CN218915276U - Pulse lamp body, pulse sterilization module and air conditioner - Google Patents

Abstract

The utility model discloses a pulse lamp body, a pulse sterilization module and an air conditioner, wherein the pulse lamp body comprises: the lamp comprises a lamp tube, a luminous body and a sealing joint, wherein one end of the lamp tube is opened, and the other end of the lamp tube is closed; the luminous body is arranged in the lamp tube and is connected with an input wire harness; the sealing joint is arranged at the open end of the lamp tube, and the input wire harness is led out through the sealing joint. According to the pulse lamp body provided by the embodiment of the utility model, one end of the lamp tube is opened and the other end of the lamp tube is closed, the sealing joint is arranged at the open end of the lamp tube, so that the assembly efficiency of the pulse lamp body is higher, the sealing joint can seal the open end of the lamp tube, thereby sealing the space in the lamp tube, preventing condensed water in the lamp tube from influencing the light transmission effect of the lamp tube, enhancing the sealing performance and the moisture-proof performance of the lamp tube, slowing down the oxidation of an input wire harness, and ensuring the service lives of a luminous body and the input wire harness, thereby ensuring the service life of the pulse lamp body and ensuring the safety of the pulse lamp body.

Description

Pulse lamp body, pulse sterilization module and air conditioner

Technical Field

The utility model relates to the technical field of sterilization, in particular to a pulse lamp body, a pulse sterilization module and an air conditioner.

Background

In the related art, the pulse lamp body is generally composed of a lamp tube, a luminous body, a wire harness and end covers at two ends of the lamp tube, wherein the two ends of the lamp tube are usually opened for leading out the wire harness, and the end covers are covered at the two open ends of the lamp tube, so that the assembly efficiency of the pulse lamp body is lower. Moreover, after the lamp tube with two open ends is used for a long time, the tightness of the lamp tube is difficult to ensure, condensed water is easy to generate in the lamp tube under the cold and hot alternate environment, so that the light transmission effect of the lamp tube is poor, the luminous body is easy to be damped, the service life of the pulse lamp body is influenced, and the use safety of the pulse lamp body cannot be ensured.

Disclosure of Invention

The present utility model aims to solve at least one of the technical problems existing in the prior art. Therefore, an object of the present utility model is to provide a pulse lamp body, wherein one end of the lamp tube is opened and the other end of the lamp tube is closed, and a sealing joint is arranged at the open end of the lamp tube, so that the assembly efficiency of the pulse lamp body is high, and the sealing joint can seal the open end of the lamp tube, thereby sealing the space in the lamp tube, on one hand, preventing condensed water in the lamp tube from influencing the light transmission effect of the lamp tube, on the other hand, enhancing the sealing performance and the moisture-proof performance of the lamp tube, slowing down the oxidation of an input wire harness, and ensuring the service lives of a luminous body and the input wire harness, thereby ensuring the service life of the pulse lamp body and also ensuring the safety of the pulse lamp body.

The utility model also provides a pulse sterilization module with the pulse lamp body.

The utility model also provides an air conditioner with the pulse sterilization module.

According to an embodiment of the first aspect of the present utility model, a pulse lamp body includes: a lamp tube, one end of which is opened and the other end of which is closed; the luminous body is arranged in the lamp tube and is connected with an input wire harness; the sealing joint is arranged at the open end of the lamp tube, and the input wire harness is led out through the sealing joint.

According to the pulse lamp body provided by the embodiment of the utility model, one end of the lamp tube is opened, the other end of the lamp tube is closed, and the sealing joint is arranged at the open end of the lamp tube, so that the assembly efficiency of the pulse lamp body is higher, and the sealing joint can seal the open end of the lamp tube, so that the space in the lamp tube is sealed, on one hand, the influence of condensed water generated in the lamp tube on the light transmission effect of the lamp tube can be prevented, on the other hand, the sealing performance and the moisture-proof performance of the lamp tube can be enhanced, the oxidation of an input wire harness can be slowed down, the service lives of the luminous body and the input wire harness can be ensured, and the service life of the pulse lamp body and the safety of the pulse lamp body can be ensured.

According to some embodiments of the utility model, the input wire harness comprises a positive input wire harness, a negative input wire harness and a signal input wire harness, the positive input wire harness and the negative input wire harness are respectively connected to two opposite sides of the luminous body, a connection point of the negative input wire harness and the luminous body is located at one side of the luminous body adjacent to the closed end of the lamp tube, a wiring space is defined between the lamp tube and the luminous body, and the negative input wire harness is wired into the sealing joint along the wiring space.

According to some alternative embodiments of the utility model, the portion of the negative input wire harness located in the routing space is a first wire harness section, and at least a portion of the first wire harness section opposite to the luminous body in the radial direction of the lamp tube is sleeved with an insulating sleeve.

In some alternative embodiments of the present utility model, the portion of the negative input wire harness located in the sealing joint is a second wire harness section, and the insulating sleeve extends into the sealing joint and is sleeved on the outer peripheral side of the second wire harness section.

According to some embodiments of the utility model, the sealing joint comprises a sealing cork comprising a blocking portion received in the lamp tube and blocking an open end of the lamp tube, the sealing cork further having a first routing channel, at least a portion of the first routing channel being located at the blocking portion, a portion of the input harness being routed along the first routing channel.

According to some alternative embodiments of the utility model, the sealing cork has an annular sealing engagement groove into which the open end of the lamp tube is inserted, and a portion of the sealing cork located on an inner peripheral side of the sealing engagement groove constitutes the blocking portion.

In some alternative embodiments of the utility model, the sealing cork is mated with the tube in a length range of 12-20mm.

In some alternative embodiments of the present utility model, the first routing channel includes a first sub-routing channel, a second sub-routing channel, and a third sub-routing channel that are spaced apart from each other, the input harness includes a positive input harness, a negative input harness, and a signal input harness, the positive input harness is routed along the first sub-routing channel, the negative input harness is routed along the second sub-routing channel, and the signal input harness is routed along the third sub-routing channel.

In some optional embodiments of the present utility model, the sealing joint further includes a sealing glue body, an axial end surface of the sealing cork, which is far away from the light emitting body, is formed with a wire outlet groove, the input wire harness is led out through the wire outlet groove, the sealing glue body is filled in the wire outlet groove to seal at least a gap between the input wire harness and an inner wall of the wire outlet groove, and a glue injection port is defined between the input wire harness and an inner peripheral wall of the wire outlet groove, and is used for glue injection to form the sealing glue body.

According to some embodiments of the utility model, the pulsed lamp body further comprises: the protective rubber sleeve is sleeved at the closed end of the lamp tube.

According to an embodiment of the second aspect of the present utility model, a pulse sterilization module includes: a lamp shade; according to the pulse lamp body disclosed in the embodiment of the first aspect of the utility model, the pulse lamp body is arranged in the lampshade; the pulse lamp body is fixedly arranged in the lampshade through the lamp holder.

According to the pulse sterilization module provided by the embodiment of the utility model, the pulse lamp body is arranged in the pulse sterilization module, one end of the lamp tube is opened, the other end of the lamp tube is closed, and the sealing joint is arranged at the open end of the lamp tube, so that the assembly efficiency of the pulse lamp body is higher, and the sealing joint can seal the open end of the lamp tube, so that the space in the lamp tube is sealed, on one hand, the effect that condensed water is generated in the lamp tube to influence the light transmission effect of the lamp tube can be prevented, on the other hand, the sealing performance and the moisture resistance of the lamp tube can be enhanced, the oxidation of an input wire harness can be slowed down, the service lives of the luminous body and the input wire harness can be ensured, the service lives of the pulse lamp body can be ensured, and the safety of the pulse lamp body can also be ensured.

