CN212431097U - Sterilization structure and air conditioner - Google Patents

Abstract

The utility model provides a structure and air conditioner disinfect, the structure of disinfecting includes spiral case fixed plate and sterilizing equipment, the spiral case fixed plate is suitable for the spiral case of fixed air conditioner, be equipped with on the spiral case fixed plate with the opening of the air outlet intercommunication of spiral case, sterilizing equipment sets up just be located on the spiral case fixed plate open-ended week side to be suitable for the orientation the air-out direction radiation sterilization material of spiral case or the light that disinfects. The utility model discloses a set up sterilizing equipment on the spiral case fixed plate, the material that disinfects or the light that disinfects that utilizes sterilizing equipment radiation and the wind that the spiral case blew off cross, disinfect to the air, guarantee that the air-out is healthy, moreover, can also provide a clean aseptic operational environment for the wind wheel in the spiral case, prevent that the wind wheel from breeding the bacterium.

Description

Sterilization structure and air conditioner

Technical Field

The utility model relates to an air conditioner technical field particularly, relates to a structure and air conditioner disinfect.

Background

At present, a ducted air conditioner is provided with a plurality of volutes, a wind wheel is installed in each volute, and after the ducted air conditioner is used for a long time, bacteria are easily bred by the wind wheel, so that the bacteria are also brought to wind blown out by the wind wheel, and the health of a user is influenced.

SUMMERY OF THE UTILITY MODEL

The utility model provides a problem be: how to prevent the wind wheel of tuber pipe formula air conditioner from breeding the bacterium, guarantee that the air-out is healthy.

In order to solve the problem, the utility model provides a sterilization structure, including spiral case fixed plate and sterilizing equipment, the spiral case fixed plate is suitable for the spiral case of fixed air conditioner, be equipped with on the spiral case fixed plate with the opening of the air outlet intercommunication of spiral case, sterilizing equipment sets up just be located on the spiral case fixed plate open-ended week side, and be suitable for the orientation the air-out direction radiation sterilization material of spiral case or the light that disinfects.

Like this, through set up sterilizing equipment on the spiral case fixed plate, the material or the light that disinfect that utilize sterilizing equipment radiation to disinfect intersects with the wind that the spiral case blew off, disinfects to the air, guarantees that the air-out is healthy, moreover, can also provide a clean aseptic operational environment for the wind wheel in the spiral case, prevents that the wind wheel from breeding the bacterium.

Optionally, a mounting seat is arranged on the volute fixing plate, and the sterilizing device is detachably arranged on the mounting seat.

Therefore, the installation position of the sterilization device on the volute fixing plate is determined by arranging the installation seat, and the assembly efficiency is improved; and sterilizing equipment demountable installation is on the mount pad, can conveniently change when sterilizing equipment takes place to damage.

Optionally, the mount is located below and centrally located with respect to the opening.

Like this, set up the mount pad in the open-ended below and placed in the middle to guarantee that sterilizing equipment installs under the spiral case, not only operating space is big, can avoid sterilizing equipment and spiral case to produce moreover and interfere.

Optionally, the projection angle C of the sterilization device satisfies:

wherein, A is the shortest distance from the evaporator of the air conditioner to the volute fixing plate, and B is the vertical height of the evaporator.

Therefore, the sterilizing substances or sterilizing light rays emitted by the sterilizing device can be ensured to completely irradiate the windward side of the whole evaporator, the full coverage of sterilization is realized, and the sterilizing effect is improved.

Optionally, the mount pad is the convex hull structure, the convex hull structure by the spiral case fixed plate orientation deviates from the spiral case direction is protruding to form, just the convex hull structure encloses into the mounting groove, sterilizing equipment sets up in the mounting groove.

Therefore, the number of parts can be reduced, and the production efficiency is improved; moreover, the volute fixing plate can be punched to form a convex hull structure in a stamping mode, the production efficiency is high, meanwhile, the structural strength of the volute fixing plate can be enhanced by the convex hull structure, and the structure at the mounting seat of the volute fixing plate is prevented from being deformed under the self-weight action of the sterilization device; in addition, the convex hull structure can form the mounting groove, and through installing sterilizing equipment in the mounting groove, can play the guard action to sterilizing equipment on the one hand, on the other hand can let sterilizing equipment be close to the heat transfer chamber more for the material of disinfecting that sterilizing equipment radiated can intersect with the air-out of spiral case better, improves the bactericidal effect.

