實施例中淨化方法之流程圖。 Figure 8 is a flow chart of the purification method in the embodiment of the present application.
圖9為本申請實施例中淨化方法之另一流程圖。 Figure 9 is another flow chart of the purification method in the embodiment of the present application.
圖10為本申請實施例中淨化方法之另一流程圖。 Figure 10 is another flow chart of the purification method in the embodiment of the present application.
下面將結合本申請實現方式中之附圖,對本申請實現方式中之技術方案進行清楚、完整地描述,顯然,所描述之實現方式僅是本申請一部分實現方式,而不是全部之實現方式。 The technical solutions in the implementation of the present application will be clearly and completely described below with reference to the accompanying drawings in the implementation of the present application. Obviously, the described implementation is only a part of the implementation of the present application, rather than the entire implementation.
請參閱圖1,圖1為本申請之實施例提供之一種氣體淨化設備100,用於淨化氣體。
Please refer to FIG. 1 . FIG. 1 shows a
一個實施例中,氣體淨化設備100可以包括箱體10,箱體10一端開設有進氣孔11,另一端開設有出氣孔12,進氣孔11連通箱體10之內部與外部,出氣孔12連通箱體10之內部與外部,箱體10內可設有淨化裝置20,淨化裝置20位於進氣孔11與出氣孔12之間,並用於對箱體10內之氣體進行淨化,進氣孔11用於供待淨化之氣體進入箱體10,出氣孔12用於供藉由淨化裝置20淨化後之氣體排出箱體10。
In one embodiment, the
可理解,氣體淨化設備100可安裝於室內或室內與室外連通之通風口處,室內未淨化之氣體或室外之氣體可藉由進氣孔11進入箱體10內,淨化裝置20對箱體10內之氣體進行淨化後,淨化後之氣體再藉由出氣孔12移出箱體10、進入室內。淨化裝置20淨化之氣體可以為但不局限於空氣。
It can be understood that the
舉例說明,箱體10可為一長方體箱體10,箱體10具有兩短邊內壁與兩長邊內壁,進氣孔11可開設於一短邊內壁上,出氣孔12可開設於另一短邊內壁上。
For example, the
可理解,出氣孔12於箱體10上可間隔開設有多個,進氣孔11於箱體10上可間隔開設有多個。
It can be understood that a plurality of
請參閱圖2,本實施例中,淨化裝置20可採用紫外光對氣體進行淨化殺毒,淨化裝置20可包括燈管21,燈管21用於射出紫外光線,燈管21可與一從箱體10內壁延伸之支架固定,從而實現燈管21於箱體10內壁上之固定安裝。燈管21與支架之固定方式可以為但不局限於卡扣固定。
Please refer to Figure 2. In this embodiment, the
本實施例中,箱體10內還可設有氣體驅動裝置30,氣體驅動裝置30固定安裝於箱體10內壁上,氣體驅動裝置30位於箱體10內靠近出氣孔12之一端處,氣體驅動裝置30之抽氣端朝向淨化裝置20設置,排氣端朝向出氣孔12設置,氣體驅動裝置30用於將氣體從進氣孔11先驅動至淨化裝置20處進行淨化,再驅動至出氣孔12,以將完成淨化之氣體排出箱體10。
In this embodiment, a
可理解,氣體驅動裝置30可實現箱體10內氣體從進氣孔11向出氣孔12方向之單向流通,減少淨化後之氣體於無外力驅動之情況下從進氣孔11流失之情況。
It can be understood that the
舉例說明,氣體驅動裝置30可以為一個或多個風扇;氣體驅動裝置30可固定安裝於箱體10開設有出氣孔12之內壁上,固定方式可以為但不局限於螺釘固定。
For example, the
請參閱圖1與圖3,本實施例中,箱體10內還可設有引導結構40,引導結構40設置於進氣孔11與出氣孔12之間,引導結構40用於將從進氣孔11進入箱體10之氣體引導至淨化裝置20處進行淨化,引導結構40與箱體10開設進氣孔11之一側間隔設置,引導結構40與箱體10開設進氣孔11之一側之間形成擾流空間16。
Please refer to Figures 1 and 3. In this embodiment, a
可理解,引導結構40可從箱體10內一側壁上延伸形成,亦可拼接式固定安裝於箱體10內壁上,固定方式可以為黏接固定、螺釘固定等。
It can be understood that the
本實施例中,引導結構40可形成第一通道41與第二通道42,第一通道41與第二通道42連通,第一通道41與進氣孔11對應設置,第二通道42位於第一通道41遠離進氣孔11之一側,第一通道41之截面積沿進氣孔11朝向出氣孔12之方向逐漸減小,第二通道42之截面積小於第一通道41靠近進氣孔11一側之截面積,且第二通道42之截面積沿進氣孔11朝向出氣孔12之方向維持不變,至少部分燈管21位於第二通道42內,燈管21與引導結構40用於形成第二通道42之部分於箱體10之寬度方向上存在間隔,第一通道41用於引導氣體流入第二通道42內,以使氣體於與燈管21間距更小之情況下進行淨化,提高淨化效果。第一通道41與擾流空間16連通。
In this embodiment, the
於一種實現方式中,燈管21完全位於第二通道42內;另一種實現方式中,燈管21一部分位於第二通道42內,另一部分位於第一通道41內;再另一種實現方式中,燈管21一部分位於第二通道42內,另一部分從遠離第一通道41之方向伸出第二通道42,本申請之實施例對此不作限定。
In one implementation, the
可理解,第一通道41之寬度方向、第二通道42之寬度方向與箱體10之寬度方向為相同之方向,例如圖1所示之X方向;其中,箱體10之寬度為箱體10短邊內壁之長度。