According to some embodiments of the utility model, a wire button is arranged at one end of the lamp holder adjacent to the sealing joint, and a part of the input wire harness outside the pulse lamp body is wired through the wire button.

According to some embodiments of the utility model, the lamp holder is provided with a lamp body groove and positioning buckles, the positioning buckles are positioned on two opposite sides of the lamp body groove in the length direction, and two ends of the lamp tube are respectively positioned through the positioning buckles.

An air conditioner according to an embodiment of a third aspect of the present utility model includes: the shell is provided with an air inlet and an air outlet; the heat exchanger component and the air duct component are arranged in the shell; according to an embodiment of the second aspect of the present utility model, the pulse sterilization module is disposed in the housing and adapted to emit pulse light into the housing.

According to the air conditioner provided by the embodiment of the utility model, the pulse sterilization module is arranged in the air conditioner, one end of the lamp tube is open, the other end of the lamp tube is closed, the sealing joint is arranged at the open end of the lamp tube, so that the assembly efficiency of the pulse lamp body is higher, the sealing joint can seal the open end of the lamp tube, and accordingly, the space in the lamp tube is sealed, on one hand, condensed water in the lamp tube can be prevented from influencing the light transmission effect of the lamp tube, on the other hand, the sealing performance and the moisture resistance of the lamp tube can be enhanced, the oxidation of an input wire harness can be slowed down, the service lives of the luminous body and the input wire harness can be ensured, the service life of the pulse lamp body can be ensured, and the safety of the pulse lamp body can also be ensured.

According to some embodiments of the utility model, an air duct cavity is defined between the heat exchanger component and the air duct component, the air duct component comprises a fan, an air duct volute and an air duct partition board, the air duct partition board is connected to one side of the air duct volute adjacent to the heat exchanger component and is abutted to the heat exchanger component so as to divide the air duct cavity into two air duct cavities, a wind wheel of the fan is arranged in the air duct cavities, and the pulse sterilization module is arranged at the upper part of the air duct partition board.

According to some optional embodiments of the utility model, the air conditioner further comprises a pulse electric control box, the pulse electric control box is electrically connected with the pulse sterilization module, a motor cover is arranged on the outer wall of the air duct volute, a motor of the fan is arranged in the motor cover and connected with the wind wheel, and the pulse electric control box is fixedly arranged on the motor cover.

Additional aspects and advantages of the utility model 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 utility model.

Drawings

The foregoing and/or additional aspects and advantages of the utility model will become apparent and may be better understood from the following description of embodiments taken in conjunction with the accompanying drawings in which:

Fig. 1 is a perspective view of an air conditioning indoor unit according to some embodiments of the present utility model;

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

FIG. 3 is a partial block diagram of the air conditioner indoor unit of FIG. 1, with a portion of the casing removed and showing the internal structure;

fig. 4 is an enlarged view at a in fig. 3;

fig. 5 is a cross-sectional view of an upper portion of the air conditioner indoor unit of fig. 1;

FIG. 6 is an enlarged view at B in FIG. 5;

fig. 7 is a schematic diagram of the assembly of a pulse sterilization module and a pulse control box according to some embodiments of the present utility model;

FIG. 8 is a schematic view of the routing of the first connection harness of FIG. 7;

FIG. 9 is a schematic diagram of the routing of the second connection harness of FIG. 7;

FIG. 10 is a schematic view of a portion of the structure of the airway member of FIG. 8;

fig. 11 is a schematic diagram of the pulse sterilization module and the pulse electric control box in fig. 8;

FIG. 12 is a cross-sectional view taken along line C-C of FIG. 11;

FIG. 13 is a cross-sectional view taken along line E-E of FIG. 11;

FIG. 14 is a cross-sectional view taken along line F-F of FIG. 11;

fig. 15 is a schematic view of the pulse control box and pulse sterilization module of fig. 11 at another angle;

FIG. 16 is a schematic diagram of the pulse control box of FIG. 15;

fig. 17 is a schematic view of the structure of the lamp housing of fig. 15;

FIG. 18 is a schematic diagram of the mating of a pulse lamp body and a lamp holder according to some embodiments of the utility model;

FIG. 19 is an exploded view of the pulse lamp body and lamp holder of FIG. 18;

FIG. 20 is a cross-sectional view of the pulse lamp body and lamp holder of FIG. 18;

fig. 21 is a schematic view of a structure of the lamp stand of fig. 19;

FIG. 22 is a cross-sectional view of the protective sleeve, lamp tube, sealing cork and sealing gel of FIG. 19;

fig. 23 is a schematic view of the sealing cork of fig. 19 at another angle.

Reference numerals:

100. an air conditioner indoor unit;

10. a housing; 11. a rear case; 12. an air inlet grille; 13. an air inlet; 14. a top cover; 15. an air outlet frame; 151. a frame; 152. a louver; 153. an air deflector; 16. a lower panel; 17. a base; 18. an upper panel; 19. an air outlet;

20. a pulse sterilization module; 21. a lamp shade; 212. a support part; 2121. a first wiring groove; 2122. a second positioning hole; 213. a light outlet; 214. a first buckle; 215. positioning columns; 216. a third fixing hole; 217. fixing the column; 2171. a first fixing hole; 218. a third wiring buckle; 219. the first limiting protrusion; 22. an input harness; 221. a positive electrode input wire harness; 222. a negative electrode input wire harness; 2221. a first strand segment; 2222. a second wire harness segment; 223. a signal input harness; 224. an insulating sleeve; 225. an input line protective sleeve; 23. a lamp holder; 230. a wiring buckle; 231. a first positioning hole; 232. a second fixing hole; 233. a lamp body groove; 234. positioning buckle; 235. positioning a clamping plate;

24. A pulse lamp body; 24a, a lamp tube; 24b, a light emitter; 241. an open end; 242. a closed end; 243. a positive electrode; 244. a negative electrode; 245. a wiring space; 25. sealing the joint; 26. sealing the soft plug; 260. a first routing channel; 261. a first sub-routing channel; 262. a second sub-routing channel; 263. a third sub-routing channel; 264. a blocking part; 265. sealing the matching groove; 266. a wire outlet slot; 267. a glue injection port; 26a, a first lead hole; 26b, a second lead hole; 26c, a third lead hole; 27. sealing colloid; 270. a second wiring channel; 271. a fourth sub-routing channel; 272. a fifth sub-routing channel; 273. a sixth sub-routing channel; 28. protecting the rubber sleeve;

30. a pulse electric control box; 31. a first connection harness; 32. a second connection harness; 33. a wire outlet hole; 34. mounting lugs; 341. a first mounting hole;

40. an air duct member; 4. an air duct volute; 41. a second wiring buckle; 43. a blower; 430. a wind wheel; 431. a first wind wheel; 432. a second wind wheel; 44. a motor; 441. a first motor; 442. a second motor; 45. a motor cover; 46. a front cover body; 47. a rear cover body; 471. a first mounting post; 4711. a second mounting hole; 472. a limit button; 473. the first limit rib plate; 474. the second limit rib plate; 475. a second wiring groove; 48. an air duct partition; 480. a mounting notch; 481. a mounting wall; 482. a third wiring groove; 483. a first positioning protrusion; 484. a first clamping groove; 485. a first limit groove; 486. a fourth fixing hole;

50. A heat exchanger component; 51. a heat exchanger; 52. a heat exchanger support; 53. an electric auxiliary heating element;

60. an air duct cavity; 6. an air duct cavity; 61. a first air duct cavity; 62. a second air duct cavity;

71. a first fastener; 72. a second fastener; 73. and a third fastener.

