CN218033412U - Air conditioner - Google Patents

Abstract

The utility model discloses an air conditioner, include: the device comprises a shell, a heat exchanger component, an air duct component and a pulse sterilization module. The casing is provided with an air inlet and an air outlet, the heat exchanger component and the air duct component are arranged in the casing, and an air duct cavity extending along the vertical direction is defined between the heat exchanger component and the air duct component. The air duct component is located to the pulse sterilization module, and the pulse sterilization module is suitable for to the intracavity emission pulsed light of wind duct, and the pulse fluorescent tube of pulse sterilization module extends along upper and lower direction. According to the utility model discloses air conditioner, through set up the pulse sterilization module on wind channel part, the pulse sterilization module can be to wind channel intracavity transmission pulse light, and the pulse light shines and can purifies the sterilization to it on heat exchanger part and wind channel part, can promote the quality of the air through heat exchanger part and wind channel part to can promote indoor air quality, improve the travelling comfort. In addition, the pulse lamp tube extends along the vertical direction, so that the range of pulse light irradiation is large, and the sterilization range is large.

Description

Air conditioner

Technical Field

The utility model belongs to the technical field of air conditioning equipment technique and specifically relates to an air conditioner is related to.

Background

In the prior art, the common purification modes of the air conditioner mainly comprise a HEPA (high efficiency particulate air) net, positive and negative ion purification and the like, but the purification modes only can adsorb bacteria in the air and cannot thoroughly kill the bacteria in the air. Therefore, improvements are needed.

SUMMERY OF THE UTILITY MODEL

The utility model discloses aim at solving one of the technical problem that exists among the prior art at least. Therefore, an object of the utility model is to provide an air conditioner, through set up the pulse sterilization module on wind channel part, the pulse light irradiation of pulse sterilization module transmission can purify and disinfect it on heat exchanger part and wind channel part, can promote the quality of the air through heat exchanger part and wind channel part to can promote the indoor air quality, improve the travelling comfort. In addition, the pulse lamp tube extends along the vertical direction, so that the range of pulse light irradiation is large, and the sterilization range is large.

According to the utility model discloses air conditioner, include: a housing having an air inlet and an air outlet; the heat exchanger component and the air duct component are arranged in the shell, and an air duct cavity extending along the vertical direction is defined between the heat exchanger component and the air duct component; the pulse sterilization module is arranged on the air duct component and is suitable for emitting pulse light into the air duct cavity, and the pulse lamp tube of the pulse sterilization module extends along the upper and lower directions.

According to the utility model discloses air conditioner, through set up the pulse sterilization module on wind channel part, the pulse sterilization module can be to wind channel intracavity transmission pulse light, and the pulse light shines and can purifies the sterilization to it on heat exchanger part and wind channel part, can promote the quality of the air through heat exchanger part and wind channel part to can promote indoor air quality, improve the travelling comfort. In addition, the pulse lamp tube extends along the vertical direction, so that the range of pulse light irradiation is large, and the sterilization range is large.

According to some embodiments of the utility model, in the left-right direction, the pulse sterilization module is located the middle part of wind channel part.

According to some embodiments of the invention, the pulse sterilization module is located on a side of the air duct component adjacent to the heat exchanger component.

According to the utility model discloses a some optional embodiments, the wind channel part includes wind channel spiral case and two wind wheels, the wind channel spiral case with inject two wind channel die cavities of arranging along left right direction between the heat exchanger part, the wind channel chamber includes two the wind wheel install in the wind channel spiral case just is located two respectively the wind channel die cavity, the pulse sterilization module is located two between the wind channel die cavity.

The utility model discloses an in some optional embodiments, the wind channel part is located the front side of heat exchanger part, the wind channel spiral case includes spiral case body and wind channel median septum, the wind channel median septum is connected the rear side of wind channel spiral case, the wind channel median septum with the heat exchanger part butt is in order to incite somebody to action the wind channel chamber is separated for two the wind channel die cavity, pulse sterilization module locates the wind channel median septum.

In some optional embodiments of the present invention, the pulse sterilization module is disposed on an upper portion of the partition plate in the air duct.

In some optional embodiments of the present invention, the pulse sterilization module is disposed at the top of the air duct partition board, and the pulse sterilization module and the air duct partition board jointly separate the air duct cavity into two air duct cavities.

In some optional embodiments of the present invention, the outer contour shape of the cross section of the pulse sterilization module is the same as the outer contour shape of the cross section of the partition plate in the air duct.

According to some optional embodiments of the utility model, the pulse sterilization module is including locating the pulse mount pad of wind channel median septum, the pulse fluorescent tube is located the pulse mount pad just is located the rear side of pulse mount pad.

According to some optional embodiments of the utility model, the pulse mount pad with baffle integrated into one piece in the wind channel.

The utility model discloses a some optional embodiments, the pulse mount pad is equipped with two first fixing bases that set up along upper and lower direction interval, the pulse sterilization module still includes two second fixing bases of arranging along upper and lower direction interval, two second fixing base and two spacing holes are injectd respectively to first fixing base, two are worn to locate respectively at the upper and lower both ends of pulse fluorescent tube spacing hole, every the second fixing base with correspond the connection can be dismantled to first fixing base.

According to some optional embodiments of the utility model, the wind channel median septum the pulse mount pad and two first fixing base integrated into one piece.

According to some optional embodiments of the utility model, two first fixing base and two the second fixing base is injectd two respectively and is crossed the line hole.

According to the utility model discloses a some optional embodiments, the upper end of pulse fluorescent tube has first lead-out wire, the lower extreme of pulse fluorescent tube has the second lead-out wire, first lead-out wire upwards draws out, the second lead-out wire is followed pulse mount pad about the ascending one side of side draw to pulse mount pad deviate from one side of pulse fluorescent tube upwards walk the line and draw forth.

The utility model discloses an in some optional embodiments, the upper end of pulse mount pad is equipped with first walking line and detains, first walking line is detained and is located pulse tube's top, first lead-out wire is worn to locate first walking line is detained, deviating from of pulse mount pad one side of pulse tube is equipped with along a plurality of second walking line of upper and lower direction interval setting and detains, the second lead-out wire is worn to locate the second is walked the line and is detained.

The utility model discloses a some optional embodiments, the left side wall or the right side wall of pulse mount pad are formed with the confession the line breach is crossed that the second lead-out wire wore to establish, cross the line breach including direction section, throat section and cross the line main part, the direction section runs through the left side wall or the right side wall of pulse mount pad, the throat section is located the direction section with cross between the line main part, the second lead-out wire is worn to locate cross the line main part, the width of throat section is less than the width of direction section just is less than cross the width of line main part.

According to some embodiments of the utility model, the pulse sterilization module still includes transparent safety cover, the safety cover connect in the rear side of pulse mount pad and with inject between the pulse mount pad and be used for holding the accommodation space of pulse fluorescent tube, the fastener wears to locate in proper order the safety cover the pulse mount pad penetrates the spiral case body is fixed with the installation pulse sterilization module.

Additional aspects and advantages of the invention will be set forth in part in the description which follows and, in part, will be obvious from the description, or may be learned by practice of the invention.