It can be understood that the width direction of the
可理解,箱體10內可沿箱體10寬度方向間隔設置兩個引導結構40,兩個引導結構40對稱設置,引導結構40可呈彎折板狀,兩個對稱設置之引導結構40可形成一呈漏斗狀之第一通道41,以及一呈矩形之第二通道42。
It can be understood that two
可理解,第二通道42之寬度小於箱體10之寬度,且第二通道42之截面積小於箱體10之截面積;第一通道41靠近進氣孔11一側之寬度可小於或等於箱體10之寬度,且第一通道41靠近進氣孔11一側之截面積可小於或等於箱體10之截面積,本申請之實施例對此不作限定。
It can be understood that the width of the
第一通道41朝向進氣孔11之一側之截面積大於朝向出氣孔12之一側之截面積。一種實現方式中,第一通道41之兩側壁傾斜設置於箱體10兩長邊內壁上,從進氣孔11進入第一通道41之氣體沿第一通道41側壁之方向流動,於第一通道41遠離第二通道42一側之擾流空間16形成擾流。氣體驅動裝置30驅動氣體流動時,同步提高了第一通道41遠離第二通道42一端處之氣體流速。氣體依序從第一通道41流動至第一通道41與第二通道42之連接處,再流動至第二通道42內。當氣體流動至第二通道42時,氣體可於第二通道42內近距離照射紫外光線。藉由第一通道41、第二通道42之設計方式,可增加氣體滯留於靠近燈管21之位置之時間,並增加氣體照射紫外光線之時間,提高了氣體淨化效果。
The cross-sectional area of the side of the
可理解,第一通道41之內壁可呈平面、弧面或階梯面,本申請之實施例對此不作限定。
It can be understood that the inner wall of the
一種實現方式中,第一通道41遠離進氣孔11一側之截面積等於第二通道42之截面積;第二種實現方式中,第一通道41遠離進氣孔11之一側之截面積大於第二通道42之截面積;第三種實現方式中,第一通道41遠離進氣孔11一側之截面積小於第二通道42之截面積,本申請之實施例對此不作限定,僅以第一種實現方式進行舉例。
In one implementation, the cross-sectional area of the
另一實施例中,引導結構40還構成有第三通道43,第三通道43與第一通道41分別位於第二通道42之兩側,第三通道43與第二通道42連通,第三通道43與出氣孔12對應設置,第三通道43之截面積沿進氣孔11朝向出氣孔12之方向逐漸增大,第三通道43用於引導並加速第二通道42內完成淨化之氣體流動至出氣孔12,從而引導完成淨化之氣體流動至箱體10外。
In another embodiment, the
可理解,對稱設置之兩個引導結構40可形成呈漏斗狀之第三通道43。第三通道43靠近出氣孔12一側之截面積可小於或等於箱體10之截面積,本申請之實施例對此不作限定。
It can be understood that the two symmetrically arranged
一種實現方式中,淨化裝置20完全位於第二通道42內;另一種實現方式中,淨化裝置20一部分位於第一通道41內,另一部分位於第二通道42內;又另一種實現方式中,淨化裝置20一端位於第一通道41內,另一端位於第三通道43內,淨化裝置20中部位於第二通道42內,本申請之實施例對此不作限定。
In one implementation, the
可理解,第三通道43之內壁可呈平面、弧面或階梯面,本申請之實施例對此不作限定。
It can be understood that the inner wall of the
本實施例中,氣體驅動裝置30驅動第二通道42內完成淨化之氣體朝向第三通道43流動,並驅動完成淨化之氣體從第三通道43流動至出氣孔12。
In this embodiment, the
一種實現方式中,第三通道43遠離出氣孔12一側之截面積等於第二通道42之截面積;第二種實現方式中,第三通道43遠離出氣孔12之一側之截面積大於第二通道42之截面積;第三種實現方式中,第三通道43遠離出氣孔12一側之截面積小於第二通道42之截面積,本申請之實施例對此不作限定,僅以第一種實現方式進行舉例。
In one implementation, the cross-sectional area of the
請參閱圖4與圖5,一些實施例中,兩引導結構40相互朝向之一面上固定有反射件44,反射件44用於反射燈管21射出之紫外光線,從而減少引導結構40對紫外光線之吸收,提高箱體10內紫外光線之照度,提高氣體淨化效果。
Please refer to Figures 4 and 5. In some embodiments, a
可理解,反射件44可以為但不局限於銅箔,反射件44與引導結構40之固定方式可以為但不局限於黏接固定。
It can be understood that the
一些實施例中,箱體10內壁上亦固定有反射件44,設置於引導結構40上之反射件44及設置於箱體10內壁上之反射件44可以為相同材料製成反射件44固定於箱體10內壁上之方式可與反射件44固定於引導結構40上之方式相同。
In some embodiments, a
請參閱圖1與圖2,一些實施例中,淨化裝置20還可包括玻璃纖維套筒22,玻璃纖維套筒22套設於燈管21上,玻璃纖維套筒22可加強對燈管21之防護,還可作為紫外光線之傳播增加了除氣體以外之媒介。
Please refer to FIGS. 1 and 2 . In some embodiments, the
可理解,紫外光線射入玻璃纖維套筒22後可於玻璃纖維內通過,由於光線於玻璃纖維內之散失率低於光線於氣體中之散失率,因此玻璃纖維套筒22之設置減少了箱體10內紫外光線之散失,提高了箱體10內紫外光線之照度,提高氣體淨化效果。
It can be understood that the ultraviolet light can pass through the glass fiber after being injected into the
可理解,玻璃纖維套筒22可與從箱體10內壁延伸形成之支架固定連接,固定方式可以為但不局限於黏接固定、卡扣固定等。
It can be understood that the
一些實施例中,玻璃纖維套筒22上設有光觸媒淨化因子,光觸媒淨化因子可於紫外光線之照射下可降解氣體中有毒有害氣體,例如甲酸等,從而提高氣體淨化效果。