Detailed Description

Embodiments of the present utility model are described in detail below, examples of which are illustrated in the accompanying drawings, wherein like or similar reference numerals refer to like or similar elements or elements having like or similar functions throughout. The embodiments described below by referring to the drawings are illustrative only and are not to be construed as limiting the utility model.

A pulse lamp body 24 according to an embodiment of the present utility model is described below with reference to the drawings.

Referring to fig. 19 and 20, a pulse lamp body 24 according to an embodiment of the first aspect of the present utility model includes: the lamp 24a, the illuminant 24b and the sealing joint 25, one end of the lamp 24a is open and the other end is closed, the illuminant 24b is arranged in the lamp 24a and is connected with the input wire harness 22, for example, the illuminant 24b can extend into the lamp 24a from the open end 241 of the lamp 24a, and two opposite sides of the illuminant 24b are respectively connected with the input wire harness 22. The luminous body 24b is arranged in the luminous tube 24a, the luminous tube 24a can be used for protecting the luminous body 24b, preventing the luminous body 24b from being influenced by external condensed water or dust and the like, guaranteeing the service life of the luminous body 24b, insulating the luminous body 24b from objects (such as wire harnesses) outside the luminous tube 24a, and preventing the problems of heating, oxidization and the like caused by direct contact between the objects outside the luminous tube 24a and the luminous body 24b, so as to avoid potential safety hazards.

Referring to fig. 18-20, the sealing joint 25 is disposed at the open end 241 of the lamp tube 24a, and the input harness 22 is routed out through the sealing joint 25, with the input harness 22 being more convenient. Because one end of the lamp tube 24a is open, air can enter the lamp tube 24a from the open end 241 of the lamp tube 24a, condensed water is easy to generate in the cold-hot alternating environment in the lamp tube 24a, the light transmission effect of the lamp tube 24a is affected, the input wire harness 22 is easy to oxidize, and the service life of the luminous body 24b is affected. The sealing joint 25 is arranged at the open end 241 of the lamp tube 24a to prevent the luminous body 24b from falling out of the open end 241 of the lamp tube 24a, and the sealing joint 25 can seal the open end 241 of the lamp tube 24a to prevent the lamp tube 24a and the luminous body 24b in the lamp tube 24a from being influenced by condensed water.

In the related art, two ends of the lamp tube are opened, and when the pulse lamp body is assembled, the end covers are required to be covered at the two open ends of the lamp tube. In the present application, when the pulse lamp body 24 is assembled, only the sealing joint 25 is required to be disposed at the open end 241 of the lamp tube 24a, and compared with the related art, the assembling process is reduced, so that the assembling efficiency of the pulse lamp body 24 is higher. Moreover, one end of the lamp tube 24a is opened and the other end is closed, and compared with the lamp tube 24a with both ends opened, the sealing property of the lamp tube 24a is better, and the insulation performance and the moisture-proof performance of the lamp tube 24a can be further enhanced by sealing the open end 241 of the lamp tube 24a through the sealing joint 25.

The light-emitting body 24b of the pulse lamp body 24 can emit pulse light, and the pulse light irradiates the surface of microorganisms (such as bacteria and viruses) to change substances in the microorganisms so as to inactivate the microorganisms, thereby killing various microorganisms, purifying and sterilizing the part irradiated by the pulse light, and having better sterilizing effect and higher sterilizing efficiency. In addition, the pulsed light irradiates the air, and 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. For example, the pulse lamp body 24 may be used in an air outlet channel of an air conditioner, and may be used for purifying and sterilizing the air outlet channel, or purifying and sterilizing air in the air outlet channel, so that the quality of air blown into a room may be improved.

According to the pulse lamp body 24 of the embodiment of the utility model, one end of the lamp tube 24a is opened and the other end is closed, the sealing joint 25 is arranged at the open end 241 of the lamp tube 24a, so that the assembly efficiency of the pulse lamp body 24 is higher, and the sealing joint 25 can seal the open end 241 of the lamp tube 24a, so that the space in the lamp tube 24a is sealed, on one hand, the effect that condensed water in the lamp tube 24a affects the light transmission effect of the lamp tube 24a can be prevented, on the other hand, the sealing performance and the moisture-proof performance of the lamp tube 24a can be enhanced, the oxidation of the input wire harness 22 can be slowed down, the service lives of the luminous body 24b and the input wire harness 22 can be ensured, and the service life of the pulse lamp body 24 can be ensured, and the safety of the pulse lamp body 24 can also be ensured.

Referring to fig. 12-14 and 20, according to some embodiments of the present utility model, the input harness 22 includes a positive input harness 221, a negative input harness 222, and a signal input harness 223, the positive input harness 221 and the negative input harness 222 being connected to opposite sides of the light emitter 24b, respectively, for example, the positive input harness 221 may be connected to one side of the light emitter 24b in the length direction of the light emitter 24b, and the negative input harness 222 may be connected to the other side of the light emitter 24b in the length direction of the light emitter 24 b. The connection point of the negative input wire harness 222 and the illuminant 24b is located at one side of the illuminant 24b adjacent to the closed end 242 of the lamp tube 24a, a wiring space 245 is defined between the lamp tube 24a and the illuminant 24b, and the negative input wire harness 222 is wired into the sealing joint 25 along the wiring space 245, so that the wiring of the negative input wire harness 222 is standardized. For example, the signal input wire harness 223 may be wound around the outer peripheral side of the light emitting body 24b, the signal input wire harness 223 is located in the wiring space 245, and the signal input wire harness 223 may be routed into the sealing joint 25 along the wiring space 245; the connection point of the positive input wire harness 221 and the light emitter 24b is located at one end of the light emitter 24b adjacent to the sealing joint 25, and the positive input wire harness 221 is routed through the sealing joint 25.

For example, referring to fig. 20, the light emitter 24b is filled with an inert gas, the positive input wire harness 221 is connected to the positive electrode 243 at one end of the light emitter 24b, the negative input wire harness 222 is connected to the negative electrode 244 at the other end of the light emitter 24b, and when the pulse light body 24 is operated, the signal input wire provided on the outer peripheral side of the light emitter 24b outputs a signal to control the positive electrode 243 and the negative electrode 244 to ionize the inert gas inside the light emitter 24b, thereby emitting a pulse light.

Referring to fig. 19 and 20, according to some alternative embodiments of the utility model, a portion of the negative input wire harness 222 located in the routing space 245 is a first wire harness section 2221, at least a portion of the first wire harness section 2221 opposite to the luminous body 24b in the radial direction of the lamp tube 24a is sleeved with an insulating sleeve 224, for example, a portion of the first wire harness section 2221 opposite to the luminous body 24b in the radial direction of the lamp tube 24a is sleeved with the insulating sleeve 224, or all portions of the first wire harness section 2221 are sleeved with the insulating sleeve 224. The insulating sleeve 224 can separate the negative input wire harness 222 from the light emitter 24b, so as to prevent the problem of heat generation and oxidation of the negative input wire harness 222 caused by direct contact between the light emitter 24b and the negative input wire harness 222, and ensure the service life of the negative input wire harness 222. The insulating sleeve 224 can also separate the negative electrode input wire harness 222 and the signal input wire harness 223, so that the negative electrode input wire harness 222 and the signal input wire harness 223 are insulated, the negative electrode input wire harness 222 and the signal input wire harness 223 are prevented from being contacted together to form a short circuit, potential safety hazards are avoided, and the safety of the pulse lamp body 24 can be ensured.