Drawings

The above and/or additional aspects and advantages of the present invention will become apparent and readily appreciated from the following description of the embodiments, taken in conjunction with the accompanying drawings of which:

fig. 1 is a schematic view of an air conditioning indoor unit according to some embodiments of the present invention:

fig. 2 is an exploded view of the indoor unit of the air conditioner shown in fig. 1;

FIG. 3 is an enlarged view at A in FIG. 2;

FIG. 4 is a schematic view of the assembly of the air duct component and the heat exchanger component of FIG. 2;

FIG. 5 is a side view of the air duct member and heat exchanger member of FIG. 4;

FIG. 6 is a cross-sectional view taken along line B-B of FIG. 5;

FIG. 7 is an assembled schematic view of the airway member and pulse sterilization module of FIG. 2;

FIG. 8 is a schematic structural view of the airway member and pulse sterilization module of FIG. 7 with the protective cover removed;

FIG. 9 is an enlarged view at C in FIG. 8;

FIG. 10 is a schematic structural view of the duct member and the impulse sterilization module of FIG. 7, showing the internal structure of the impulse sterilization module;

FIG. 11 is an enlarged view at D of FIG. 10;

FIG. 12 is an exploded view of the airway member and impulse sterilization module of FIG. 7;

FIG. 13 is an exploded view of the baffle and impulse sterilization module of the air chute of FIG. 12, showing the rear side trace of the impulse mounting block;

FIG. 14 is a perspective view of the baffle and pulse mount of the duct of FIG. 13 showing the front side traces of the pulse mount;

FIG. 15 is an enlarged view at E in FIG. 14;

FIG. 16 is a perspective view of the baffle and pulse mount of the tunnel of FIG. 13 with the pulse tube removed;

FIG. 17 is an enlarged view at F of FIG. 16;

FIG. 18 is another angular perspective view of the baffle and pulse mount in the airway of FIG. 16;

FIG. 19 is an enlarged view at G of FIG. 18;

FIG. 20 is a perspective view of the protective cover of FIG. 13;

fig. 21 is an exploded view of the pulse tube of fig. 12.

Reference numerals are as follows:

100. an air-conditioning indoor unit;

10. a housing; 11. a rear housing; 12. an air inlet grille; 13. an air inlet; 14. a top cover; 15. an air outlet frame; 151. a frame body; 152. an upper panel; 153. an air deflector; 16. a lower panel; 17. a base;

20. a pulse sterilization module; 2. a pulse mount; 21. a first fixed seat; 211. a first wire passing groove; 212. a third wire passing groove; 213. buckling; 214. a first mounting notch; 22. a wire passing gap; 221. a guide section; 222. a necking section; 223. a wire passing main body; 201. a first wiring buckle; 202. a second wiring buckle; 203. a positioning column; 204. a second wiring duct; 205. a first fixing hole; 206. a fourth fixing hole; 23. a pulse lamp tube; 231. a first sealing joint; 232. a second sealing joint; 233. a pipe body; 234. a lamp shade; 235. a trigger line; 236. a first outgoing line; 237. a second outlet; 24. a protective cover; 241. a second fixing hole; 242. a fifth fixing hole; 243. positioning holes; 244. a first wiring slot; 245. an accommodating space; 25. a second fixed seat; 251. a clamping hole; 252. a second wire passing groove; 253. a first wire passing hole; 256. a second mounting notch; 257. a limiting hole;

30. an air duct member; 3. an air duct volute; 31. a partition plate in the air duct; 311. mounting holes; 32. a volute body; 321. a first volute body; 322. a second volute body; 323. a first fixed column; 325. a sixth fixing hole; 326. a second fixed column; 33. a wind wheel; 331. a first wind wheel; 332. a second wind wheel; 34. an air duct cavity; 35. an air duct cavity; 351. a first air duct cavity; 352. a second air duct cavity; 36. a first motor; 37. a second motor;

40. a heat exchanger component; 41. a heat exchanger; 42. a heat exchanger bracket.

Detailed Description

Reference will now be made in detail to embodiments of the present invention, examples of which are illustrated in the accompanying drawings, wherein like reference numerals refer to the same or similar elements or elements having the same or similar function throughout. The embodiments described below with reference to the accompanying drawings are exemplary only for explaining the present invention, and should not be construed as limiting the present invention.

An air conditioner according to an embodiment of the present invention is described below with reference to the accompanying drawings.

Referring to fig. 1 and 2, an air conditioner according to an embodiment of the present invention includes: the machine shell 10, the heat exchanger component 40, the air duct component 30 and the pulse sterilizing module 20. The casing 10 has an air inlet 13 and an air outlet, the air inlet 13 and the air outlet are respectively connected to the indoor for the circulation of air, and the heat exchanger component 40 and the air duct component 30 are both disposed in the casing 10.

Referring to fig. 4 to 6, the air duct member 30 and the heat exchanger member 40 define therebetween an air duct chamber 34, and the air duct chamber 34 extends in the up-down direction. The pulse sterilizing module 20 is disposed on the air duct member 30, and the pulse sterilizing module 20 is adapted to emit pulsed light into the air duct cavity 34. Pulse sterilization module 20 can launch the pulse light of higher energy, and the microorganism surface of pulse light irradiation in wind channel chamber 34 can make the material in the microorganism change and the inactivation to can thoroughly kill bacterium and virus in the wind channel chamber 34, thereby can realize purifying and disinfecting the air in the wind channel chamber 34, the bactericidal effect is better, and the efficiency of disinfecting is higher. In addition, some harmful gases (such as VOC gas) in the air can be decomposed under the irradiation of the pulsed light, so that the air can be purified, and the quality of the air blown into the room can be improved.

Air duct cavity 34 extends along upper and lower direction, air duct component 30 and heat exchanger component 40 all extend along upper and lower direction, pulse lamp 23 through pulse sterilization module 20 extends along upper and lower direction, the pulse light that pulse sterilization module 20 emitted can shine simultaneously on heat exchanger component 40 and air duct component 30, can realize disinfecting the purification of heat exchanger component 40 and air duct component 30, also can realize disinfecting the air purification through in air duct cavity 34, can make the bactericidal scope of pulse light great, can guarantee higher bactericidal efficiency.

For example, referring to fig. 1 and 2, the air conditioner may be a split type air conditioner, for example, the air conditioner may be a split floor type air conditioner, and the air conditioner includes an indoor air conditioner 100 and an outdoor air conditioner, wherein the indoor air conditioner 100 includes the above-mentioned casing 10, the heat exchanger component 40, the air duct component 30 and the pulse sterilizing module 20, and the indoor air conditioner 100 may be a cabinet. The casing 10 may include a rear casing 11, a top cover 14, an air-out frame 15, a lower panel 16 and a base 17, the air-out frame 15 is located on the upper side of the lower panel 16, the air-out frame 15 and the lower panel 16 are both located on the front side of the rear casing 11, the top cover 14 covers the top of the air-out frame 15 and the top of the rear casing 11, and the base 17 is located on the bottom of the lower frame and the bottom of the rear casing 11. The air-out frame 15 and the rear shell 11 can be detachably connected, the lower panel 16 and the rear shell 11 can be detachably connected, and the top cover 14 and the air-out frame 15 and the rear shell 11 can also be detachably connected.