Optionally, the depth of the mounting groove is greater than or equal to the thickness of the sterilization device, wherein the thickness of the sterilization device is a vertical distance between a side surface of the sterilization device facing one side of the volute and a side surface of the sterilization device facing away from one side of the volute.

Like this, sterilizing equipment can hold completely in the mounting groove for sterilizing equipment is embedded to be installed on the mount pad, thereby can not bulge the side of spiral case fixed plate towards spiral case one side, takes place to interfere with the spiral case with further avoiding.

Optionally, a buckle is arranged on the sterilizing device, a clamping groove is arranged on the mounting seat, and the sterilizing device and the mounting seat are connected in a clamping mode through the buckle and the clamping groove.

Like this, adopt the design of buckle and draw-in groove to make things convenient for sterilizing equipment's dismouting, simple structure moreover, easy manufacturing.

Optionally, the sterilization device is an ultraviolet emitter, the ultraviolet emitter comprises a housing with a projection hole and an ultraviolet lamp arranged in the housing and located at the projection hole, the buckle is arranged on the housing, and the projection hole is communicated with the clamping groove; and the ultraviolet rays emitted by the ultraviolet lamp are suitable for sequentially penetrating through the projection holes and the clamping grooves and irradiating the windward side of the evaporator in the air conditioner.

Therefore, the sterilization device is preferably an ultraviolet emitter, so that the cost can be reduced while the air conditioner realizes the sterilization function; meanwhile, ultraviolet rays emitted by the ultraviolet lamp irradiate the windward side of the evaporator from the projection hole, and wind blown out of the volute also blows the windward side of the evaporator, so that the ultraviolet rays and the wind blown out of the volute are intersected in the heat exchange cavity, the air is sterilized by the ultraviolet rays conveniently, and the ultraviolet rays cannot directly irradiate plastic parts such as the volute, the wind wheel and the like, so that the service life of the plastic parts is ensured.

Optionally, the projection holes are circular hole structures and are located at an intermediate position on a side of the housing facing the evaporator.

Therefore, the ultraviolet rays can be conveniently gathered and guided; meanwhile, the projection hole is formed in the middle of the shell, so that the structure of the shell is simplified, the projection hole is convenient to process, and the production efficiency of the ultraviolet emitter is improved.

In order to solve the above problem, the present invention further provides an air conditioner, comprising the above sterilizing apparatus.

The advantages of the air conditioner and the sterilization device are the same compared with the prior art, and are not described in detail herein.

Drawings

Fig. 1 is a schematic structural view of the volute fixing plate and the sterilization device in the embodiment of the present invention when assembled;

FIG. 2 is a schematic structural view of the embodiment of the present invention when the volute fixing plate and the sterilization device are separated;

fig. 3 is a schematic structural view of another view angle when the volute fixing plate and the sterilization device are assembled in the embodiment of the present invention;

FIG. 4 is a schematic top view of the volute fixing plate of FIG. 3 assembled with the sterilization device;

FIG. 5 is an enlarged view of a portion of FIG. 4 at I;

fig. 6 is a schematic structural diagram of an ultraviolet emitter according to an embodiment of the present invention;

fig. 7 is a schematic structural view of another viewing angle of the ultraviolet emitter according to the embodiment of the present invention;

fig. 8 is a schematic structural view of another viewing angle of the ultraviolet emitter according to the embodiment of the present invention;

fig. 9 is a schematic structural diagram of a positional relationship between a mounting position of the ultraviolet emitter on the volute fixing plate and the evaporator in the embodiment of the present invention;

fig. 10 is a schematic structural diagram of another example of the positional relationship between the installation position of the ultraviolet emitter on the volute fixing plate and the evaporator in the embodiment of the present invention;

fig. 11 is a schematic structural diagram of another situation of the positional relationship between the installation position of the ultraviolet emitter on the volute fixing plate and the evaporator in the embodiment of the present invention.

Description of reference numerals:

1-volute fixing plate, 11-opening, 12-mounting seat, 121-mounting groove, 122-clamping groove, 2-sterilizing device, 21-shell, 211-projection hole, 212-buckle, 22-ultraviolet lamp, 100-volute, 110-wind wheel and 200-evaporator.

Detailed Description

In order to make the aforementioned objects, features and advantages of the present invention more comprehensible, embodiments accompanied with figures are described in detail below.