Referring to fig. 20, in some alternative embodiments of the present utility model, the portion of the negative input wire harness 222 located in the sealing joint 25 is the second wire harness segment 2222, the insulating sleeve 224 extends into the sealing joint 25, so that the overall connection strength can be ensured, the sealing joint 25 can limit the movement of the insulating sleeve 224, and the second wire harness segment 2222 can be prevented from being in contact with the signal input wire harness 223 and the positive input wire harness 221 to cause short circuit, so that potential safety hazards are avoided.

Referring to fig. 18-20, according to some embodiments of the present utility model, the sealing joint 25 includes a sealing cork 26, the sealing cork 26 includes a blocking portion 264, the blocking portion 264 is accommodated in the lamp tube 24a and blocks the open end 241 of the lamp tube 24a, the blocking portion 264 helps to seal the space in the lamp tube 24a, prevent the condensed water generated in the lamp tube 24a from affecting the light transmission effect of the lamp tube 24a and affecting the service life of the light emitting body 24b, reduce the oxidation of the input wire harness 22, and ensure the light transmission effect of the lamp tube 24a and the service lives of the light emitting body 24b and the input wire harness 22. Referring to fig. 22, the sealing cork 26 further has a first routing channel 260, at least part of the first routing channel 260 is located at a blocking portion 264, and a portion of the input wire harness 22 is routed along the first routing channel 260, so that the input wire harness 22 is routed according to the specification, the blocking portion 264 can separate the input wire harness 22 from the lamp tube 24a, and the input wire harness 22 can be prevented from contacting the lamp tube 24a, so that the lamp tube 24a is prevented from affecting the conductivity of the input wire harness 22.

Referring to fig. 22, according to some alternative embodiments of the present utility model, the sealing cork 26 has a sealing engagement groove 265, the sealing engagement groove 265 is ring-shaped, and the open end 241 of the lamp tube 24a is inserted into the sealing engagement groove 265, so that the tight engagement between the lamp tube 24a and the sealing cork 26 helps to enhance the sealing and moisture-proof properties of the space inside the lamp tube 24a, and the portion of the sealing cork 26 located at the inner circumferential side of the sealing engagement groove 265 constitutes a blocking portion 264, and the blocking portion 264 blocks the open end 241 of the lamp tube 24 a.

Referring to fig. 20, in some alternative embodiments of the present utility model, the mating length L of the sealing cork 26 and the lamp tube 24a is in the range of 12-20mm, so that the mating area of the sealing cork 26 and the lamp tube 24a can be ensured, and the pulling-off force of the sealing cork 26 can be ensured, so that the sealing cork 26 and the lamp tube 24a are tightly mated and are not easy to separate, and the tightness of the space in the lamp tube 24a can be ensured. For example, the engagement length L of the seal cork 26 with the lamp tube 24a may be 15mm, 16mm or 18mm, and the engagement length L of the seal cork 26 with the lamp tube 24a may be the depth of the seal engagement groove 265 along the length direction of the seal cork 26.

Referring to fig. 20 and 22, in some alternative embodiments of the present utility model, the first routing channel 260 includes a first sub-routing channel 261, a second sub-routing channel 262, and a third sub-routing channel 263, and the first sub-routing channel 261, the second sub-routing channel 262, and the third sub-routing channel 263 are spaced apart from each other. The input wire harness 22 includes a positive input wire harness 221, a negative input wire harness 222 and a signal input wire harness 223, the positive input wire harness 221 is routed along the first sub-routing channel 261, the negative input wire harness 222 is routed along the second sub-routing channel 262, the signal input wire harness 223 is routed along the third sub-routing channel 263, the positive input wire harness 221, the negative input wire harness 222 and the signal input wire harness 223 are in a wiring specification, the positive input wire harness 221, the negative input wire harness 222 and the signal input wire harness 223 are mutually separated through the first sub-routing channel 261, the second sub-routing channel 262 and the third sub-routing channel 263, the positive input wire harness 221, the negative input wire harness 222 and the signal input wire harness 223 can be ensured to be mutually independent and are not influenced, potential safety hazards caused by contact of the positive input wire harness 221, the negative input wire harness 222 and the signal input wire harness 223 are avoided, and safety of the pulse lamp body 24 is enhanced.

Referring to fig. 20 and 22, in some alternative embodiments of the present utility model, the sealing joint 25 further includes a sealing compound 27, an axial end surface of the sealing compound 26 remote from the luminous body 24b is formed with an outlet groove 266, the input wire harness 22 is led out through the outlet groove 266, the sealing compound 27 is filled in the outlet groove 266 to seal at least a gap between the input wire harness 22 and an inner wall of the outlet groove 266, so that the input wire harness 22 is insulated from the inner wall of the outlet groove 266, the sealing compound 27 can further seal the inside of the lamp tube 24a, the sealing property and the moisture resistance of the lamp tube 24a can be further enhanced, the condensed water is prevented from being generated in the lamp tube 24a, and the oxidation of the input wire harness 22 is reduced. A glue injection port 267 is defined between the input wire harness 22 and the inner peripheral wall of the wire outlet groove 266, and the glue injection port 267 is used for injecting glue to form a sealing glue 27, so that glue injection operation is convenient.

For example, referring to fig. 20 and 22, according to some embodiments of the present utility model, the first routing channel 260 includes a first sub-routing channel 261, a second sub-routing channel 262, and a third sub-routing channel 263 that are spaced apart from each other. The second wire channel 270 is formed in the sealing compound 27, the second wire channel 270 includes a fourth sub-wire channel 271, a fifth sub-wire channel 272 and a sixth sub-wire channel 273, the fourth sub-wire channel 271, the fifth sub-wire channel 272 and the sixth sub-wire channel 273 are separated from each other, the fourth sub-wire channel 271 is communicated with the first sub-wire channel 261, the fifth sub-wire channel 272 is communicated with the second sub-wire channel 262, and the sixth sub-wire channel 273 is communicated with the third sub-wire channel 263. The input harness 22 includes a positive input harness 221, a negative input harness 222, and a signal input harness 223, the positive input harness 221 is routed along the first sub-routing channel 261 and the fourth sub-routing channel 271, the negative input harness 222 is routed along the second sub-routing channel 262 and the fifth sub-routing channel 272, and the signal input harness 223 is routed along the third sub-routing channel 263 and the sixth sub-routing channel 273.

For example, referring to fig. 20 and 23, a first lead hole 26a, a second lead hole 26b, and a third lead hole 26c are formed at an end of the sealing cork 26 near the light emitter 24b, the first lead hole 26a communicates with the first sub-routing channel 261, the second lead hole 26b communicates with the second sub-routing channel 262, and the third lead hole 26c communicates with the third sub-routing channel 263. The positive electrode input wire harness 221 is led into the first sub-wiring channel 261 through the first lead hole 26a, and is wired along the first sub-wiring channel 261 and the fourth sub-wiring channel 271; the negative input harness 222 is led into the second sub-wiring channel 262 through the second lead hole 26b and is routed along the second sub-wiring channel 262 and the fifth sub-wiring channel 272; the signal input harness 223 is introduced into the third sub-routing channel 263 through the third lead hole 26c, and is routed along the third sub-routing channel 263 and the sixth sub-routing channel 273.