For example, referring to fig. 1 and 2, an air inlet 13 may be formed on the rear housing 11, the air inlet 13 is communicated with the indoor, and an air inlet grille 12 is disposed at the air inlet 13. The heat exchanger unit 40 may be located at a front side of the air intake 13, the air duct unit 30 may be located at a front side of the heat exchanger unit 40, and the air-out frame 15 may be located at a front side of the air duct unit 30. The air-out frame 15 includes a frame 151, an upper panel 152 and an air guide plate 153, two air outlets are defined between the left and right sides of the upper panel 152 and the rear case 11, and the two air outlets are located on the left and right sides of the upper panel 152. The air outlet frame 15 further includes an air guide plate 153 at the air outlet, the air guide plate 153 is rotatably connected to the upper panel 152 to open and close the air outlet, and the air outlet is also communicated with the indoor space. When the air conditioner works, air is sucked into the casing 10 from the air inlet 13, and is blown into a room through the air outlet after passing through the heat exchanger part 40 and the air duct part 30 in sequence, so that the temperature of the room is reduced or increased.

According to the utility model discloses air conditioner, through set up pulse sterilization module 20 on air duct component 30, pulse sterilization module 20 can be to the interior transmission pulsed light of wind channel chamber 34, and the pulsed light shines and to purify and disinfect it on heat exchanger component 40 and air duct component 30, can promote the quality of the air through heat exchanger component 40 and air duct component 30 to can promote indoor air quality, improve the travelling comfort. In addition, the pulse lamp 23 extends in the vertical direction, so that the range of pulse light irradiation can be enlarged, and the sterilization range can be enlarged.

Referring to fig. 6-12, according to some embodiments of the present invention, the pulse sterilization module 20 is located in the middle of the air duct component 30 along the left-right direction, and the pulse light emitted from the pulse sterilization module 20 can be uniformly irradiated into the air duct cavity 34, so that the sterilization range is large.

Referring to fig. 2 and 6, according to some embodiments of the present invention, the pulse sterilization module 20 is located at one side of the air duct component 30 adjacent to the heat exchanger component 40, and the pulse light emitted from the pulse sterilization module 20 can irradiate on the heat exchanger component 40, sterilize the heat exchanger component 40, and also sterilize the air purified by the heat exchanger component 40 to improve the air quality.

Referring to fig. 2 and 6, according to some optional embodiments of the present invention, the air duct component 30 includes an air duct volute 3 and two wind wheels 33, two air duct cavities 35 are defined between the air duct volute 3 and the heat exchanger component 40, the two air duct cavities 35 are arranged along the left and right directions, the air duct cavity 34 includes two air duct cavities 35, the two wind wheels 33 are installed in the air duct volute 3, the two wind wheels 33 can be arranged along the left and right directions, and the two wind wheels 33 are respectively located in the two air duct cavities 35. Wherein, pulse sterilization module 20 is located between two wind channel die cavities 35, and the pulse light that pulse sterilization module 20 emitted can evenly shine two wind channel die cavities 35 of controlling in, can realize that pulse sterilization module 20 disinfects two wind channel die cavities 35 simultaneously, also can disinfect to wind channel spiral case 3 and two wind wheels 33, and the scope of disinfecting is great, and the efficiency of disinfecting is higher.

For example, referring to fig. 6, the two wind wheels 33 are a first wind wheel 331 and a second wind wheel 332 respectively, the two wind channel cavities 35 are a first wind channel cavity 351 and a second wind channel cavity 352 respectively, the first wind channel cavity 351 may be located at the left side of the second wind channel cavity 352, the first wind wheel 331 is located in the first wind channel cavity 351, and the second wind wheel 332 is located in the second wind channel cavity 352. The first air duct cavity 351 can be communicated with the air outlet on the left side of the upper panel 152, air in the first air duct cavity 351 can be blown out through the air outlet on the left side of the upper panel 152, the second air duct cavity 352 can be communicated with the air outlet on the right side of the upper panel 152, and air in the second air duct cavity 352 can be blown out through the air outlet on the right side of the upper panel 152.

Referring to fig. 2 and 6-12, in some optional embodiments of the present invention, the air duct component 30 is located at the front side of the heat exchanger component 40, the air duct volute 3 includes a volute body 32 and an air duct partition 31, the air duct partition 31 is connected at the rear side of the air duct volute 3, the air duct partition 31 abuts against the heat exchanger component 40 to separate the air duct cavity 34 into two air duct cavities 35, which can prevent the air flow of the two air duct cavities 35 from mixing, and ensure the uniformity of the left and right air speed. The pulse sterilization module 20 is arranged on the air duct middle partition plate 31, the pulse sterilization module 20 is installed on the air duct middle partition plate 31, the pulse sterilization module 20 is convenient to install and fix, the pulse sterilization module 20 can be located between the two air duct cavities 35, pulse light emitted by the pulse sterilization module 20 can be uniformly irradiated in the two air duct cavities 35, the two air duct cavities 35 are purified and sterilized, and the sterilization efficiency is high. For example, the pulse sterilization module 20 may be disposed on the upper portion of the partition 31 in the air duct; or, the pulse sterilization module 20 may be disposed in the middle of the partition 31 in the air duct along the up-down direction; alternatively, the pulse sterilization module 20 may be disposed at the lower part of the partition 31 in the air duct; alternatively, the pulse sterilization modules 20 may be a plurality of pulse sterilization modules arranged at intervals up and down along the partition plate 31 in the air duct, so that the irradiation range of the pulsed light is further increased, and the sterilization range is wider.

For example, referring to fig. 2, 4 and 6, according to some embodiments of the present invention, the volute body 32 may include a first volute body 321 and a second volute body 322 arranged along the left-right direction, the first volute body 321 is connected to the second volute body 322, the first wind wheel 331 may be installed in the first volute body 321, the second wind wheel 332 may be installed in the second volute body 322, and the first volute body 321 may be located at the left side of the second volute body 322. The air duct partition 31 is located in the middle of the air duct portion 30 in the left-right direction, the air duct partition 31 abuts against the middle of the heat exchanger portion 40 in the left-right direction, a first air duct cavity 351 may be defined among the air duct partition 31, the heat exchanger portion 40, and the first scroll body 321, and a second air duct cavity 352 may be defined among the air duct partition 31, the heat exchanger portion 40, and the second scroll body 322. The air channel member 30 may further include a first motor 36 and a second motor 37, the first motor 36 is disposed on top of the first volute body 321 and connected to the first wind wheel 331 to drive the first wind wheel 331 to rotate, and the second motor 37 is disposed on top of the second volute body 322 and connected to the second wind wheel 332 to drive the second wind wheel 332 to rotate.

Referring to fig. 7-13, according to some optional embodiments of the present invention, the pulse sterilization module 20 may be disposed on the upper portion of the partition 31 in the air duct, the pulse sterilization module 20 may emit pulsed light in all directions, the pulsed light may irradiate on two air duct cavities 35, so as to sterilize the air purified through the two air duct cavities 35, and the pulsed light irradiates on the upper portions of the heat exchanger component 40 and the air duct component 30, so as to sterilize the upper portions of the heat exchanger component 40 and the air duct component 30.

According to the utility model discloses a further embodiment, pulse sterilization module 20 can locate the middle part (not shown in the drawing) of wind channel median septum 31, and pulse sterilization module 20 can be to the all sides transmission pulsed light, and the pulsed light can shine at two wind channel die cavities 35 to can disinfect to the air purification through two wind channel die cavities 35, the pulsed light shines at the middle part of heat exchanger part 40 and wind channel part 30, can disinfect to the middle part purification of heat exchanger part 40 and wind channel part 30.