In some embodiments, the
一種實現方式中,光觸媒淨化因子可塗設於玻璃纖維套筒22上;另一種實現方式中,光觸媒淨化因子可作為玻璃纖維套筒22之製作材料之一,內嵌入玻璃纖維套筒22中,本申請之實施例對此不作限定。
In one implementation, the photocatalyst purification factor can be coated on the
一些實施例中,氣體淨化設備100還可包括處理器單元60,處理器單元60用於根據感測資訊輸出提醒資訊,以提醒使用者氣體淨化設備100之工作狀態。
In some embodiments, the
處理器單元60可以為通用中央處理器(CPU)、微處理器、特定應用積體電路(application-specific integrated circuit,ASIC)、或一個或多個用於控制以上方案程式執行之積體電路。
The
可理解,感測資訊可以為處理器單元60從具有物理環境感測功能之電子裝置獲取之資訊,也可以為處理器單元60從氣體淨化設備100內除處理器單元60外之其他裝置直接獲取之資訊,本申請之實施例對此不作限定。
It can be understood that the sensing information may be information obtained by the
可理解,處理器單元60對感測資訊分析處理後可以確定氣體淨化設備100之工作狀態,並輸出與當前氣體淨化設備100之工作狀態對應之提醒資訊,以提醒使用者氣體淨化設備100當前之工作狀態。對於不同之工作狀態,處理器單元60輸出不同之提醒資訊。
It can be understood that the
一種實現方式中,處理器單元60可藉由通訊裝置與一使用者終端(圖中未展示)通訊連接,處理器單元60可輸出提醒資訊給使用者終端,使用者通過查看使用者終端可查看提醒資訊,以確定當前氣體淨化設備工作狀態。使用者終端可以為一具有圖像或文字顯示功能與通訊功能之交互設備,具體可以為但不局限於智慧手機、平板電腦、電腦、智慧手環、智慧眼鏡等。處理器單元60輸出提醒資訊給使用者終端時,提醒資訊之形式可以為電子郵件、應用軟體通知資訊、短信等。
In one implementation, the
舉例說明,當處理器單元60根據感測資訊確定燈管21照度在預設範圍內時,處理器單元60輸出與燈管21當前照度對應之提醒資訊給使用者終端,此時輸出之提醒資訊可以為記載有燈管21當前照度值之短信。
For example, when the
另一種實現方式中,氣體淨化設備100上可設置有一警示裝置(圖中未展示),處理器單元60可與警示裝置通訊連接,警示裝置可響應於提醒資訊並發出對應之提醒警示。舉例說明,警示裝置可以為警示燈與/或音訊播放機等。
In another implementation, the
舉例說明,警示裝置可以為設有多個警示燈之警示燈裝置,當處理器單元60根據感測資訊確定箱體10內氣體流速在預設範圍內時,處理器單元60輸出與箱體10內當前氣體流速對應之提醒資訊給警示裝置,警示裝置根據接收的提醒資訊發出對應之提醒警示,警示裝置上與“氣體流速正常”標籤對應之警示燈點亮。
For example, the warning device can be a warning light device equipped with multiple warning lights. When the
一些實施例中,感測資訊可以包括光感測資訊,提醒資訊可以包括照度提醒資訊,氣體淨化設備還可以包括光感測件50,處理器單元60與光感測件50通訊連接,光感測件50設置於箱體10內,光感測件50用於感測燈管21射出之紫外光線之照度,並輸出光感測資訊給處理器單元60,處理器單元60根據光感測資訊輸出照度提醒資訊。
In some embodiments, the sensing information may include light sensing information, and the reminder information may include illumination reminder information. The gas purification device may also include a
光感測件50可以為具有紫外光線感測功能,且可將光訊號轉化為電訊號之電子裝置,可以為但不局限於光感測器。
The
可理解,處理器單元60與光感測件50可藉由一通訊裝置實現無線通訊連接,亦可藉由電線實現有線通訊連接,本申請之實施例對此不作限定。
It can be understood that the
可理解,燈管21運行前可根據燈管21之參數確定箱體10內可達到之標準照度,當光感測件50對箱體10內之亮度進行感測並輸出光感測資訊給處理器單元60後,處理器單元60根據對光感測資訊分析處理可確定箱體10內之當前照度,若當前照度與標準照度相同或於預設範圍內存在差異,則可確定燈管21可正常運行;若當前照度與標準照度之差異超出了預設範圍,則確定燈管21故障,處理器單元60可輸出照度提醒資訊。
It can be understood that before the operation of the
一種實現方式中,處理器單元60可輸出照度提醒資訊給使用者終端,提醒使用者對燈管21進行檢修。
In one implementation, the
處理器單元60輸出給使用者終端之照度提醒資訊內容可以為箱體10內之當前照度,箱體10之當前照度可藉由處理器單元60對光感測資訊分析處
理後生成;處理器單元60輸出給使用者終端之照度提醒資訊內容還可以為“燈管照度故障”或“淨化裝置照度故障”之文字資訊。
The illumination reminder information output by the
另一種實現方式中,處理器單元60可與警示裝置通訊連接,警示裝置可響應於照度提醒資訊並發出提醒警示。舉例說明,警示裝置可以為警示燈與/或音訊播放機等。
In another implementation, the
請參閱圖1與圖5,一些實施例中,箱體10可具有頂壁13與底壁14,淨化裝置20安裝於底壁14上,光感測件50固定安裝於頂壁13上,且光感測件50與淨化裝置20對應設置,光感測件50用於感測位於箱體10內之燈管21射出紫外光線之照度。
Please refer to Figures 1 and 5. In some embodiments, the
可理解,光感測件50與頂壁13之固定方式可以為但不局限於螺釘固定。