Referring to fig. 19 and 22, according to some embodiments of the present utility model, the pulse lamp body 24 further includes a protective rubber sleeve 28, the protective rubber sleeve 28 is sleeved on the closed end 242 of the lamp tube 24a, and the protective rubber sleeve 28 can protect the closed end 242 of the lamp tube 24a from being knocked and damaged during the assembling or mounting process of the pulse lamp body 24.

The pulse lamp body 24 according to one embodiment of the present utility model is described below with reference to fig. 15 to 23.

Referring to fig. 15 to 23, in this embodiment, the pulse lamp body 24 includes: the lamp tube 24a, the illuminant 24b, the protective rubber sleeve 28 and the sealing joint 25, one end of the lamp tube 24a is open, the other end is closed, and the protective rubber sleeve 28 is sleeved on the closed end 242 of the lamp tube 24 a. The light emitter 24b is arranged in the lamp tube 24a, both ends of the light emitter 24b along the length direction of the light emitter 24b are connected with the input wire harness 22, the sealing joint 25 is arranged at the open end 241 of the lamp tube 24a, and the input wire harness 22 is led out through the sealing joint 25.

The input harness 22 includes a positive input harness 221, a negative input harness 222, and a signal input harness 223, the positive input harness 221 may be connected to one side of the light emitter 24b in the length direction of the light emitter 24b, and a connection point of the positive input harness 221 and the light emitter 24b is located at one side of the light emitter 24b adjacent to the open end 241 of the lamp tube 24a, and the positive input harness 221 is connected to a positive electrode 243 at one end of the light emitter 24 b. The negative input wire harness 222 may be connected to the other side of the light emitter 24b in the length direction of the light emitter 24b, the connection point of the negative input wire harness 222 with the light emitter 24b being located at one side of the light emitter 24b adjacent to the closed end 242 of the lamp tube 24a, the negative input wire harness 222 being connected to the negative electrode 244 at the other end of the light emitter 24 b. A wiring space 245 is defined between the lamp tube 24a and the luminous body 24b, a signal input wire harness 223 is wound on the peripheral side of the luminous body 24b, the signal input wire harness 223 is positioned in the wiring space 245, and the signal input wire harness 223 and the negative input wire harness 222 are both wired into the sealing joint 25 along the wiring space 245.

The negative input wire harness 222 includes a first wire harness section 2221 and a second wire harness section 2222, a portion of the negative input wire harness 222 located in the wiring space 245 is the first wire harness section 2221, a portion of the first wire harness section 2221 opposite to the luminous body 24b in the radial direction of the luminous body 24a is sleeved with an insulating sleeve 224, a portion of the negative input wire harness 222 located in the sealing joint 25 is the second wire harness section 2222, the insulating sleeve 224 extends into the sealing joint 25, and the insulating sleeve 224 is sleeved on the outer peripheral side of the second wire harness section 2222.

The sealing joint 25 includes a sealing cork 26 and a sealing gel 27, the sealing cork 26 including a sealing mating groove 265, a first routing channel 260 and a blocking portion 264. The seal engagement groove 265 is annular, the open end 241 of the lamp tube 24a is inserted into the seal engagement groove 265, the depth of the seal engagement groove 265 along the length direction of the seal cork 26 is 16mm, and the engagement length L of the seal cork 26 with the lamp tube 24a is 16mm. The sealing cork 26 is located at the inner peripheral side of the sealing engagement groove 265 to form a blocking portion 264, the blocking portion 264 is accommodated in the lamp tube 24a and blocks the open end 241 of the lamp tube 24a, the sealing cork 26 further has a first routing channel 260, at least part of the first routing channel 260 is located at the blocking portion 264, and part of the input harness 22 is routed along the first routing channel 260. The first routing channel 260 includes a first sub-routing channel 261, a second sub-routing channel 262, and a third sub-routing channel 263, and the first sub-routing channel 261, the second sub-routing channel 262, and the third sub-routing channel 263 are spaced apart from each other, the positive input wire harness 221 is routed along the first sub-routing channel 261, the negative input wire harness 222 is routed along the second sub-routing channel 262, and the signal input wire harness 223 is routed along the third sub-routing channel 263. A first lead hole 26a, a second lead hole 26b and a third lead hole 26c are formed at one end of the sealing cork 26 near the light emitter 24b, the first lead hole 26a is correspondingly communicated with the first sub-wiring channel 261, the second lead hole 26b is correspondingly communicated with the second sub-wiring channel 262, and the third lead hole 26c is correspondingly communicated with the third sub-wiring channel 263.

An outlet groove 266 is formed on the axial end surface of the sealing cork 26, which is far away from the illuminant 24b, the input wire harness 22 is led out through the outlet groove 266, a glue injection opening 267 is defined between the input wire harness 22 and the inner peripheral wall of the outlet groove 266, the glue injection opening 267 is used for injecting glue to form a sealing glue 27, and the sealing glue 27 is filled in the outlet groove 266 to at least seal a gap between the input wire harness 22 and the inner wall of the outlet groove 266. The second wire channel 270 is formed in the sealing compound 27, the second wire channel 270 includes a fourth sub-wire channel 271, a fifth sub-wire channel 272 and a sixth sub-wire channel 273, the fourth sub-wire channel 271, the fifth sub-wire channel 272 and the sixth sub-wire channel 273 are separated from each other, the fourth sub-wire channel 271 is communicated with the first sub-wire channel 261, the fifth sub-wire channel 272 is communicated with the second sub-wire channel 262, and the sixth sub-wire channel 273 is communicated with the third sub-wire channel 263. The positive electrode input wire harness 221 is led into the first sub-wiring channel 261 through the first lead hole 26a, and is wired along the first sub-wiring channel 261 and the fourth sub-wiring channel 271; the negative input harness 222 is led into the second sub-wiring channel 262 through the second lead hole 26b and is routed along the second sub-wiring channel 262 and the fifth sub-wiring channel 272; the signal input harness 223 is introduced into the third sub-routing channel 263 through the third lead hole 26c, and is routed along the third sub-routing channel 263 and the sixth sub-routing channel 273.

When assembling the pulse lamp body 24, the insulating sleeve 224 is first sleeved on the outer peripheral side of the negative input wire harness 222, and then the luminous body 24b and the input wire harness 22 integrally extend into the lamp tube 24a from the open end 241 of the lamp tube 24a, and the input wire harness 22 extends out from the open end 241 of the lamp tube 24 a; the sealing cork 26 is arranged at the open end 241 of the lamp tube 24a, the open end 241 of the lamp tube 24a is inserted into the sealing matching groove 265 of the sealing cork 26, and the input wire harness 22 is routed through the first routing channel 260 of the sealing cork 26; finally, the glue is injected into the wire outlet groove 266 of the sealing cork 26 through the glue injection port 267, the sealing glue 27 can be formed after the glue injection is solidified, and the sealing glue 27 is filled in the wire outlet groove 266 to at least seal the gap between the input wire harness 22 and the inner wall of the wire outlet groove 266, thereby completing the assembly of the pulse lamp body 24.

Referring to fig. 11-21, a pulse sterilization module 20 according to an embodiment of the second aspect of the present utility model includes: a lamp cover 21, a lamp holder 23, and a pulse lamp body 24 according to the above-described first embodiment of the present utility model. The pulse lamp body 24 is arranged in the lamp shade 21, so that the whole structure is compact, the pulse lamp body 24 is fixedly arranged in the lamp shade 21 through the lamp bracket 23, the mounting stability of the pulse lamp body 24 is high, and the lamp shade 21 can also support and protect the pulse lamp body 24.