According to the utility model discloses a still other embodiments, pulse sterilization module 20 can also locate the bottom (not shown in the drawing) of wind channel median septum 31, and pulse sterilization module 20 can be to the all sides transmission pulsed light, and the pulsed light can shine at two wind channel die cavities 35 to can disinfect to the air purification through two wind channel die cavities 35. The bacterium is bred to the water collector of the lower extreme of heat exchanger part 40 and the downside of heat exchanger part 40 more easily, locate the bottom of wind channel median septum 31 through pulse sterilization module 20, pulse sterilization module 20 can be towards the bottom transmission pulsed light of heat exchanger part 40 to purify and disinfect to the water collector of the bottom of heat exchanger part 40 and the downside of heat exchanger part 40, the direct irradiation of pulsed light is at the more position of bacterium, make pulse sterilization module 20's sterilization efficiency higher, the bactericidal effect is better.

Referring to fig. 6 and 7, in some optional embodiments of the utility model, pulse sterilization module 20 can locate the top of wind channel median septum 31, and pulse sterilization module 20 can with heat exchanger part 40 butt, wind channel median septum 31 and heat exchanger part 40 butt, pulse sterilization module 20 and wind channel median septum 31 are two wind channel die cavities 35 with wind channel cavity 34 partition jointly, can prevent effectively that the wind from mixing each other in two wind channel die cavities 35 about, the homogeneity of wind speed about guaranteeing. In addition, the manufacturing material of the partition plate 31 in the air duct can be saved, the occupation of the space in the case 10 by the pulse sterilization module 20 can be reduced, and the space in the case 10 can be saved.

Referring to fig. 6, fig. 11 and fig. 20, in some optional embodiments of the present invention, the outer shape of the cross section of the pulse sterilization module 20 is the same as the outer shape of the cross section of the partition board 31 in the air duct, and when the pulse sterilization module 20 is disposed on the partition board 31 in the air duct, the pulse sterilization module 20 can be adapted to the partition board 31 in the air duct, so that the pulse sterilization module 20 can be used as a part of the partition board 31 in the air duct, the manufacturing material of the partition board 31 in the air duct can be saved, and the occupation of the space in the chassis 10 by the pulse sterilization module 20 can be reduced.

Referring to fig. 2, 12 and 13, according to some optional embodiments of the present invention, the pulse sterilization module 20 includes a pulse mount pad 2, the pulse mount pad 2 is disposed on the partition board 31 in the air duct, the pulse lamp 23 is disposed on the pulse mount pad 2, and the pulse lamp 23 is disposed at the rear side of the pulse mount pad 2, so as to facilitate the installation and fixation of the pulse lamp 23 through the pulse mount pad 2 disposed on the partition board 31 in the air duct. Because pulse lamp 23 installs the rear side at pulse mount pad 2, pulse lamp 23 emission pulsed light can direct irradiation be located its front side's air duct component 30, also can directly cover simultaneously and establish the heat exchanger part 40 that is located its rear side, can purify simultaneously air duct component 30 and heat exchanger part 40 and disinfect, and the bactericidal effect is better.

Referring to fig. 13 and 16, according to some optional embodiments of the present invention, the pulse mounting seat 2 is integrally formed with the partition plate 31 in the air duct, which not only can make the overall structural strength and stability higher, but also the installation of the pulse sterilization module 20 is more stable, and the manufacturing is simple and convenient.

Referring to fig. 9 and 13, in some optional embodiments of the present invention, the pulse mounting base 2 is provided with two first fixing bases 21, the two first fixing bases 21 are arranged at an interval in the vertical direction, the pulse sterilization module 20 further includes two second fixing bases 25, the two second fixing bases 25 are arranged at an interval in the vertical direction, and the two second fixing bases 25 correspond to the two first fixing bases 21. The second fixing seat 25 located above and the first fixing seat 21 located above define a limiting hole 257, and the second fixing seat 25 located below and the first fixing seat 21 located below define another limiting hole 257.

Referring to fig. 9 and 13, the upper end of the pulse lamp 23 is inserted into the limiting hole 257 located above, and the upper end of the pulse lamp 23 is clamped between the first fixing seat 21 and the second fixing seat 25 above; the lower end of the pulse lamp tube 23 penetrates through the limiting hole 257 located below, and the lower end of the pulse lamp tube 23 is clamped between the first fixing seat 21 and the second fixing seat 25 located below, so that the installation stability of the pulse lamp tube 23 is high. Each second fixing seat 25 is detachably connected with the corresponding first fixing seat 21, so that the pulse lamp tube 23 can be conveniently disassembled and assembled, for example, when the pulse lamp tube 23 is damaged, the pulse lamp tube 23 can be disassembled by disassembling the second fixing seat 25 and the first fixing seat 21, and the pulse lamp tube 23 can be repaired or replaced.

For example, referring to fig. 9 and 13, according to some embodiments of the present invention, the first fixing seat 21 is formed with a buckle 213 at each of left and right ends thereof, and the second fixing seat 25 is formed with a buckle hole 251 at each of left and right ends thereof, so that the first fixing seat 21 and the second fixing seat 25 can be connected in a clamping manner by the cooperation of the buckle 213 and the buckle hole 251. A semicircular first mounting notch 214 is formed at the lower end of the first fixed seat 21 positioned above, and a semicircular first mounting notch 214 is also formed at the upper end of the first fixed seat 21 positioned below; correspondingly, a semicircular second mounting notch 256 is formed at the lower end of the second fixing seat 25 located above, and a semicircular second mounting notch 256 is also formed at the lower end of the second fixing seat 25 located below, so that when the first fixing seat 21 and the second fixing seat 25 are clamped, the first mounting notch 214 and the second mounting notch 256 are abutted in the front-rear direction to form a limiting hole 257.

Referring to fig. 16 and 17, according to some optional embodiments of the present invention, the partition plate 31, the pulse mount pad 2 and the two first fixing seats 21 are integrally formed in the air duct, so that the overall structural strength and stability are strong, the installation stability of the pulse lamp tube 23 is strong, and the manufacturing is simple and the forming is convenient.

Referring to fig. 9, 13 and 17, according to some optional embodiments of the present invention, two wire passing holes are defined respectively by two first fixing seats 21 and two second fixing seats 25, so that the wire harness of the pulse lamp tube 23 is led out from the wire passing holes, and the first fixing seats 21 and the second fixing seats 25 are prevented from pressing the wire, so that the wire passing holes have simple structure and are easy to process. For example, the two wire passing holes are a first wire passing hole 253 and a second wire passing hole respectively, a semicircular first wire passing groove 211 is formed at the upper end of the first fixing seat 21 above, a semicircular second wire passing groove 252 is formed at the upper end of the second fixing seat 25 correspondingly clamped with the first wire passing hole, and when the first fixing seat 21 above is clamped with the second fixing seat 25 correspondingly, the first wire passing groove 211 and the second wire passing groove 252 are butted in the front-rear direction to form the first wire passing hole 253. A semicircular third wire passing groove 212 is formed at the lower end of the first fixing seat 21 positioned below, a semicircular fourth wire passing groove is formed at the lower end of the second fixing seat 25 correspondingly clamped with the first fixing seat, and when the first fixing seat 21 positioned below is clamped with the second fixing seat 25 correspondingly, the third wire passing groove 212 and the fourth wire passing groove are butted in the front-rear direction to form a second wire passing hole. The aperture of the wire through hole may be smaller than the limiting hole 257.