In the description of the present invention, it should be noted that the directions or positional relationships indicated by the terms "upper", "lower", "left", "right", "high", "low", and the like are based on the directions or positional relationships shown in the drawings, and in the coordinate system XYZ provided herein, the right direction represented by the X axis in the forward direction, the left direction represented by the X axis in the backward direction, the rear direction represented by the Y axis in the forward direction, the upper direction represented by the Z axis in the forward direction, and the lower direction represented by the Z axis in the backward direction; this is merely for convenience in describing the invention and to simplify the description, and is not intended to indicate or imply that the device referred to must have a particular orientation, be constructed and operated in a particular orientation, and is therefore not to be considered limiting of the invention.

Referring to fig. 1, 2 and 9 to 11, the present embodiment provides a sterilization structure, including a volute fixing plate 1 and a sterilization device 2, where the volute fixing plate 1 is adapted to fix a volute 100 of an air conditioner, the volute fixing plate 1 is provided with an opening 11 communicated with an air outlet of the volute, and the sterilization device 2 is disposed on the volute fixing plate 1 and located on a peripheral side of the opening 11, and is adapted to radiate sterilization substances or sterilization light toward an air outlet direction of the volute 100.

The partition plate is generally arranged in the ducted air conditioner, the partition plate divides the internal space of the ducted air conditioner into a heat exchange cavity and a fan cavity, the evaporator 200 is installed in the heat exchange cavity, the volute fixing plate 1 is generally installed on the partition plate and located in the fan cavity, the volute 100 is fixed at the opening 11 of the volute fixing plate 1 and located on one side facing the fan cavity, the volute 100 is generally provided with an air outlet, the air outlet of the volute 100 is communicated with the opening 11 on the volute fixing plate 1, the sterilization device 2 is arranged on the volute fixing plate 1 and located on the peripheral side of the opening 11, for example, the sterilization device 2 can be arranged on the upper edge or the lower edge of the opening 11, and the sterilization device 2 can also be arranged on the left edge or the right edge of the opening 11. The through hole structure is arranged at a position corresponding to the opening 11 on the partition board, the wind wheel 110 is arranged in the volute 100, wind blown out by the rotation of the wind wheel 110 sequentially passes through the air outlet of the volute 100, the opening 11 on the volute fixing plate 1 and the through hole structure on the partition board and is blown to the evaporator 200 in the heat exchange cavity, as shown in fig. 9 to 11, arrows in the drawings indicate the air outlet direction of the volute 100, and when the sterilizing device 2 radiates sterilizing substances or sterilizing light rays towards the air outlet direction of the volute 100, the sterilizing substances or the sterilizing light rays can intersect with the wind blown out by the volute 100 to sterilize the air.

In this embodiment, through set up sterilizing equipment 2 on spiral case fixed plate 1, the material or the light that disinfect that utilize sterilizing equipment 2 radiation to disinfect intersects with the wind that spiral case 100 blown out, disinfects to the air, guarantees that the air-out is healthy, moreover, can also provide a clean aseptic operational environment for wind wheel 110 in spiral case 100, prevents that wind wheel 110 from breeding the bacterium.

Further, since a plurality of volutes 100 are usually disposed in the ducted air conditioner, a plurality of openings 11 are disposed on the volute fixing plate 1, and a sterilization device 2 is disposed around each opening 11. In this way, the sterilization device 2 can be ensured to intersect with the air blown out from each volute 100, and the air is sterilized.

Further, the radiation from the sterilizer 2 may be ultraviolet rays, or may be a substance or light ray having a sterilizing function such as negative ions.

Optionally, as shown in fig. 2 and fig. 3, a mounting seat 12 is provided on the volute casing fixing plate 1, and the sterilization device 2 is detachably disposed on the mounting seat 12.

In the embodiment, the installation position of the sterilization device 2 on the volute fixing plate 1 is determined by arranging the installation seat 12, so that the assembly efficiency is improved; and the sterilizing device 2 is detachably mounted on the mounting seat 12, so that the sterilizing device 2 can be conveniently replaced when being damaged.

Alternatively, as shown in connection with fig. 3, the mounting 12 is located below the opening 11 and is centrally located with respect to the opening 11.