For example, referring to fig. 8 to 11, two positioning posts 215 and two fixing posts 217 are provided on the inner wall of the lamp housing 21, and the two positioning posts 215 are diagonally arranged, and the two fixing posts 217 are diagonally arranged, and each fixing post 217 is formed with a first fixing hole 2171. The lamp holder 23 is provided with two first positioning holes 231 and two second fixing holes 232, the two first positioning holes 231 are in one-to-one correspondence with the two positioning columns 215, the two second fixing holes 232 are in one-to-one correspondence with the two first fixing holes 2171, the lamp holder 23 can be positioned in the lamp shade 21 by inserting the positioning columns 215 into the first positioning holes 231, the lamp holder 23 can be fixedly arranged in the lamp shade 21 by penetrating the first fixing holes 71 through the second fixing holes 232 and the first fixing holes 2171, and the pulse lamp body 24 can be fixedly arranged in the lamp shade 21 by arranging the pulse lamp body 24 on the lamp holder 23. The pulse lamp body 24 may be located in a space defined by the lamp holder 23 and the lamp shade 21, the lamp shade 21 is provided with a light outlet 213, the pulse light emitted by the pulse lamp body 24 may be irradiated through the light outlet 213, and the light outlet 213 on the lamp shade 21 may restrict the irradiation range of the pulse light.

According to the pulse sterilization module 20 of the embodiment of the utility model, one end of the lamp tube 24a is opened and the other end is closed, the sealing joint 25 is arranged at the open end 241 of the lamp tube 24a, so that the assembly efficiency of the pulse lamp body 24 is higher, and the sealing joint 25 can seal the open end 241 of the lamp tube 24a, so that the space in the lamp tube 24a is sealed, on one hand, the effect that condensed water in the lamp tube 24a affects the light transmission effect of the lamp tube 24a can be prevented, on the other hand, the sealing performance and the moisture-proof performance of the lamp tube 24a can be enhanced, the oxidation of the input wire harness 22 can be slowed down, the service lives of the luminous body 24b and the input wire harness 22 can be ensured, and the service life of the pulse lamp body 24 can be ensured, and the safety of the pulse lamp body 24 can also be ensured.

Referring to fig. 11 and 18-21, according to some embodiments of the present utility model, a wire button 230 is disposed at an end of the lamp holder 23 adjacent to the sealing joint 25, and a portion of the input wire harness 22 located outside the pulse lamp body 24 is wired through the wire button 230, so that the wiring specification of the input wire harness 22 is simple and the wiring structure is simple.

For example, referring to fig. 11 and 17, according to an embodiment of the present utility model, the top of the lamp housing 21 has a supporting portion 212, a first wire groove 2121 is formed at an outer edge of the supporting portion 212, a third wire button 218 is disposed at a lower side of the supporting portion 212, an input wire harness 22 routed through the wire button 230 is routed through the third wire button 218, and the pulse sterilization module 20 is led out from the first wire groove 2121. Referring to fig. 18 and 19, the input wire harness 22 is sleeved with an input wire protective sleeve 225, the input wire protective sleeve 225 can avoid the input wire harness 22 from being scratched, the input wire harness 22 and the input wire protective sleeve 225 are convenient to clamp and wire, and the input wire harness 22 and the input wire protective sleeve 225 form a first connecting wire harness 31.

Referring to fig. 18-21, according to some embodiments of the present utility model, a lamp holder 23 is provided with a lamp body groove 233 and positioning buckles 234, the positioning buckles 234 are located at opposite sides of the lamp body groove 233 in the length direction, and two ends of a lamp tube 24a are respectively positioned by the positioning buckles 234, so that the positioning structure is simpler and the stability is stronger. For example, the lamp holder 23 is provided with a lamp body groove 233 and two positioning buckles 234, the lamp body groove 233 is located between the two positioning buckles 234, and each positioning buckle 234 includes positioning clamping plates 235 which are opposite to each other along the width direction of the lamp body groove 233 and are arranged at intervals.

For example, referring to fig. 18 and 19, according to an embodiment of the present utility model, the pulse lamp body 24 further includes a protective rubber sleeve 28, the protective rubber sleeve 28 is sleeved on the closed end 242 of the lamp tube 24a, the sealing joint 25 is disposed on the open end 241 of the lamp tube 24a, the sealing joint 25 and the protective rubber sleeve 28 can be matched with the positioning buckle 234, the protective rubber sleeve 28 and the sealing joint 25 can be positioned on the lamp holder 23 through the positioning buckle 234, so that two ends of the lamp tube 24a are positioned on the lamp holder 23, the positioning buckle 234 can clamp two ends of the pulse lamp body 24, so that the pulse lamp body 24 can be mounted on the lamp holder 23, the mounting stability is strong, and the mounting structure is simple.

Referring to fig. 1 to 6, an air conditioner according to an embodiment of a third aspect of the present utility model includes: the housing 10, the heat exchanger part 50, the air duct part 40 and the pulse sterilization module 20 according to the embodiment of the first aspect of the present utility model described above. The casing 10 has an air inlet 13 and an air outlet 19, the air inlet 13 and the air outlet 19 are respectively communicated with the indoor space, so that air flow is facilitated, and the heat exchanger component 50 and the air duct component 40 are both arranged in the casing 10. The pulse sterilization module 20 is arranged in the machine shell 10, the pulse sterilization module 20 is suitable for emitting pulse light into the machine shell 10, the pulse light irradiates the surfaces of microorganisms (such as bacteria and viruses) in the machine shell 10, substances in the microorganisms can be changed to be inactivated, and therefore various microorganisms in the machine shell 10 can be thoroughly killed, various components and air in the machine shell 10 can be purified and sterilized, the sterilization effect is good, and the sterilization efficiency is high. In addition, some harmful gases (such as VOC gas) in the air can be decomposed under the irradiation of the pulse light, so that the air can be purified, and the quality of the air blown into the room can be improved.

For example, referring to fig. 1 to 3, the air conditioner may be a split type air conditioner, for example, the air conditioner may be a split floor type air conditioner, the air conditioner includes an air conditioning indoor unit 100 and an air conditioning outdoor unit, wherein the air conditioning indoor unit 100 includes the above-mentioned cabinet 10, the heat exchanger part 50, the air duct part 40, and the pulse sterilization module 20, and the air conditioning indoor unit 100 may be a cabinet. The chassis 10 may include a rear case 11, a top cover 14, an air outlet frame 15, an upper panel 18, a lower panel 16 and a base 17, wherein the upper panel 18 is located at a front side of the air outlet frame 15, the upper panel 18 and the air outlet frame 15 are located at an upper side of the lower panel 16, the upper panel 18, the air outlet frame 15 and the lower panel 16 are located at a front side of the rear case 11, the top cover 14 covers tops of the air outlet frame 15 and the rear case 11, and the base 17 is located at bottoms of the lower frame and the rear case 11. The air outlet frame 15 and the rear shell 11 may be detachably connected, the lower panel 16 and the rear shell 11 may be detachably connected, and the top cover 14 and the air outlet frame 15 and the rear shell 11 may be detachably connected.