Referring to fig. 9, 12 and 13, according to some optional embodiments of the present invention, the upper end of the pulse lamp tube 23 has the first outgoing line 236, the lower end of the pulse lamp tube 23 has the second outgoing line 237, and the first outgoing line 236 is led out upward, so that the first outgoing line 236 is prevented from being twisted, which helps to reduce the length of the first outgoing line 236, and the first outgoing line 236 is led out at the shortest distance, and also prevents the first outgoing line 236 from being aged by the pulsed light irradiation. For example, the first lead-out wire 236 may be led out from the first wire passing hole 253. The second outgoing line 237 is led out from one side of the pulse mounting base 2 in the left-right direction, and the second outgoing line 237 may be led out to one side of the pulse mounting base 2 away from the pulse lamp tube 23 and may be routed upwards. Through routing the second outgoing line 237 around the one side of seting away from the pulse lamp tube 23 to the pulse mount pad 2, the second outgoing line 237 is located one side of the pulse mount pad 2 that deviates from the pulse lamp tube 23 and can not be irradiated by the pulse light, compare in the direct lead wire that makes progress of second outgoing line 237 in the one side of the pulse mount pad 2 that installs the pulse lamp tube 23, can reduce the direct length that is irradiated by the pulse light of second outgoing line 237, can effectively prevent the pulse lamp tube 23 directly to irradiate second outgoing line 237 like this, avoid the aging failure of second outgoing line 237 under the long-term irradiation of pulse light. For example, the second lead-out wire 237 may be led out from the second wire passing hole and then led out from the right side of the pulse mount 2.

Referring to fig. 13-19, in some optional embodiments of the present invention, the upper end of the pulse mounting base 2 is provided with a first wire buckle 201, the first wire buckle 201 is located above the pulse lamp tube 23, the first outgoing line 236 is led out upwards, and the first outgoing line 236 is inserted into the first wire buckle 201. The second outgoing line 237 is led out from one side of the pulse installation base 2 in the left-right direction, and can be led to one side of the pulse installation base 2 away from the pulse lamp tube 23, one side of the pulse installation base 2 away from the pulse lamp tube 23 is provided with a plurality of (for example, two) second wire buckles 202, the plurality of second wire buckles 202 are arranged at intervals in the up-down direction, the second outgoing line 237 penetrates through the second wire buckles 202, and the second outgoing line 237 is led out upwards. The first outgoing line 236 can be wired in a standard manner by arranging the first wiring buckle 201, so that the first outgoing line 236 is prevented from being scattered in a mess; the second outgoing line 237 can be wired in a standard manner by arranging the second wiring buckle 202, so that the second outgoing line 237 is prevented from being scattered in a mess; and the first routing buckle 201 and the second routing buckle 202 are simple in structure and easy to process. Alternatively, the first wire routing buckle 201 may be integrally formed with the pulse mounting base 2, and the second wire routing buckle 202 may also be integrally formed with the pulse mounting base 2.

In the description of the present invention, "a plurality" means two or more.

Referring to fig. 16 to 19, in some optional embodiments of the present invention, the left sidewall of the pulse mounting base 2 is formed with a wire passing notch 22 for the second outgoing wire 237 to pass through, the wire passing notch 22 includes a guiding section 221, a necking section 222 and a wire passing main body 223, the guiding section 221 passes through the left sidewall of the pulse mounting base 2; or, the right sidewall of the pulse mounting base 2 is formed with a wire passing notch 22 for the second outgoing wire 237 to pass through, and the guide section 221 passes through the right sidewall of the pulse mounting base 2. The necking section 222 of the threading notch 22 is located between the guide section 221 and the threading main body 223, the second outgoing line 237 penetrates through the threading main body 223, the width of the necking section 222 is smaller than that of the guide section 221, and the width of the necking section 222 is smaller than that of the threading main body 223, so that the threading main body 223 is easy to enter and difficult to exit, the second outgoing line 237 led into the threading main body 223 can be prevented from coming out of the threading notch 22, and the threading can also be prevented. Through set up the line breach 22 of crossing that supplies second lead-out wire 237 to wear to establish in one side of pulse mount pad 2, can make things convenient for the operation of arranging of walking line when pulse tube 23 installs, second lead-out wire 237 is drawn forth the back in one side that pulse tube 23 was installed to pulse mount pad 2, can wind to one side that pulse mount pad 2 has line breach 22, loop through direction section 221 and throat section 222 and impress line main part 223, wind to one side that deviates from pulse tube 23 of pulse mount pad 2 from crossing line main part 223, avoid pulse light to shine on second lead-out wire 237, prevent that second lead-out wire 237 from ageing inefficacy under the shining of pulse light.

Referring to fig. 13 and 21, optionally, the pulse sterilizing module 20 further includes a pulse lamp tube 23, the pulse lamp tube 23 extends in an up-and-down direction, and the pulse lamp tube 23 may include a first outgoing line 236, a second outgoing line 237, a first sealing joint 231, a second sealing joint 232, a tube body 233, a lamp cover 234, and a trigger wire 235. For example, the upper end of the pulse tube 23 is a first sealing joint 231, the first sealing joint 231 is connected with a first lead wire 236, the lower end of the pulse tube 23 is a second sealing joint 232, and the second sealing joint 232 is connected with a second lead wire 237. The lamp casing 234 may be disposed around the outer circumference of the tube 233, the lamp casing 234 may be a quartz glass tube, and a sealed space may be defined between the lamp casing 234 and the tube 233. The tube 233 is filled with an inert gas (e.g., xenon gas), the trigger wire 235 is wound around the tube 233, and the trigger wire 235 is located in a space defined by the tube 233 and the lamp housing 234.

Referring to fig. 3, 6 and 13, according to some embodiments of the present invention, the pulse sterilization module 20 further includes a transparent protection cover 24, the protection cover 24 is connected to the rear side of the pulse mounting base 2, and an accommodation space 245 for accommodating the pulse lamp 23 is defined between the protection cover 24 and the pulse mounting base 2, so as to protect the pulse lamp 23. The arrangement of the protective cover 24 can prevent the pulse lamp tube 23 from being affected by dust or condensed water, the service life of the pulse lamp tube 23 can be guaranteed, the failure rate of the pulse lamp tube 23 can be effectively reduced, the transparent protective cover 24 cannot influence the penetrating power and the irradiation intensity of the pulse light, and the transparent protective cover 24 can protect the pulse lamp tube 23 and cannot influence the sterilization capacity of the pulse light. For example, a first wiring groove 244 is formed at the upper end of the protective cover 24, and a first outgoing line 236 is inserted into the first wiring buckle 201 and then can be led out from the first wiring groove 211 to prevent the protective cover 24 from pressing a line; a second wiring groove 204 is formed at the upper end of the pulse mounting base 2, and a second outgoing line 237 led out from the wiring gap 22 can be led out from the second wiring groove 252 after penetrating through the second wiring buckle 202, so as to prevent the pulse mounting base 2 from pressing a wire.