The opening 11 may have a geometric shape such as a square, a rectangle, a circle, or a polygon, and in this embodiment, the opening 11 is illustrated as a rectangle. The rectangular opening 11 has a symmetry axis in both the vertical direction and the horizontal direction, the center line in fig. 3 is the symmetry axis of the rectangular opening 11 in the vertical direction, and the installation seat 12 is arranged centrally with respect to the opening 11, which means that the installation seat 12 is located on the symmetry axis of the opening 11 in the vertical direction. In this way, the mounting seat 12 is disposed below and centered on the opening 11 to ensure that the sterilization device 2 is mounted directly below the scroll casing 100, which not only has a large operation space, but also can avoid interference between the sterilization device 2 and the scroll casing 100.

Optionally, as shown in fig. 4 and 5, the mounting seat 12 is a convex hull structure, the convex hull structure is formed by protruding the volute casing fixing plate 1 in a direction away from the volute casing 100, the convex hull structure encloses a mounting groove 121, and the sterilization device 2 is disposed in the mounting groove 121.

The mounting seat 12 may be a separate component and fixed to the volute fixing plate 1 by welding or screwing, or may be a convex hull structure formed by the volute fixing plate 1 protruding toward the heat exchange chamber, and in this embodiment, the mounting seat 12 is preferably a convex hull structure. Therefore, the number of parts can be reduced, and the production efficiency is improved; moreover, the volute fixing plate 1 can be punched to be of a convex hull structure in a punch forming mode, the production efficiency is high, meanwhile, the convex hull structure can enhance the structural strength of the volute fixing plate 1, and the structure at the mounting seat 12 of the volute fixing plate 1 is prevented from being deformed under the self-weight action of the sterilizing device 2; in addition, the convex hull structure can form mounting groove 121, through installing sterilizing equipment 2 in mounting groove 121, can play the guard action to sterilizing equipment 2 on the one hand, and on the other hand can let sterilizing equipment 2 be close to the heat transfer chamber more for the bactericidal material or the light of disinfecting that sterilizing equipment 2 radiated can intersect with the air-out of spiral case 100 better, improve bactericidal effect.

Further, the size of the mounting groove 121 is adapted to the size of the sterilization device 2. That is, if the sterilization device 2 has a cylindrical structure, the mounting groove 121 has a circular groove structure, and the diameter of the circular groove is slightly larger than that of the cylindrical sterilization device 2; if the sterilization apparatus 2 has a polygonal block structure, the mounting groove 121 has a corresponding polygonal groove structure, and the size of the mounting groove 121 is preferably such that the sterilization apparatus 2 can be properly mounted in the mounting groove 121. So to guarantee that the cell wall of mounting groove 121 can carry on spacingly to sterilizing equipment 2 on the ZX plane in fig. 3, prevent that sterilizing equipment 2 from taking place great rocking along the ZX plane in fig. 3 in mounting groove 121, guarantee the fastness of sterilizing equipment 2 when the mounting groove 121 internal fixation.

Optionally, as shown in fig. 4 and 5, the depth of the mounting groove 121 is greater than or equal to the thickness of the sterilization device 2, wherein the thickness of the sterilization device 2 is the vertical distance between the side of the sterilization device facing the volute 100 and the side of the sterilization device 2 facing away from the volute 100.

The depth of the mounting groove 121 refers to the dimension of the mounting groove 121 in the Y-axis direction, and the thickness of the sterilization device 2 refers to the dimension of the sterilization device 2 in the Y-axis direction, and is also the vertical distance between the side of the sterilization device 2 facing the volute 100 (i.e., the front side of the volute 100 in the Y-axis forward direction in fig. 4) and the side facing away from the volute 100 (i.e., the rear side of the volute 100 in the Y-axis reverse direction in fig. 4). In this embodiment, the depth of the mounting groove 121 is greater than or equal to the thickness of the sterilization device 2, so that the sterilization device 2 can be completely accommodated in the mounting groove 121, and the sterilization device 2 is embedded in the mounting seat 12, and does not protrude out of the side surface of the volute fixing plate 1 facing one side of the volute 100, so as to further avoid interference with the volute 100.

Optionally, as shown in fig. 6 to 8, a buckle 212 is disposed on the sterilization device 2, a slot 122 is disposed on the mounting base 12, and the sterilization device 2 and the mounting base 12 are clamped by the buckle 212 and the slot 122.

In this way, the design of the buckle 212 and the clamping groove 122 is adopted to facilitate the disassembly and assembly of the sterilization device 2, and the structure is simple and easy to produce and manufacture.