It can be understood that the
請參閱圖1,一些實施例中,處理器單元60可固定安裝於底壁14上,處理器單元60位於進氣孔11與淨化裝置20之間。由於氣體於箱體10內始終保持從進氣孔11向出氣孔12之方向流動,因此氣體流動之同時減少了燈管21工作產生之熱量向進氣孔11方向之傳導,進而減少了燈管21之熱量向處理器單元60之傳導,同時流動之氣體可對工作中之處理器單元60進行散熱,使熱量可藉由出氣孔12排出箱體10,提高了處理器單元60之使用壽命。
Referring to FIG. 1 , in some embodiments, the
可理解,處理器單元60與箱體10底壁之固定方式可以為但不局限於螺釘固定。
It can be understood that the fixation method between the
可理解,處理器單元60可與氣體淨化設備100之其他電子元件集成後,一併安裝於進氣孔11與淨化裝置20之間。
It can be understood that the
請參閱圖6,一些實施例中,箱體10內設有防護罩80,防護罩80罩設於處理器單元60及其他電子元件上,防護罩80與箱體10內壁固定連接,防護罩80上開設有多個供氣體通過之通孔,防護罩80用於減少處理器單元60及其他
電子元件被紫外光線照射之面積,提高處理器單元60及其他電子元件之使用壽命。
Please refer to Figure 6. In some embodiments, a
可理解,防護罩80與箱體10內壁之固定方式可以為但不局限於螺釘固定。
It can be understood that the
一些實施例中,感測資訊還可以包括氣體流速資訊,提醒資訊還可以包括氣體流速提醒資訊,處理器單元60可根據氣體流速資訊確定箱體10內當前氣體流速是否在預設範圍內,並在當前氣體流速位於預設範圍外時輸出氣體流速提醒資訊,以提醒使用者進氣孔11存在被堵塞或被阻擋之風險,提醒使用者對進氣孔11進行清潔。
In some embodiments, the sensing information may also include gas flow rate information, and the reminder information may also include gas flow rate reminder information. The
一種實現方式中,氣體流速資訊可以為氣體驅動裝置30之驅動電流,處理器單元60與氣體驅動裝置30電連接,當氣體驅動裝置30通電工作時,處理器單元60可獲取氣體驅動裝置30之驅動電流,並確定驅動電流是否超出預設範圍,當氣體驅動裝置30之驅動電流超出預設範圍時,處理器單元60輸出氣體流速提醒資訊。
In one implementation, the gas flow rate information can be the driving current of the
可理解,處理器單元60可輸出氣體流速提醒資訊給警示裝置,亦可輸出氣體流速提醒資訊給使用者終端,本申請之實施例對此不作限定。
It can be understood that the
可理解,氣體驅動裝置30為維持額定之出風氣體流速,當進氣孔11由於灰塵沾染而導致氣體進入箱體10受阻時,氣體驅動裝置30可藉由自我調整程式提高驅動電流、功率,從而增加對氣體流動之驅動力,處理器單元60藉由確定氣體驅動裝置30之驅動電流是否於預設範圍內,可確定進氣孔11是否堵塞,若判定進氣孔11堵塞,處理器單元60輸出氣體流速提醒資訊,可通知使用者對進氣孔11處進行清潔。
It can be understood that in order to maintain the rated outlet gas flow rate, the
請參閱圖6與圖7,另一種實現方式中,氣體淨化設備100還可包括氣體流速感測件70,氣體流速感測件70固定安裝於箱體10內壁上,氣體流速感
測件70與處理器單元60通訊連接,氣體流速感測件70用於感測箱體10內之當前氣體流速並輸出氣體流速資訊給處理器單元60,處理器單元60分析氣體流速資訊可確定箱體10內當前氣體流速,當箱體10內當前氣體流速低於預設閾值時,處理器單元60可輸出氣體流速提醒資訊,以提醒使用者對進氣孔11處之進行清潔。其中,預設閾值可以為箱體10內氣體流速預設範圍之最大值。
Please refer to FIGS. 6 and 7 . In another implementation, the
可理解,本申請之實施例中,氣體流速感測件70可安裝於燈管21側部、頂部或底部,例如,氣體流速感測件70可固定安裝於引導結構40上,安裝位置可以為但不局限於第二通道42內壁。
It can be understood that in the embodiment of the present application, the gas flow
可理解,氣體流速感測件70與引導結構40之固定方式,可以為但不局限於螺釘固定、黏接固定等。
It can be understood that the gas flow
可理解,當氣體驅動裝置30之驅動電流恒定時,進氣孔11處之堵塞會降低箱體10內之氣體流速,當箱體10內氣體之流速低於預設閾值時,氣體淨化設備100對室內氣體之淨化效果不佳,因此此時處理器單元60可輸出氣體流速提醒資訊,以通知使用者對進氣孔11處進行清潔。
It can be understood that when the driving current of the
可理解,處理器單元60與氣體流速感測件70可藉由一通訊裝置實現無線通訊連接,亦可藉由電線實現有線通訊連接,本申請之實施例對此不作限定。
It can be understood that the
一些實施例中,箱體10外壁上可拆卸地裝配有隔網15,隔網15固定安裝於進風孔處,當處理器單元60輸出氣體流速提醒資訊時,使用者可將隔網15從箱體10上拆下進行清潔。
In some embodiments, a
可理解,隔網15將灰塵阻隔箱體10外,當氣體流速提醒資訊輸出後,使用者僅對隔網15進行清潔即可,不需要對箱體10進行清潔,提高清潔之方便性。
It can be understood that the
可理解,隔網15與箱體10之連接方式可以為但不局限於卡扣連接、螺釘連接等。
It can be understood that the connection method between the