For example, the pulse mounting seat 2 may also be made into a transparent pulse mounting seat 2, so that 360 ° pulsed light emitted by the pulse lamp tube 23 can be irradiated between the air duct component 30 and the heat exchanger component 40, 360 ° irradiation without a dead angle is realized, the irradiation range of the pulsed light is larger, the sterilization efficiency is higher, and the sterilization effect is better.

The fasteners can sequentially penetrate through the protective cover 24 and the pulse mounting seat 2 and penetrate through the volute body 32 to install and fix the pulse sterilization module 20, the number of the fasteners can be saved by the installation mode, and meanwhile, the assembly efficiency can be improved. For example, referring to fig. 12 to 19, two first fixing holes 205 and one positioning column 203 are formed at the upper end of the pulse mounting base 2, the two first fixing holes 205 are spaced apart in the left-right direction, the first fixing holes 205 penetrate the pulse mounting base 2 in the front-back direction, and the positioning column 203 may be formed at the upper side of the left first fixing hole 205. Two second fixing holes 241 and a positioning hole 243 are formed at the upper end of the transparent protection cover 24, the second fixing holes 241 correspond to the first fixing holes 205, and the positioning hole 243 corresponds to the positioning column 203. Two first fixed columns 323 are formed at the upper end of the volute body 32, the two fixed columns extend along the front-back direction, a third fixed hole is formed in each of the two fixed columns, when the pulse sterilization module 20 is installed, the positioning column 203 penetrates through the positioning hole 243 to limit the upper end of the protection cover 24, the fastening piece can sequentially penetrate through the second fixed hole 241, the first fixed hole 205 and the third fixed hole, so that the upper end of the protection cover 24 can be fixed on the pulse installation seat 2, and meanwhile, the pulse installation seat 2 can also be fixed on the volute body 32.

For example, referring to fig. 3 and 13 to 19, the lower end of the pulse mount 2 is formed with two fourth fixing holes 206 and one positioning column 203, the two fourth fixing holes 206 are spaced apart in the left-right direction, and the positioning column 203 may be formed on the upper side of the fourth fixing hole 206 on the right side. Two fifth fixing holes 242 and a positioning hole 243 are formed at the lower end of the transparent protection cover 24, the fifth fixing holes 242 correspond to the fourth fixing holes 206, and the positioning hole 243 corresponds to the positioning column 203. When the protection cover 24 is installed, the positioning column 203 penetrates through the positioning hole 243 to limit the upper end of the protection cover 24, and the fastening piece can sequentially penetrate through the fifth fixing hole 242 and the fourth fixing hole 206, so that the lower end of the protection cover 24 can be installed and fixed on the pulse installation seat 2.

For example, referring to fig. 13 to 20, according to some embodiments of the present invention, two mounting holes 311 are formed in the middle of the partition board 31 in the air duct along the vertical direction, the two mounting holes 311 are respectively located at the left and right ends of the partition board 31 in the air duct, two sixth fixing holes 325 are formed in the corresponding positions of the volute body 32, and the fastening member can pass through the mounting holes 311 and the sixth fixing holes 325, so that the middle of the partition board 31 in the air duct can be fixed to the volute body 32. Two mounting holes 311 are also formed at the bottom of the air duct middle partition plate 31, the two mounting holes 311 are respectively located at the left end and the right end of the air duct middle partition plate 31, two second fixing posts 326 are formed at corresponding positions on the volute body 32, a seventh fixing hole is formed on each second fixing post 326, and a fastening member can pass through the mounting holes 311 and the seventh fixing holes, so that the bottom of the air duct middle partition plate 31 can be fixed to the volute body 32.

Through the installation mode, the protection cover 24 can be installed and fixed on the pulse installation seat 2, and the partition plate 31 and the pulse sterilization module 20 in the air duct can also be installed and fixed on the volute body 32, so that the installation structure is stable and the installation mode is simple.

An air conditioner according to an embodiment of the present invention is described below with reference to fig. 1 to 21.

Referring to fig. 1 to 21, in this embodiment, the air conditioner is a split floor type air conditioner, and the air conditioner includes an indoor air conditioner 100 and an outdoor air conditioner, where the indoor air conditioner 100 is a cabinet, and the indoor air conditioner 100 includes: the machine shell 10, the heat exchanger component 40, the air duct component 30 and the pulse sterilizing module 20. The heat exchanger component 40 and the air duct component 30 are both arranged in the machine shell 10, the air duct component 30 is positioned at the front side of the heat exchanger component 40, the pulse sterilizing module 20 is arranged on the air duct component 30, and the pulse sterilizing module 20 is positioned between the air duct component 30 and the heat exchanger component 40.

Casing 10 includes backshell 11, top cap 14, air-out frame 15, panel 16 and base 17 down, and air-out frame 15 is located the upside of panel 16 down, and air-out frame 15 all is located the front side of backshell 11 with lower panel 16, and the top of air-out frame 15 and backshell 11 is located to top cap 14 lid, and base 17 is located the bottom of backshell 11 and lower frame. The air-out frame 15 can be dismantled with the backshell 11 and be connected, and panel 16 can be dismantled with the backshell 11 and be connected down, and top cap 14 can be dismantled with air-out frame 15 and backshell 11 and be connected. An air inlet 13 is formed on the rear shell 11, the air inlet 13 is communicated with the indoor space, and an air inlet grille 12 is arranged at the air inlet 13. The air-out frame 15 includes a frame body 151, an upper panel 152 and an air guide plate 153, two air outlets are defined between the left and right sides of the upper panel 152 and the rear housing 11, and the two air outlets are located on the left and right sides of the upper panel 152. The air outlet frame 15 further includes an air guide plate 153 at the air outlet, the air guide plate 153 is rotatably connected to the upper panel 152 to open and close the air outlet, and the air outlet is also communicated with the indoor space.

The heat exchanger component 40 comprises a heat exchanger 41, a heat exchanger bracket 42 and an electric auxiliary heating element, wherein the heat exchanger 41 is arranged on the heat exchanger bracket 42. The heat exchanger 40 is located at the front side of the air inlet 13, the air duct 30 is located at the front side of the heat exchanger 40, and the air outlet frame 15 is located at the front side of the air duct 30. When the air conditioner works, air is sucked into the machine shell 10 from the air inlet 13, after heat exchange is carried out through the heat exchanger component 40, the air is driven by the air duct component 30 to be blown out through the air outlet and blown into a room, and therefore the temperature of the room is reduced or increased.

An air duct cavity 34 is defined between the air duct component 30 and the heat exchanger component 40, the air duct component 30 comprises an air duct volute 3, two wind wheels 33, a first motor 36 and a second motor 37, the air duct volute 3 comprises a volute body 32 and an air duct middle partition plate 31, the air duct middle partition plate 31 is connected to the rear side of the air duct volute 3, and the air duct middle partition plate 31 is abutted against the heat exchanger component 40 to divide the air duct cavity 34 into two air duct cavities 35. The two air duct cavities 35 are respectively a first air duct cavity 351 and a second air duct cavity 352, the first air duct cavity 351 is located on the left side of the second air duct cavity 352, the two wind wheels 33 are respectively a first wind wheel 331 and a second wind wheel 332, the first wind wheel 331 is located in the first air duct cavity 351, and the second wind wheel 332 is located in the second air duct cavity 352. The first air duct cavity 351 may be communicated with the air outlet on the left side of the upper panel 152, air in the first air duct cavity 351 may be blown out through the air outlet on the left side of the upper panel 152, the second air duct cavity 352 may be communicated with the air outlet on the right side of the upper panel 152, and air in the second air duct cavity 352 may be blown out through the air outlet on the right side of the upper panel 152.