For example, referring to fig. 1 to 6, an air inlet 13 may be formed on the rear case 11, the air inlet 13 communicates with the room, and an air inlet grill 12 is provided at the air inlet 13. The heat exchanger component 50 may be located on the front side of the air intake 13, the air duct component 40 may be located on the front side of the heat exchanger component 50, and the air outlet frame 15 may be located on the front side of the air duct component 40. The heat exchanger part 50 may include a heat exchanger 51, a heat exchanger bracket 51, and an electric auxiliary heat piece 53, and the heat exchanger 51 and the electric auxiliary heat piece 53 are both provided to the heat exchanger bracket 51, and the electric auxiliary heat piece 53 may extend in the up-down direction. The air outlet frame 15 may include a frame 151 and air deflectors 153, the air deflectors 153 are located at left and right sides of the frame 151, the air deflectors 153 are rotatably connected to the upper panel 18 to open and close the air outlet 19, and the air outlet 19 is located at left and right sides of the upper panel 18. The air outlet 19 is provided with a plurality of louvers 152, the louvers 152 are rotatably disposed in the air outlet frame 15, and the louvers 152 can change the blowing direction of the air at the air outlet 19. When the air conditioner works, air is sucked into the casing 10 from the air inlet 13 and subjected to heat exchange through the heat exchanger component 50, and the air subjected to heat exchange is blown into a room through the air outlet 19 under the driving of the air duct component 40 so as to cool or heat the room.

According to the air conditioner of the embodiment of the utility model, by arranging the pulse sterilization module 20 in the air conditioner, one end of the lamp tube 24a is opened, the other end of the lamp tube 24a is closed, the sealing joint 25 is arranged at the open end 241 of the lamp tube 24a, so that the assembly efficiency of the pulse lamp body 24 is higher, and the sealing joint 25 can seal the open end 241 of the lamp tube 24a, thereby sealing the space in the lamp tube 24a, on one hand, the effect that the light transmission effect of the lamp tube 24a is influenced by condensed water generated in the lamp tube 24a can be prevented, on the other hand, the sealing performance and the moisture-proof performance of the lamp tube 24a can be enhanced, the oxidation of the input wire harness 22 can be slowed down, the service lives of the luminous body 24b and the input wire harness 22 can be ensured, and the service life of the pulse lamp body 24 can be ensured, and the safety of the pulse lamp body 24 can also be ensured.

Referring to fig. 5-10, according to some embodiments of the present utility model, an air duct cavity 60 is defined between the heat exchanger component 50 and the air duct component 40, the air duct component 40 includes a fan 43, an air duct volute 4 and an air duct partition plate 48, the air duct partition plate 48 is connected to one side of the air duct volute 4 adjacent to the heat exchanger component 50, and the air duct partition plate 48 abuts against the heat exchanger component 50 to divide the air duct cavity 60 into two air duct cavities 6, so that air flow of the two air duct cavities 6 can be prevented from being disturbed, and uniformity of left and right wind speeds can be ensured. The wind wheel 430 of the fan 43 is arranged in the air duct cavity 6, so that the whole structure is compact, and the space in the casing 10 can be saved.

Referring to fig. 4, 7 and 8, the pulse sterilization module 20 is disposed at an upper portion of the air duct diaphragm 48, and pulse light emitted from the pulse lamp body 24 in the pulse sterilization module 20 may be irradiated to upper portions of the air duct member 40, the heat exchanger member 50 and the air duct cavity 6 to purify and sterilize the upper portions of the air duct member 40 and the heat exchanger member 50, and also to purify and sterilize air passing through the air duct cavity 6. For example, the pulse sterilization module 20 may be mounted and fixed to the upper portion of the duct partition 48 by mounting and fixing the lamp housing 21 to the upper portion of the duct partition 48.

For example, referring to fig. 7, 10 and 17, according to some embodiments of the present utility model, a mounting notch 480 is formed at an upper portion of the duct partition 48, at least a portion of the pulse sterilization module 20 is received in the mounting notch 480, a wall of the mounting notch 480 forms a mounting wall 481, a first positioning protrusion 483 is provided on a top surface of the mounting wall 481, two first locking grooves 484 are provided on a surface of the mounting wall 481 facing the heat exchanger part 50, and a first locking groove 485 is provided on a bottom surface of the mounting wall 481. The top of the lampshade 21 is provided with a supporting part 212, and the supporting part 212 is provided with a second positioning hole 2122; the inner side wall of the lampshade 21 is provided with two first buckles 214, and the two first buckles 214 are distributed at intervals along the left-right direction; the bottom surface of the lamp housing 21 is provided with a first limiting projection 219. Wherein, the first positioning protrusion 483 corresponds to the second positioning hole 2122, the first clamping groove 484 corresponds to the first buckle 214, the first limiting groove 485 corresponds to the first limiting protrusion 219, and the pulse sterilization module 20 can be clamped on the mounting wall 481 through the cooperation of the first positioning protrusion 483 and the second positioning hole 2122, the cooperation of the first clamping groove 484 and the first buckle 214, and the cooperation of the first limiting groove 485 and the first limiting protrusion 219. The inner wall of the lamp housing 21 is also provided with a third fixing hole 216, the upper end of the air duct partition 48 is provided with a fourth fixing hole 486, the fourth fixing hole 486 corresponds to the third fixing hole 216, the second fastening member 72 is suitable for penetrating through the third fixing hole 216 and the fourth fixing hole 486, and the lamp housing 21 can be fixed on the upper part of the air duct partition 48, so that the pulse sterilization module 20 is installed and fixed on the upper part of the air duct partition 48.

For example, referring to fig. 5 and 6, according to some embodiments of the present utility model, a duct partition 48 is connected to the rear side of the duct scroll 4, a heat exchanger part 50 is located at the rear side of the duct partition 48, and the duct partition 48 abuts against the heat exchanger part 50 in the front-rear direction to partition a duct cavity 60 into a first duct cavity 61 and a second duct cavity 62, the first duct cavity 61 being located at the left side of the second duct cavity 62. The fan 43 includes two wind wheels 430 and two motors 44, the two wind wheels 430 are a first wind wheel 431 and a second wind wheel 432, the first wind wheel 431 is arranged in the first air duct cavity 61, and the second wind wheel 432 is arranged in the second air duct cavity 62. The two motors 44 are a first motor 441 and a second motor 442, the first motor 441 is disposed on the upper side of the first wind wheel 431 and connected to the first wind wheel 431 to drive the first wind wheel 431 to rotate, and the second motor 442 is disposed on the upper side of the second wind wheel 432 and connected to the second wind wheel 432 to drive the second wind wheel 432 to rotate.

Referring to fig. 8, 11 and 15, according to some alternative embodiments of the present utility model, the air conditioner further includes a pulse electric control box 30, the pulse electric control box 30 is electrically connected with the pulse sterilization module 20, the pulse electric control box 30 can output signals and power to control the operation of the pulse lamp body 24, and control the operation time of the pulse sterilization module 20 and the frequency of the pulse light emitted from the pulse sterilization module 20. For example, the pulse electronic control box 30 includes a first connection harness 31 and a second connection harness 32, and the first connection harness 31 and the second connection harness 32 are each led out from an outlet hole 33 of the pulse electronic control box 30. The first connection harness 31 may include the positive input harness 221, the negative input harness 222, and the signal harness, and the pulse electric control box 30 is electrically connected with the pulse lamp body 24 of the pulse sterilization module 20 through the first connection harness 31, and may transmit pulse light to transmit energy and an electrical signal to the pulse lamp body 24.