本申請之實施例中,氣體淨化設備100工作時,氣體驅動裝置30將箱體10外之氣體藉由進氣孔11驅動至箱體10內,並驅動箱體10內之氣體向出氣孔12方向流動,引導結構40引導流動中之氣體進入第一通道41與第二通道42,淨化裝置20射出紫外光線對氣體進行淨化,第一通道41之引導使氣體可停滯於第二通道42內,進行更長時間之淨化,且玻璃纖維套筒22與反射件44提高了箱體10內各處,尤其是與燈管21接近之位置之紫外光線照度,進而提高了對氣體之淨化效果;氣體完成淨化後進入第三通道43,隨著第三通道43之截面積逐漸增大,完成淨化之氣體流動之速度增大,最終於氣體驅動裝置30之驅動下完成淨化之氣體快速移出箱體10。
In the embodiment of the present application, when the
請參閱圖8,為本申請實施例提供之一種淨化方法,可應用於上述氣體淨化設備100。
Please refer to FIG. 8 , which is a purification method provided by an embodiment of the present application, which can be applied to the above-mentioned
淨化方法具體可包括以下步驟: The purification method may specifically include the following steps:
步驟S81:氣體驅動裝置30將氣體從進氣孔11驅動至第一通道41。
Step S81: The
步驟S82:氣體驅動裝置30將氣體從第一通道41驅動至第二通道42。
Step S82: The
可理解,第一通道41可將氣體集中引導至第二通道42中。
It can be understood that the
步驟S83:淨化裝置20淨化箱體10內之氣體。
Step S83: The
一種實現方式中,淨化裝置20完全位於第二通道42內,滯留於第二通道42內之氣體於燈管21長時間近距離照射下實現淨化,提高淨化效果;另一種實現方式中,淨化裝置20一部分位於第一通道41內,另一部分位於第二通道42內;又另一種實現方式中,淨化裝置20一端位於第一通道41內,另一端位於第三通道43內,淨化裝置20中部位於第二通道42內,本申請之實施例對此不作限定。
In one implementation, the
步驟S84:氣體驅動裝置30將氣體從第二通道42驅動至第三通道43。
Step S84: The
可理解,氣體驅動裝置30可以驅動完成淨化或處於淨化過程中之氣體,從第二通道42流動至第三通道43,使氣體逐漸靠近出氣孔12。
It can be understood that the
步驟S85:氣體驅動裝置30將氣體從第三通道43驅動至出氣孔12。
Step S85: The
一些實施例中,於氣體移出第二通道42時,於氣體驅動裝置30之驅動下完成淨化之氣體快速移出箱體10。另一些實施例中,引導結構40還形成有與第二通道42連通之第三通道43,第三通道43與第一通道41分別位於第二通道42之兩側,第三通道43與出氣孔12對應設置,氣體驅動裝置30驅動完成淨化之氣體移出箱體10。
In some embodiments, when the gas moves out of the
請參閱圖9,淨化方法還可包括以下步驟,其中,以下步驟之運行主體可以為處理器單元60: Referring to Figure 9, the purification method may also include the following steps, wherein the main body of running the following steps may be the processor unit 60:
步驟S91:確定燈管21之標準照度。
Step S91: Determine the standard illumination of the
可理解,標準照度與燈管21於預設之電壓、電流驅動下產生之紫外光線之照度對應。由於燈管21預設之驅動電壓、驅動電流是可知因此標準照度亦是可知。
It can be understood that the standard illumination corresponds to the illumination of ultraviolet light generated by the
一種實現方式中,處理器單元60可以與一資料庫(圖中未展示)通信連接,處理器單元60可以獲取燈管21之工作電流值,資料庫中記錄有燈管21於多種工作電流下之額定照度,處理器單元60獲取燈管21之工作電流值後,可以在資料庫中確定與當前工作電流值對應之額定照度,並以與當前工作電流值對應之額定照度為標準照度;另一種實現方式中,標準照度可以由使用者通過對燈管21之工作電流值進行感測或人為設定後,再通過計算或者查閱燈管21之說明書資料確定與當前工作電流值對應之額定照度後,由使用者通過使用者終端將額定照度輸出給處理器單元60,處理器單元60確定該額定照度為標準照度,本申請之實施例對此不作限定。
In one implementation, the
步驟S92:根據光感測資訊確定當前照度。 Step S92: Determine the current illumination according to the light sensing information.
可理解,光感測件50感測箱體10內之照度,並生成與箱體10內照度對應之光感測資訊,處理器單元60獲取光感測資訊並分析光感測資訊,可確定箱體10內之當前照度。
It can be understood that the
步驟S93:確定當前照度與標準照度之差異是否於預設範圍內,若差異不在預設範圍內則進入步驟S94;差異在預設範圍內則進入步驟S95,其中,當前照度與光感測資訊對應。 Step S93: Determine whether the difference between the current illumination and the standard illumination is within the preset range. If the difference is not within the preset range, proceed to step S94; if the difference is within the preset range, proceed to step S95, in which the current illumination and light sensing information correspond.