The volute body 32 comprises a first volute body 321 and a second volute body 322 which are arranged along the left-right direction, the first volute body 321 is connected with the second volute body 322, the first wind wheel 331 is installed in the first volute body 321, the second wind wheel 332 is installed in the second volute body 322, and the first volute body 321 is located on the left side of the second volute body 322. The first motor 36 is disposed on top of the first volute body 321, and the second motor 37 is disposed on top of the second volute body 322. Two first fixing columns 323 are formed at the upper end of the volute body 32, the two first fixing columns 323 are arranged at intervals along the left-right direction and extend along the front-back direction, and a third fixing hole is formed in each fixing column; two sixth fixing holes 325 are formed in the middle of the scroll casing body 32 in the up-down direction, and the two sixth fixing holes 325 are arranged at intervals in the left-right direction; two second fixing columns 326 are formed at the bottom of the volute body 32, the two second fixing columns 326 are arranged at intervals in the left-right direction, and a seventh fixing hole is formed in each second fixing column 326.

The air duct middle partition plate 31 is located in the middle of the air duct component 30 in the left-right direction, and the air duct middle partition plate 31 is located on the front side of the heat exchanger component 40 and connected to the rear side of the scroll casing body 32. The air duct partition 31 abuts against the middle of the heat exchanger component 40 in the left-right direction, a first air duct cavity 351 is defined among the air duct partition 31, the heat exchanger component 40 and the first scroll body 321, and a second air duct cavity 352 is defined among the air duct partition 31, the heat exchanger component 40 and the second scroll body 322. Two mounting holes 311 are formed in the middle of the partition plate 31 in the air duct in the vertical direction, the two mounting holes 311 correspond to the two sixth fixing holes 325 one by one, and the fastening members penetrate through the mounting holes 311 and the sixth fixing holes 325, so that the middle of the partition plate 31 in the air duct can be fixed to the volute body 32. Two mounting holes 311 are also formed at the bottom of the partition plate 31 in the air duct, the two mounting holes 311 correspond to the two seventh fixing holes one by one, and the fasteners penetrate through the mounting holes 311 and the seventh fixing holes, so that the bottom of the partition plate 31 in the air duct can be fixed to the volute body 32.

The pulse sterilization module 20 is arranged at the top of the partition board 31 in the air duct, the outer shape of the cross section of the pulse sterilization module 20 is the same as that of the cross section of the partition board 31 in the air duct, the pulse sterilization module 20 and the partition board 31 in the air duct are both abutted against the heat exchanger component 40, and the pulse sterilization module 20 and the partition board 31 in the air duct jointly divide the air duct cavity 34 into two air duct cavities 35. Pulse sterilization module 20 includes pulse mount pad 2, second fixing base 25, pulse lamp 23 and transparent safety cover 24, pulse mount pad 2 locates wind channel median septum 31, pulse mount pad 2 and wind channel median septum 31 integrated into one piece, pulse lamp 23 locates pulse mount pad 2, and pulse lamp 23 is located the rear side of pulse mount pad 2, safety cover 24 is connected in the rear side of pulse mount pad 2, inject the accommodation space 245 that is used for holding pulse lamp 23 between safety cover 24 and the pulse mount pad 2.

Two first fixing seats 21, a wire passing notch 22, a first wire passing buckle 201 and two second wire passing buckles 202 are formed on the pulse mounting seat 2, the two first fixing seats 21 are arranged at intervals along the vertical direction, a buckle 213 is formed at each of the left end and the right end of the first fixing seat 21, and a first mounting notch 214 is formed on each of the two first fixing seats 21; a semicircular first wire passing groove 211 is formed at the upper end of the first fixed seat 21 located above, and a semicircular third wire passing groove 212 is formed at the lower end of the first fixed seat 21 located below. The upper end of the pulse mounting base 2 is provided with a first wiring buckle 201, the first wiring buckle 201 is located above the first fixing base 21, two second wiring buckles 202 are arranged on one side of the pulse mounting base 2, which is far away from the pulse lamp tube 23, and the two second wiring buckles 202 are arranged at intervals along the vertical direction. The wire passing notch 22 is formed in the right side wall of the pulse mounting seat 2, the wire passing notch 22 includes a guide section 221, a necking section 222 and a wire passing main body 223, the guide section 221 penetrates through the left side wall of the pulse mounting seat 2, the necking section 222 is located between the guide section 221 and the wire passing main body 223, and the width of the necking section 222 is smaller than the width of the guide section 221 and smaller than the width of the wire passing main body 223. The first fixing seat 21, the first wiring buckle 201 and the second wiring buckle 202 are integrally formed with the pulse mounting seat 2.

Two positioning columns 203, two first fixing holes 205 and two fourth fixing holes 206 are further formed on the pulse installation base 2, the first fixing holes 205 are located at the upper end of the pulse installation base 2, and the fourth fixing holes 206 are located at the lower end of the pulse installation base 2. Two first fixing holes 205 are arranged at intervals along the left-right direction, the first fixing holes 205 penetrate through the pulse mounting base 2 in the front-back direction, and the positioning column 203 is formed on the upper side of the first fixing hole 205 on the left side; two fourth fixing holes 206 are also provided at intervals in the left-right direction, and another positioning column 203 may be formed on the upper side of the fourth fixing hole 206 on the right side.

Two second fixing bases 25 are arranged at intervals along the up-down direction, a clamping hole 251 is formed at each of the left end and the right end of the second fixing base 25, and the first fixing base 21 and the second fixing base 25 can be connected in a clamping mode through the matching of the clamping buckle 213 and the clamping hole 251. The upper end of the second fixing seat 25 located above is formed with a semicircular second wire passing groove 252, the lower end is formed with a semicircular second mounting notch 256, when the second fixing seat 25 located above is clamped with the corresponding first fixing seat 21, the first wire passing groove 211 and the second wire passing groove 252 are butted in the front-rear direction to form a first wire passing hole 253, and the first mounting notch 214 and the second mounting notch 256 are butted in the front-rear direction to form a limiting hole 257. A semicircular fourth wire passing groove is formed at the lower end of the second fixing seat 25 positioned below, a semicircular second mounting notch 256 is formed at the upper end of the second fixing seat 25, when the second fixing seat 25 positioned below is clamped with the corresponding first fixing seat 21, the third wire passing groove 212 and the fourth wire passing groove are butted in the front-rear direction to form a second wire passing hole, and the first mounting notch 214 and the second mounting notch 256 are butted in the front-rear direction to form a limiting hole 257. The first through hole 253 and the second through hole are smaller in diameter than the limiting hole 257.