Further, the buckle 212 is provided with a guiding surface, and the guiding surface is suitable for guiding the sterilization device 2 to be clamped into the clamping groove 122. Therefore, convenience in clamping the buckle 212 with the clamping groove 122 is improved, and assembly efficiency of the sterilization device 2 is further improved.

Alternatively, as shown in fig. 6 to 8, two buckles 212 are provided, and the two buckles 212 are oppositely disposed on the side surface of the sterilization device 2 facing the mounting groove 121. Thus, the two oppositely arranged buckles 212 can be respectively clamped with the edges of the two groove walls of the mounting groove 121 in the left-right direction (i.e., the X-axis direction in fig. 3), or clamped with the edges of the two groove walls of the mounting groove 121 in the up-down direction (i.e., the Z-axis direction in fig. 3), so as to further ensure the firmness of the clamping connection of the sterilization device 2 with the mounting seat 12; moreover, the displacement of the sterilization device 2 can be limited in the left-right direction or the up-down direction, so that the sterilization device 2 is prevented from shaking in the mounting groove 121, and the stability of the sterilization device 2 when being mounted in the mounting groove 121 is ensured; in addition, the buckle 212 is arranged on the side surface of the sterilization device 2 facing one side of the mounting groove 121, so that after the buckle 212 is clamped with the clamping groove 122, the side surface of the sterilization device 2 facing one side of the mounting groove 121 can be partially attached to the groove bottom of the mounting groove 121 (namely, the groove wall of the mounting groove 121 located on the opposite direction of the Y axis), so that the groove bottom of the mounting groove 121 can block the sterilization device 2 from moving backwards (namely, along the opposite direction of the Y axis), and the buckle 212 can block the sterilization device 2 from moving forwards (namely, along the positive direction of the Y axis), thereby further ensuring the stability of the sterilization device 2 when being mounted in the mounting groove 121.

Alternatively, the sterilization device 2 is an ultraviolet emitter. The sterilization device 2 may be a negative ion emitter or an ultraviolet emitter. Since the ultraviolet emitter is common in the market, and has a low price and is easy to purchase compared with the negative ion emitter, the preferred sterilizing device 2 of the present embodiment is an ultraviolet emitter, so as to ensure that the cost of the air conditioner can be reduced while the sterilizing function is realized.

Specifically, as shown in fig. 6 to 8, the ultraviolet emitter includes a housing 21 with a projection hole 211 and an ultraviolet lamp 22 disposed in the housing 21 at the projection hole 211, a clip 212 is disposed on the housing 21, and the projection hole 211 is communicated with the clip groove 122; and ultraviolet rays emitted from the ultraviolet lamp 22 are adapted to pass through the projection holes 211 and the catching grooves 122 in sequence and irradiate on the windward side of the evaporator 200 in the air conditioner.

In this embodiment, the slot 122 is a through slot structure that penetrates through the mounting base 12 along the front-rear direction, and the buckle 212 deforms when passing through the slot 122, and is clamped with the edge of the slot 122 after passing through the slot 122, so as to realize the clamping between the slot 122 and the buckle 212. When the ultraviolet emitter is installed, the ultraviolet emitter is installed from back to front, specifically, as shown in fig. 2, a pressing force is applied to the rear side of the volute fixing plate 1 (i.e., the volute fixing plate 1 is located on the side of the volute fixing plate 1 in the forward direction of the Y axis in fig. 2, and is also the side of the volute fixing plate 1 for fixing the volute 100) in the forward direction (i.e., the direction of the Y axis in fig. 2), so that the ultraviolet emitter is installed in the installation groove 121 of the volute fixing plate 1, and the detachable connection between the ultraviolet emitter and the volute fixing plate 1 is realized through the clamping of the buckle 212 and the clamping groove 122. The hole 211 that throws of ultraviolet emitter sets up on the preceding terminal surface of ultraviolet emitter, and draw-in groove 122 is the logical groove structure that runs through mount pad 12 along the fore-and-aft direction, and back on ultraviolet emitter installs mount pad 12, throws hole 211 and draw-in groove 122 intercommunication for when ultraviolet lamp 22 shines forward, the ultraviolet ray can be in proper order through throwing hole 211 and draw-in groove 122 shine on the windward side of the evaporimeter 200 in the heat transfer chamber. Since the wind blown out by the scroll casing 100 is blown onto the evaporator 200, the windward side of the evaporator 200 refers to the side of the evaporator 200 facing the side of the scroll casing 100. In this way, the ultraviolet rays emitted by the ultraviolet lamp 22 are irradiated onto the windward side of the evaporator 200 from the projection hole 211, and the wind blown out from the volute 100 is also blown onto the windward side of the evaporator 200, so that the ultraviolet rays and the wind blown out from the volute 100 are intersected in the heat exchange cavity, the air is sterilized by the ultraviolet rays, and the plastic parts such as the volute 100, the wind wheel 110 and the like cannot be directly irradiated by the ultraviolet rays, so that the service life of the plastic parts is ensured.