可理解,當前照度與標準照度之差異若於預設範圍內,則確定當前照度與標準照度之差異可藉由對燈管21之驅動電流進行調整而使當前照度接近於或等於與標準照度,從而確定氣體淨化之效果接近於或等於預期效果;若當前照度與標準照度之差異超出之預設範圍,則可確定燈管21發生故障。
It can be understood that if the difference between the current illumination and the standard illumination is within the preset range, the difference between the current illumination and the standard illumination can be determined by adjusting the driving current of the
步驟S94:輸出照度提醒資訊。 Step S94: Output illumination reminder information.
可理解,燈管21之當前照度與標準照度偏離過大時,可輸出照度提醒資訊以提醒使用者對燈管21進行更換或檢修。
It can be understood that when the current illumination of the
一種實現方式中,處理器單元60可輸出照度提醒資訊給使用者終端,提醒使用者對燈管21進行檢修。處理器單元60輸出照度提醒資訊給使用者終端時,照度提醒資訊之形式可以為電子郵件、應用軟體通知資訊、短信等。
In one implementation, the
可理解,處理器單元60輸出給使用者終端之照度提醒資訊內容可以為箱體10內之當前照度,箱體10之當前照度可通過處理器單元60對光感測資訊分析處理後生成;處理器單元60輸出給使用者終端之照度提醒資訊內容還可以為“燈管照度故障”或“淨化裝置照度故障”之文字資訊。
It can be understood that the illumination reminder information content output by the
另一種實現方式中,處理器單元60可與警示裝置通訊連接,警示裝置可響應於照度提醒資訊並發出提醒警示。
In another implementation, the
步驟S95:確定當前照度與標準照度之差異是否超出補償範圍,若差異超出補償範圍則進入步驟S96;若差異未超出補償範圍,則進入步驟S97。 Step S95: Determine whether the difference between the current illuminance and the standard illuminance exceeds the compensation range. If the difference exceeds the compensation range, proceed to step S96; if the difference does not exceed the compensation range, proceed to step S97.
可理解,若當前照度與標準照度之差異未超出補償範圍,則確定當前之差異對氣體淨化之效果影響較小,可不採取進一步動作;若當前照度與標準照度之差異超出補償範圍,則需要補償燈管21額定驅動電流,以增強氣體淨化效果。
It can be understood that if the difference between the current illumination and the standard illumination does not exceed the compensation range, it is determined that the current difference has a small impact on the effect of gas purification, and no further action can be taken; if the difference between the current illumination and the standard illumination exceeds the compensation range, compensation is required. The
步驟S96:調節燈管21之驅動電流,以減少當前照度與標準照度之差異,並進入步驟S97。
Step S96: Adjust the driving current of the
可理解,處理器單元60可與燈管21電連接,以實現對燈管21驅動電流之調節。調節燈管21之驅動電流之方法可為先確定燈管21當前之驅動電流,再根據當前之驅動電流與燈管21射出之紫外光線之照度之正比例對應關係,確定是否需要消除當前照度與標準照度之差異,若確定需要消除當前照度與標準照度之差異,則確定對驅動電流增大或縮小之具體數值,再根據確定之具體數值對燈管21之驅動電流進行增大或減小。
It can be understood that the
可理解,處理器單元60根據當前照度與標準照度之差異以及燈管21之參數,可於箱體10內紫外光線之照度不足時自動調整箱體10內紫外光線之照度,提高氣體之淨化效果。
It can be understood that the
步驟S97:根據時間資訊確定燈管21之累積使用時間是否大於壽命閾值;若累計使用時間大於壽命閾值,則進入步驟S98,若累積使用時間小於或等於壽命閾值,則結束流程。
Step S97: Determine whether the cumulative use time of the
可理解,感測資訊還可以包括時間資訊。處理器單元60可與燈管21電連接,處理器單元60可以於燈管21通電工作時進行計時,並藉由計算燈管21之每次使用時間,確定燈管21之累積使用時間。
It is understandable that the sensing information may also include time information. The
可理解,壽命閾值可與燈管21於生產完成後,藉由對同型號燈管21進行壽命測試後所獲知之燈管21正常可使用之最長壽命。
It can be understood that the lifespan threshold can be determined by the maximum lifespan of the
步驟S98:輸出時間提醒資訊。 Step S98: Output time reminder information.
可理解,提醒資訊還可以包括時間提醒資訊,處理器單元60可輸出時間提醒資訊給警示裝置或使用者終端,本申請之實施例對此不作限定。
It can be understood that the reminder information may also include time reminder information, and the
可理解,當燈管21之累積使用時間大於壽命閾值,燈管21繼續使用可能存於安全隱患,處理器單元60可輸出時間提醒資訊通知使用者對燈管21進行更換。
It can be understood that when the cumulative use time of the
一種實現方式中,處理器單元60可輸出時間提醒資訊給使用者終端,提醒使用者對燈管21進行更換。處理器單元60輸出時間提醒資訊給使用者終端時,時間提醒資訊之形式可以為電子郵件、應用軟體通知資訊、短信等。
In one implementation, the
可理解,處理器單元60輸出給使用者終端之時間提醒資訊內容可以為燈管21之累積使用時間,燈管21之累積使用時間可由處理器單元60獲取;處理器單元60輸出給使用者終端之時間提醒資訊內容還可以為“燈管使用超時”或“淨化裝置使用超時”之文字資訊。
It can be understood that the time reminder information content output by the
另一種實現方式中,警示裝置可響應於時間提醒資訊並發出警報。可理解,警示裝置可響應於照度提醒資訊及時間提醒資訊,分別發出不同警示提醒,例如,警示裝置可以為警示燈組件,警示燈組件設有第一警示燈與第二警示燈,警示裝置接收照度提醒資訊時,第一警示燈工作;警示裝置接收時間提醒資訊時,第二警示燈工作。 In another implementation, the warning device can respond to time reminder information and issue an alarm. It can be understood that the warning device can send out different warning reminders respectively in response to the illumination reminder information and the time reminder information. For example, the warning device can be a warning light assembly. The warning light assembly is provided with a first warning light and a second warning light. The warning device receives When the illumination reminder information is received, the first warning light works; when the warning device receives the time reminder information, the second warning light works.