Two second fixing holes 241 and one positioning hole 243 are formed in the upper portion of the protection cover 24, the second fixing holes 241 correspond to the first fixing holes 205, the positioning holes 243 correspond to the positioning posts 203 on the upper side of the first fixing holes 205, and the fastening members can sequentially penetrate through the second fixing holes 241, the first fixing holes 205 and the third fixing holes, so that the upper end of the protection cover 24 can be fixed to the pulse mounting base 2, and meanwhile, the pulse mounting base 2 can also be fixed to the volute body 32. Two fifth fixing holes 242 and one positioning hole 243 are formed at the lower portion of the protection cover 24, the fifth fixing holes 242 correspond to the fourth fixing holes 206, the positioning holes 243 correspond to the positioning posts 203 on the upper side of the fourth fixing holes 206, the positioning posts 203 penetrate through the corresponding positioning holes 243, and fastening members penetrate through the fifth fixing holes 242 and the fourth fixing holes 206, so that the lower end of the protection cover 24 can be fixedly mounted on the pulse mounting seat 2.

The pulse lamp 23 extends in the up-down direction, and the pulse lamp 23 may include a first outgoing line 236, a second outgoing line 237, a first sealing joint 231, a second sealing joint 232, a tube body 233, a lamp cover 234, and a trigger wire 235. The housing 234 may be disposed around an outer circumference of the tube 233, the tube 233 may be filled with an inert gas, the trigger wire 235 may be wound around the tube 233, and the trigger wire 235 may be located in a space defined by the tube 233 and the housing 234. The upper end of the pulse lamp tube 23 is provided with a first sealing joint 231, the first sealing joint 231 is connected with a first outgoing line 236, the lower end of the pulse lamp tube 23 is provided with a second sealing joint 232, and the second sealing joint 232 is connected with a second outgoing line 237. A first wiring groove 244 is formed at the upper end of the protective cover 24, and the first outgoing line 236 sequentially passes through the first line passing hole 253 and the first wiring buckle 201 and is led out upwards through the first wiring groove 244. A second wiring groove 204 is formed at the upper end of the pulse mounting base 2, and the second outgoing line 237 is sequentially arranged through the second wire passing hole, the wire passing notch 22 and the two second wiring buckles 202 and then can be upwards led out from the second wiring groove 204.

In the description of the present specification, reference to the description of "one embodiment," "some embodiments," "an illustrative embodiment," "an example," "a specific example," or "some examples" or the like means that a particular feature, structure, material, or characteristic described in connection with the embodiment or example is included in at least one embodiment or example of the present invention. In this specification, the schematic representations of the terms used above do not necessarily refer to the same embodiment or example. Furthermore, the particular features, structures, materials, or characteristics described may be combined in any suitable manner in any one or more embodiments or examples.

While embodiments of the present invention have been shown and described, it will be understood by those of ordinary skill in the art that: various changes, modifications, substitutions and alterations can be made to the embodiments without departing from the principles and spirit of the invention, the scope of which is defined by the claims and their equivalents.

Claims (17)

1. An air conditioner, comprising:

a housing having an air inlet and an air outlet;

the heat exchanger component and the air duct component are arranged in the shell, and an air duct cavity extending along the vertical direction is defined between the heat exchanger component and the air duct component;

the pulse sterilization module is arranged on the air duct component and is suitable for emitting pulse light into the air duct cavity, and the pulse lamp tube of the pulse sterilization module extends along the upper and lower directions.

2. The air conditioner as claimed in claim 1, wherein the impulse sterilization module is located at a middle portion of the air duct part in a left-right direction.

3. The air conditioner of claim 1, wherein the pulse sterilizing module is located on a side of the air duct member adjacent the heat exchanger member.

4. The air conditioner according to claim 3, wherein the air duct component comprises an air duct volute and two wind wheels, two air duct cavities arranged in the left-right direction are defined between the air duct volute and the heat exchanger component, the air duct cavity comprises two air duct cavities, the two wind wheels are mounted on the air duct volute and are respectively located in the two air duct cavities, and the pulse sterilization module is located between the two air duct cavities.

5. The air conditioner as claimed in claim 4, wherein the air duct component is located at the front side of the heat exchanger component, the air duct volute comprises a volute body and an air duct middle partition plate, the air duct middle partition plate is connected to the rear side of the air duct volute, the air duct middle partition plate is abutted to the heat exchanger component to divide the air duct cavity into two air duct cavities, and the pulse sterilization module is arranged on the air duct middle partition plate.

6. The air conditioner as claimed in claim 5, wherein the pulse sterilizing module is provided at an upper portion of a partition plate in the air duct.

7. The air conditioner according to claim 6, wherein the pulse sterilization module is disposed on the top of the air duct partition board, and the pulse sterilization module and the air duct partition board jointly divide the air duct cavity into two air duct cavities.

8. The air conditioner as claimed in claim 7, wherein the pulse sterilizing module has the same outer contour shape of the cross section as that of the partition plate in the air duct.

9. The air conditioner as claimed in claim 5, wherein the pulse sterilizing module comprises a pulse mounting seat disposed on the partition plate of the air duct, and the pulse lamp is disposed on the pulse mounting seat and located at the rear side of the pulse mounting seat.

10. The air conditioner of claim 9, wherein the pulse mount is integrally formed with the duct median septum.

11. The air conditioner according to claim 9, wherein the pulse mounting seat is provided with two first fixing seats arranged at intervals in an up-down direction, the pulse sterilizing module further comprises two second fixing seats arranged at intervals in the up-down direction, the two second fixing seats and the two first fixing seats respectively define two limiting holes, the upper end and the lower end of the pulse lamp tube are respectively penetrated through the two limiting holes, and each second fixing seat is detachably connected with the corresponding first fixing seat.

12. The air conditioner as claimed in claim 11, wherein the air duct partition, the pulse mount and the two first fixing seats are integrally formed.

13. The air conditioner as claimed in claim 11, wherein the two first fixing seats and the two second fixing seats respectively define two wire passing holes.

14. The air conditioner as claimed in claim 9, wherein the pulse lamp tube has a first outgoing line at an upper end thereof, and a second outgoing line at a lower end thereof, the first outgoing line being led upward, the second outgoing line being led from one side of the pulse mounting base in the left-right direction to a side of the pulse mounting base facing away from the pulse lamp tube and being routed upward.

15. The air conditioner according to claim 14, wherein a first wire button is disposed at an upper end of the pulse mounting base, the first wire button is located above the pulse lamp tube, the first outgoing line penetrates through the first wire button, a plurality of second wire buttons are disposed at intervals along an up-down direction on a side of the pulse mounting base away from the pulse lamp tube, and the second outgoing line penetrates through the second wire buttons.

16. The air conditioner of claim 14, wherein the left side wall or the right side wall of the pulse mounting seat is formed with a wire passing notch for the second outgoing wire to pass through, the wire passing notch comprises a guide section, a necking section and a wire passing main body, the guide section passes through the left side wall or the right side wall of the pulse mounting seat, the necking section is located between the guide section and the wire passing main body, the second outgoing wire passes through the wire passing main body, and the width of the necking section is smaller than the width of the guide section and smaller than the width of the wire passing main body.

17. The air conditioner as claimed in any one of claims 9 to 16, wherein the pulse sterilizing module further comprises a transparent protective cover connected to the rear side of the pulse mounting seat and defining a receiving space for receiving the pulse lamp tube with the pulse mounting seat, and a fastening member is sequentially inserted through the protective cover, the pulse mounting seat and the volute body to fixedly mount the pulse sterilizing module.

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