Alternatively, as shown in fig. 8, the injection hole 211 is a circular hole structure and is located at an intermediate position on the side of the housing 21 facing the evaporator 200.

The projection hole 211 can be in a shape of a circle, an ellipse, a polygon or a combination thereof, and the like, and in this embodiment, the projection hole 211 is preferably in a circular hole structure, so that the ultraviolet rays can be conveniently gathered and guided; meanwhile, the projection hole 211 is disposed at the middle position of the housing 21 to simplify the structure of the housing 21, facilitate the processing of the projection hole 211, and improve the production efficiency of the ultraviolet emitter.

Alternatively, the projection angle C of the sterilization device 2 satisfies:

wherein, a is the shortest distance from the evaporator 200 to the volute fixing plate 1, and B is the vertical height of the evaporator 200.

In the present embodiment, the sterilization device 2 is taken as an example of an ultraviolet emitter, and the projection angle C of the sterilization device 2 refers to the projection angle C of the ultraviolet lamp 22 in the ultraviolet emitter, which satisfies a tangent function

I.e., the tangent of half of the projection angle C of the ultraviolet lamp 22 is equal to half of the vertical height B of the evaporator 200 divided by the shortest distance a of the evaporator 200 to the volute securing plate 1. Referring to fig. 9 to 11, the projection angle C of the uv lamp 22 is an included angle formed by the light beams emitted from the projection holes 211 by the uv lamp 22; the vertical height B of the evaporator 200 refers to a dimension of the evaporator 200 in the Z-axis direction in fig. 9; since the evaporator 200 is generally in a V-shaped bent structure, and the opening of the V-shaped bent structure faces the volute fixing plate 1, the shortest distance a from the evaporator 200 to the volute fixing plate 1 refers to the shortest distance from one end of the evaporator 200 close to the volute fixing plate 1 to the side face of the volute fixing plate 1 facing the evaporator 200. Since both end portions of the open end of the evaporator 200 of the V-shaped bent structure are also the upper and lower ends of the evaporator 200, when the evaporator 200 of the V-shaped bent structure is at the upper end thereofAnd the lower ends are located on the same vertical plane, as shown in fig. 9, the included angles formed by the ultraviolet lamps 22 and the connecting lines between the upper ends and the lower ends of the evaporators 200 respectively are equal to the projection angle C of the ultraviolet lamps 22; when the upper end and the lower end of the evaporator 200 of the V-shaped bent structure are located on different vertical planes, as shown in fig. 10 and 11, the included angles formed by the ultraviolet lamps 22 and the connecting lines between the upper end and the lower end of the evaporator 200, respectively, are located within the range of the projection angle C of the ultraviolet lamps 22, that is, the included angles are smaller than the projection angle C of the ultraviolet lamps 22. Thus, by setting the projection angle C of the ultraviolet lamp 22 to satisfy the tangent function

The light of the ultraviolet lamp 22 can be ensured to completely irradiate the windward side of the whole evaporator 200, that is, the sterilizing material radiated by the sterilizing device 2 or the sterilizing light can be ensured to completely irradiate the windward side of the whole evaporator 200, so that the sterilizing full coverage is realized, and the sterilizing effect is improved.

Preferably, the upper and lower ends of the evaporator 200 are located on the same vertical plane. When the upper end and the lower end of the evaporator 200 having the V-shaped bent structure are located on the same vertical plane, a part of the ultraviolet rays may cross the upper end of the evaporator 200 to irradiate onto a plastic part located behind the evaporator 200, as shown in fig. 10, or cross the lower end of the evaporator 200 to leak into a room from an air outlet of the ducted air conditioner, as shown in fig. 11; therefore, in the present embodiment, it is preferable that the upper end and the lower end of the evaporator 200 are located on the same vertical plane, so as to ensure that the light emitted by the ultraviolet lamp 22 completely irradiates the windward side of the evaporator 200, and does not cross the upper end of the evaporator 200 and irradiate a plastic part located behind the evaporator 200, thereby ensuring the service life of the plastic part, or does not cross the lower end of the evaporator 200 and leak into the room from the air outlet of the ducted air conditioner, thereby preventing the human body from being affected; meanwhile, the waste of the light of the ultraviolet lamp 22 can be avoided, so that the utilization rate of the light of the ultraviolet lamp 22 is improved.