一種實現方式中,輸出給使用者終端之照度提醒資訊及時間提醒資訊可以為內容不相同而形式相同之資訊,例如,處理器單元60輸出給使用終端之照度提醒資訊及時間提醒資訊之形式為電子郵件,當處理器單元60輸出照
度提醒資訊給使用者終端時,電子郵件內容為“淨化裝置故障”;當處理器單元60輸出時間提醒資訊給使用者終端時,電子郵件內容為“淨化裝置老化”。
In one implementation, the illumination reminder information and time reminder information output to the user terminal can be information with different contents but the same form. For example, the illumination reminder information and time reminder information output by the
另一種實現方式中,輸出給使用者終端之照度提醒資訊及時間提醒資訊可以為形式不同之資訊,例如,處理器單元60輸出給使用終端之照度提醒資訊形式為電子郵件,輸出給使用終端之時間提醒資訊形式為應用軟體通知資訊。
In another implementation manner, the illumination reminder information and the time reminder information output to the user terminal can be information in different forms. For example, the illumination reminder information output by the
一些實施例中,處理器單元60輸出時間提醒資訊後,處理器單元60再於下一時間點確定當前照度與標準照度之差異是否於預設範圍內前,即在下一時間點進行步驟S93前,可以對預設範圍進行調節,以最大值較小之預設範圍判斷處理器單元60是否可通過調節驅動電流而提高照度,降低老化之處理器單元60於進行驅動電流調節時發生安全事故之風險。
In some embodiments, after the
可理解,步驟S91至S98為連續運行之步驟,當步驟S98結束後,處理器單元60再次運行S91至S98,以實現對箱體10內之照度持續之感測以及調整,提高氣體淨化之穩定性。
It can be understood that steps S91 to S98 are steps of continuous operation. After step S98 is completed, the
請參閱圖10,淨化方法還可包括以下步驟,其中,以下步驟之運行主體可以為處理器單元60: Referring to Figure 10, the purification method may also include the following steps, wherein the execution subject of the following steps may be the processor unit 60:
步驟S101:確定箱體10內之標準氣體流速。
Step S101: Determine the standard gas flow rate in the
可理解,標準氣體流速與氣體驅動裝置30於預設之功率下工作時箱體10內之氣體流速對應。由於氣體驅動裝置30之額定功率是可知因此標準照度亦是可知。
It can be understood that the standard gas flow rate corresponds to the gas flow rate in the
一種實現方式中,處理器單元60可以與一資料庫通信連接,處理器單元60可以獲取氣體驅動裝置30之工作電流值,資料庫中記錄有氣體驅動裝置30於多種工作電流下箱體10內之額定氣體流速,處理器單元60獲取氣體驅動裝置30之工作電流值後,可以在資料庫中確定與當前工作電流值對應之額定氣
體流速,並以與當前工作電流值對應之額定氣體流速為標準氣體流速;另一種實現方式中,標準氣體流速可以由使用者通過對氣體驅動裝置30之工作電流值進行感測或人為設定後,再通過計算或者查閱氣體驅動裝置30之說明書資料確定與當前工作電流值對應之額定氣體流速後,由使用者通過使用者終端將額定氣體流速輸出給處理器單元60,處理器單元60確定該額定氣體流速為標準氣體流速,本申請之實施例對此不作限定。
In one implementation, the
步驟S102:根據氣體流速資訊確定當前氣體流速。 Step S102: Determine the current gas flow rate based on the gas flow rate information.
可理解,氣體流速感測件70感測箱體10內之氣體流速,並生成與箱體10內氣體流速對應之氣體流速資訊,處理器單元60獲取氣體流速資訊並分析氣體流速資訊,可確定箱體10內之當前氣體流速。
It can be understood that the gas flow
步驟S103:確定當前氣體流速與標準氣體流速之差異是否於預設範圍內,若差異不於預設範圍內則進入步驟S104;差異於預設範圍內則結束流程,其中,當前氣體流速與氣體流速資訊對應。 Step S103: Determine whether the difference between the current gas flow rate and the standard gas flow rate is within the preset range. If the difference is not within the preset range, proceed to step S104; if the difference is within the preset range, the process ends. Wherein, the current gas flow rate and the gas Flow rate information correspondence.
可理解,當前氣體流速與標準氣體流速之差異若於預設範圍內,則箱體10內之氣體流速處於正常範圍內,完成淨化之氣體可流暢輸出到箱體10外;若當前氣體流速與標準氣體流速之差異超出預設範圍內,可確定進氣孔11或隔網15存於堵塞。
It can be understood that if the difference between the current gas flow rate and the standard gas flow rate is within the preset range, the gas flow rate in the
步驟S104:輸出氣體流速提醒資訊。 Step S104: Output gas flow rate reminder information.