Referring to fig. 8 and 10, the outer wall of the air duct scroll 4 is provided with a motor cover 45, and a motor 44 of a fan 43 is provided in the motor cover 45 and connected to a wind wheel 430. For example, the motor cover 45 includes a front cover 46 and a rear cover 47 connected front and back, and a second wiring groove 475 is provided on the outer wall of the rear cover 47; the air duct partition 48 is located at the lower side of the motor cover 45, and a third wiring groove 482 is provided at the top surface of the air duct partition 48. After being led out from the wire hole 33 of the pulse electric control box 30, the first connection wire bundle 31 is routed along the second wire slot 475 and the third wire slot 482, passes through the first wire slot 2121 on the lamp cover 21 and is electrically connected with the pulse sterilization module 20. The front side wall of the air duct volute 4 is provided with a plurality of second routing buckles 41 which are arranged at intervals along the up-down direction, and after the second connecting wire harness 32 is led out from the wire outlet hole 33 of the pulse electric control box 30, the second connecting wire harness bypasses the motor cover 45 and winds the front side of the air duct volute 4, and is routed along the second routing buckles 41.

Referring to fig. 7 and 8, the pulse control box 30 is mounted and fixed to the motor cover 45. For example, referring to fig. 16, the pulse control box 30 is provided with two mounting lugs 34, and each mounting lug 34 is formed with a first mounting hole 341. Referring to fig. 7, 8 and 10, a limit button 472, a first limit rib plate 473 and a second limit rib plate 474 are provided on the outer wall of the rear cover body 47, and the limit button 472 abuts against the surface of the pulse electric control box 30 facing away from the motor cover 45. The first limiting rib plate 473 and the second limiting rib plate 474 are both located at the outer peripheral side of the pulse electric control box 30, and the limiting buckle 472, the first limiting rib plate 473 and the second limiting rib plate 474 limit the pulse electric control box 30 together. Two first mounting posts 471 are provided on the outer wall of the rear cover 47, each first mounting post 471 is provided with a second mounting hole 4711, the second mounting holes 4711 correspond to the first mounting holes 341, and the third fastening members 73 are arranged through the first mounting holes 341 and the second mounting holes 4711 to mount and fix the pulse electric control box 30 on the motor cover 45.

In the description of the present utility model, it should be understood that the terms "center", "longitudinal", "lateral", "length", "width", "thickness", "upper", "lower", "front", "rear", "left", "right", "vertical", "horizontal", "top", "bottom", "inner", "outer", "clockwise", "counterclockwise", "axial", "radial", "circumferential", etc. indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings are merely for convenience in describing the present utility model and simplifying the description, and do not indicate or imply that the device or element being referred to must have a specific orientation, be configured and operated in a specific orientation, and therefore should not be construed as limiting the present utility model.

In the description of the present utility model, "plurality" means two or more.

In the description of the utility model, a first feature being "above," "over" and "on" a second feature includes the first feature being directly above and obliquely above the second feature, or simply indicates that the first feature is higher in level than the second feature.

In the description of the present specification, reference to the terms "one embodiment," "some embodiments," "illustrative embodiments," "examples," "specific examples," or "some examples," etc., 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 utility model. In this specification, schematic representations of the above terms do not necessarily refer to the same embodiments or examples. 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 utility model have been shown and described, it will be understood by those of ordinary skill in the art that: many changes, modifications, substitutions and variations may be made to the embodiments without departing from the spirit and principles of the utility model, the scope of which is defined by the claims and their equivalents.

Claims (16)

1. A pulsed lamp body, comprising:

a lamp tube, one end of which is opened and the other end of which is closed;

the luminous body is arranged in the lamp tube and is connected with an input wire harness;

the sealing joint is arranged at the open end of the lamp tube, and the input wire harness is led out through the sealing joint.

2. The pulsed lamp body of claim 1, wherein the input harness comprises a positive input harness, a negative input harness and a signal input harness, the positive input harness and the negative input harness are respectively connected to opposite sides of the luminous body, a connection point of the negative input harness and the luminous body is located at one side of the luminous body adjacent to a closed end of the lamp tube, a wiring space is defined between the lamp tube and the luminous body, and the negative input harness is routed into the sealing joint along the wiring space.

3. The pulse lamp body according to claim 2, wherein the portion of the negative input wire harness located in the wiring space is a first wire harness section, and an insulating sleeve is sleeved on at least a portion of the first wire harness section opposite to the luminous body in the radial direction of the lamp tube.

4. The pulse lamp body according to claim 3, wherein the portion of the negative input wire harness located in the sealing joint is a second wire harness section, and the insulating sleeve extends into the sealing joint and is sleeved on the outer peripheral side of the second wire harness section.

5. The pulsed lamp body of claim 1, wherein the sealing joint comprises a sealing cork comprising a blocking portion received in the lamp tube and blocking an open end of the lamp tube, the sealing cork further having a first routing channel, at least a portion of the first routing channel being located at the blocking portion, a portion of the input harness being routed along the first routing channel.

6. The pulse lamp body as defined in claim 5, wherein the seal cork has an annular seal fitting groove into which the open end of the lamp tube is inserted, and a portion of the seal cork located on an inner peripheral side of the seal fitting groove constitutes the blocking portion.

7. The pulsed lamp body of claim 5, wherein the sealing cork has a mating length with the lamp tube in the range of 12-20mm.

8. The pulse lamp body defined in claim 5, wherein the first trace channel comprises a first sub-trace channel, a second sub-trace channel, and a third sub-trace channel that are spaced apart from one another, the input harness comprises a positive input harness, a negative input harness, and a signal input harness, the positive input harness is routed along the first sub-trace channel, the negative input harness is routed along the second sub-trace channel, and the signal input harness is routed along the third sub-trace channel.

9. The pulse lamp body according to claim 5, wherein the sealing joint further comprises a sealing gel, an axial end face of the sealing gel, which is far away from the luminous body, is formed with a wire outlet groove, the input wire harness is led out through the wire outlet groove, the sealing gel is filled in the wire outlet groove to at least seal a gap between the input wire harness and the inner wall of the wire outlet groove, and a glue injection port is defined between the input wire harness and the inner peripheral wall of the wire outlet groove and used for injecting glue to form the sealing gel.

10. The pulsed lamp body of any one of claims 1-9, further comprising: the protective rubber sleeve is sleeved at the closed end of the lamp tube.

11. A pulse sterilization module, comprising:

a lamp shade;

the pulsed lamp body of any one of claims 1-10, disposed within said lamp enclosure;

the pulse lamp body is fixedly arranged in the lampshade through the lamp holder.

12. The pulse sterilization module of claim 11, wherein one end of the lamp holder adjacent to the sealing joint is provided with a wire button, and a portion of the input wire harness outside the pulse lamp body is routed through the wire button.

13. The pulse sterilization module according to claim 11, wherein the lamp holder is provided with a lamp body groove and positioning buckles, the positioning buckles are positioned on two opposite sides of the lamp body groove in the length direction, and two ends of the lamp tube are respectively positioned through the positioning buckles.

14. An air conditioner, comprising:

the shell is provided with an air inlet and an air outlet;

the heat exchanger component and the air duct component are arranged in the shell;

the pulse sterilization module of any of claims 11-13, disposed within the enclosure and adapted to emit pulsed light into the enclosure.

15. The air conditioner of claim 14, wherein the heat exchanger component and the air duct component define an air duct cavity therebetween, the air duct component comprises a fan, an air duct volute and an air duct partition, the air duct partition is connected to one side of the air duct volute adjacent to the heat exchanger component and abuts against the heat exchanger component to divide the air duct cavity into two air duct cavities, a wind wheel of the fan is arranged in the air duct cavities, and the pulse sterilization module is arranged on the upper portion of the air duct partition.

16. The air conditioner of claim 15, further comprising a pulse electric control box electrically connected to the pulse sterilization module, wherein a motor cover is provided on an outer wall of the air duct volute, a motor of the fan is provided in the motor cover and connected to the wind wheel, and the pulse electric control box is mounted and fixed to the motor cover.

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