The utility model discloses still another embodiment provides an air conditioner, including the aforesaid the structure of disinfecting.

The air conditioner in the embodiment comprises a shell, an evaporator 200, a partition plate, a volute 100 and a sterilization structure, wherein the evaporator 200, the partition plate, the volute 100 and the sterilization structure are arranged in the shell, the sterilization structure comprises a volute fixing plate 1 detachably connected with the partition plate and a sterilization device 2 arranged on the volute fixing plate 1, and the volute 100 is fixed on the volute fixing plate 1. This embodiment is through setting up sterilizing equipment 2 on spiral case fixed plate 1, and the material of disinfecting or the wind that light that disinfects that utilizes sterilizing equipment 2 to radiate blow off with spiral case 100 intersect, disinfects to the air, guarantees that the air-out is healthy, moreover, can also provide a clean aseptic operational environment for wind wheel 110 in the spiral case 100, prevents that wind wheel 110 from breeding the bacterium.

Although the present invention is disclosed above, the present invention is not limited thereto. Various changes and modifications may be effected therein by one of ordinary skill in the pertinent art without departing from the scope or spirit of the present invention, and the scope of the present invention is defined by the appended claims.

Claims (10)

1. The utility model provides a sterilization structure, its characterized in that, includes spiral case fixed plate (1) and sterilizing equipment (2), spiral case fixed plate (1) is suitable for spiral case (100) of fixed air conditioner, be equipped with on spiral case fixed plate (1) with opening (11) of the air outlet intercommunication of spiral case (100), sterilizing equipment (2) set up on spiral case fixed plate (1) and be located the week side of opening (11) to be suitable for the orientation the air-out direction radiation sterilization material of spiral case (100) or the light of disinfecting.

2. The sterilization structure according to claim 1, wherein a mounting seat (12) is provided on the volute fixing plate (1), and the sterilization device (2) is detachably disposed on the mounting seat (12).

3. Sterilisation structure according to claim 2, wherein said mounting seat (12) is located below said opening (11) and centrally with respect to said opening (11).

4. Sterilisation structure according to claim 3, characterised in that said sterilisation means (2) have a projection angle C satisfying:

wherein A is the shortest distance from an evaporator (200) of the air conditioner to the volute fixing plate (1), and B is the vertical height of the evaporator (200).

5. The sterilization structure according to claim 2, wherein the mounting seat (12) is a convex hull structure, the convex hull structure is formed by the volute casing fixing plate (1) protruding in a direction away from the volute casing (100), the convex hull structure encloses a mounting groove (121), and the sterilization device (2) is disposed in the mounting groove (121).

6. The sterilization structure according to claim 5, wherein the depth of the mounting groove (121) is greater than or equal to the thickness of the sterilization device (2), wherein the thickness of the sterilization device (2) is the vertical distance between the side of the sterilization device (2) facing the volute (100) and the side of the sterilization device (2) facing away from the volute (100).

7. The sterilization structure according to any one of claims 2 to 6, wherein a buckle (212) is provided on the sterilization device (2), a slot (122) is provided on the mounting base (12), and the sterilization device (2) and the mounting base (12) are clamped by the buckle (212) and the slot (122).

8. The sterilization structure according to claim 7, wherein the sterilization device (2) is an ultraviolet emitter comprising a housing (21) with an injection hole (211) and an ultraviolet lamp (22) disposed in the housing (21) at the injection hole (211), the catch (212) is disposed on the housing (21), the injection hole (211) is in communication with the catch (122); and the ultraviolet rays emitted by the ultraviolet lamp (22) are suitable for sequentially passing through the projection hole (211) and the clamping groove (122) and irradiating the windward side of an evaporator (200) in the air conditioner.

9. Sterilization structure according to claim 8, characterized in that said dispensing aperture (211) is a circular hole structure and is located in an intermediate position on the side of said housing (21) facing said evaporator (200).

10. An air conditioner characterized by comprising the sterilizing construction according to any one of claims 1 to 9.

Images