可理解,燈管21之當前氣體流速與標準氣體流速偏離過大時,可輸出氣體流速提醒資訊以提醒使用者對進氣孔11或隔網15進行清潔。
It can be understood that when the current gas flow rate of the
一種實現方式中,處理器單元60可輸出氣體流速提醒資訊給使用者終端,提醒使用者對進氣孔11或隔網15進行清潔。處理器單元60輸出氣體流速提醒資訊給使用者終端時,氣體流速提醒資訊之形式可以為電子郵件、應用軟體通知資訊、短信等。
In one implementation, the
可理解,處理器單元60輸出給使用者終端之氣體流速提醒資訊內容可以為箱體10內之當前氣體流速,箱體10之當前氣體流速可通過處理器單元60對氣體流速資訊分析處理後生成;處理器單元60輸出給使用者終端之氣體流速提醒資訊內容還可以為“氣體流速不足”或“隔網堵塞”等文字資訊。
It can be understood that the content of the gas flow rate reminder information output by the
另一種實現方式中,警示裝置可響應於氣體流速提醒資訊並發出警示提醒。可理解,警示裝置可響應於照度提醒資訊、時間提醒資訊及氣體流速提醒資訊,分別發出不同警示提醒,例如,警示裝置可以為警示燈組件,警示燈組件設有第一警示燈、第二警示燈與第三警示燈,警示裝置接收照度提醒資訊時,第一警示燈工作;警示裝置接收時間提醒資訊時,第二警示燈工作;警示裝置接收氣體流速提醒資訊時,第三警示燈工作。 In another implementation manner, the warning device can respond to the gas flow rate reminder information and issue a warning reminder. It can be understood that the warning device can send out different warning reminders respectively in response to the illumination reminder information, the time reminder information and the gas flow rate reminder information. For example, the warning device can be a warning light assembly, and the warning light assembly is provided with a first warning light and a second warning light. The light and the third warning light, when the warning device receives the illumination reminder information, the first warning light works; when the warning device receives the time reminder information, the second warning light works; when the warning device receives the gas flow rate reminder information, the third warning light works.
可理解,步驟S101至S104為連續運行之步驟,當步驟S104結束後,處理器單元60再次運行S101至S104,以實現對箱體10內之氣體流速之持續感測。
It can be understood that steps S101 to S104 are steps of continuous operation. After step S104 is completed, the
對於本領域技術人員而言,顯然本申請不限於上述示範性實施例之細節,且於不背離本申請之精神或基本特徵之情況下,能夠以其他之具體形式實現本申請。因此,無論從哪一點來看,均應將本申請上述之實施例看作是示範性且是非限制性本申請之範圍由所附請求項而不是上述說明限定,因此旨於將落於請求項之等同要件之含義與範圍內之所有變化涵括於本申請內。 It is obvious to those skilled in the art that the present application is not limited to the details of the above-described exemplary embodiments, and the present application can be implemented in other specific forms without departing from the spirit or basic characteristics of the present application. Therefore, no matter from which point of view, the above-described embodiments of the present application should be regarded as exemplary and non-limiting. The scope of the present application is defined by the appended claims rather than the above description, and therefore it is intended to fall within the claims. All changes within the meaning and scope of the equivalent requirements are included in this application.
100:氣體淨化設備 100:Gas purification equipment
10:箱體 10: Cabinet
11:進氣孔 11: Air intake hole
12:出氣孔 12: Air outlet
14:底壁 14: Bottom wall
20:淨化裝置 20:Purification device
21:燈管 21:Lamp tube
22:玻璃纖維套筒 22:Fiberglass sleeve
30:氣體驅動裝置 30:Gas driven device
40:引導結構 40: Boot structure
41:第一通道 41:First channel
42:第二通道 42:Second channel
43:第三通道 43:Third channel
60:處理器單元 60: Processor unit
70:氣體流速感測件 70: Gas flow rate sensing element
Claims (10)
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Citations (5)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
TW559077U (en) * | 2002-11-22 | 2003-10-21 | Taiwan Fluorescent Lamp Co Ltd | Photo catalytic air cleaner |
US20190001015A1 (en) * | 2016-03-22 | 2019-01-03 | Dr. Schneider Kunststoffwerke Gmbh | Air purification device |
TW202033226A (en) * | 2018-10-30 | 2020-09-16 | 日商牛尾電機股份有限公司 | Gas processing device |
CN214276058U (en) * | 2020-11-25 | 2021-09-24 | 山西中科潞安紫外光电科技有限公司 | Air purification and sterilization system for enclosed space |
CN215412352U (en) * | 2020-12-30 | 2022-01-04 | 宁波嘉尔机电设备有限公司 | High-radiation-dose ultraviolet air purification system |
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- 2022-03-31 TW TW111112704A patent/TWI823320B/en active
Patent Citations (5)
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TW559077U (en) * | 2002-11-22 | 2003-10-21 | Taiwan Fluorescent Lamp Co Ltd | Photo catalytic air cleaner |
US20190001015A1 (en) * | 2016-03-22 | 2019-01-03 | Dr. Schneider Kunststoffwerke Gmbh | Air purification device |
TW202033226A (en) * | 2018-10-30 | 2020-09-16 | 日商牛尾電機股份有限公司 | Gas processing device |
CN214276058U (en) * | 2020-11-25 | 2021-09-24 | 山西中科潞安紫外光电科技有限公司 | Air purification and sterilization system for enclosed space |
CN215412352U (en) * | 2020-12-30 | 2022-01-04 | 宁波嘉尔机电设备有限公司 | High-radiation-dose ultraviolet air purification system |
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