JP2023069986A - Indoor unit, and air conditioner with the same - Google Patents

Abstract

To provide an indoor unit in which a sterilization assembly is opposed to an indoor heat exchanger at an interval so that high sterilization effect can be achieved and an amount of ventilation of the indoor heat exchanger is high.SOLUTION: An indoor unit and an air conditioner with the same are provided. The indoor unit includes: a shell defining a mounting space and formed with an intake port and an exhaust port; an indoor heat exchanger disposed in the mounting space and positioned between the intake port and the exhaust port; and an ultraviolet ray assembly fixed to the shell, positioned between the intake port and the indoor heat exchanger, and capable of applying ultraviolet ray to the indoor heat exchanger. By disposing the ultraviolet ray assembly and the indoor heat exchanger at an interval, a covering area of ultraviolet ray can be increased, sterilization effect by the ultraviolet ray can be improved, quality of the discharged airflow can be improved, an amount of ventilation of the indoor heat exchanger can be increased, operation efficiency of the indoor unit can be improved, and use comfort of a user can be improved.SELECTED DRAWING: Figure 2

Description

TECHNICAL FIELD The present invention relates to the field of air conditioners, and more particularly to an indoor unit and an air conditioner having the same.

In the prior art, the sterilization assembly in the air conditioner is usually placed on the evaporator, and the sterilization assembly is likely to be directly caught on the evaporator and damage the evaporator. In addition, the distance between the sterilizing assembly and the evaporator is too close, so that the UV light generated by the sterilizing assembly has a small coverage area, a small sterilizing area, and a poor sterilizing effect. In addition, the sterilization assembly and the evaporator are placed too close together, blocking the ventilation of the evaporator and reducing the efficiency of the air conditioning.

The present invention aims at solving at least one of the technical problems existing in the prior art. Therefore, one object of the present invention is to propose an indoor unit in which a sterilizing assembly faces an indoor heat exchanger with a gap therebetween, which has a good sterilizing effect and a high ventilation rate of the indoor heat exchanger.

Another object of the invention is to propose an air conditioner.

An indoor unit according to an embodiment of the present invention includes a housing having a limited installation space, an intake port and an exhaust port formed therein, and a housing provided in the installation space between the intake port and the exhaust port. an indoor heat exchanger located thereon; and an ultraviolet assembly fixed to the housing and positioned between the air inlet and the indoor heat exchanger and capable of irradiating the indoor heat exchanger with ultraviolet light.

In the indoor unit according to the embodiment of the present invention, the ultraviolet light assembly and the indoor heat exchanger are opposed to each other with a gap therebetween, thereby improving the ultraviolet ray covering area, improving the sterilization effect of the ultraviolet ray, and discharging the ultraviolet ray. The quality of the airflow can be improved, the ventilation rate of the indoor heat exchanger can be increased, the operating efficiency of the indoor unit can be improved, and the user's comfort can be improved.

Specifically, the ultraviolet assembly is adjacent to one end in the longitudinal direction of the air inlet, and the ultraviolet assembly includes an ultraviolet radiation device for irradiating the indoor heat exchanger with ultraviolet rays, and a mounting plate fixed to the housing. a mounting plate including a first plate portion and a second plate portion connected to each other, wherein the ultraviolet radiation device is fixed to the first plate portion and the first plate portion The portion is located between the second plate portion and one longitudinal end of the inlet.

Optionally, the second plate portion is formed with vent holes having an area of 36 mm ² to 100 mm ² .

In some embodiments, the first plate portion is provided with a receiving cavity for receiving the UV radiation device, the receiving cavity being a support surface for supporting the UV radiation device and a space between spaced apart first and second sidewalls, the support surface being connected to the first and second sidewalls, respectively.

Specifically, the first plate portion is provided with a first engaging portion that engages with the ultraviolet radiation device, and the first engaging portion is located on the inner surface of the first side wall. a first snap provided on an inner surface of said second sidewall for engaging a first side of said indoor heat exchanger facing surface of said ultraviolet radiation device; and a second snap engaging a second side of the surface facing the indoor heat exchanger.

In some embodiments, the support surface is formed with heat dissipation holes that communicate the internal space of the receiving cavity with the outside world.

In some embodiments, the mounting plate further includes an outlet groove for receiving a harness connected to the ultraviolet radiation device, the outlet groove further including a second engagement portion for engaging the harness. The outlet groove is located between the first plate portion and one longitudinal end of the inlet.

Specifically, the ultraviolet radiation device includes an ultraviolet lamp, and the distance between the ultraviolet lamp and the end of the second plate portion remote from the first plate portion is 40 mm to 53 mm. , the shortest distance between the ultraviolet assembly and the indoor heat exchanger is 0-10 mm.

In some embodiments, the housing includes a face frame and a mesh frame detachably attached to the face frame, the mesh frame is provided with a filter screen, and the ultraviolet assembly is attached to the mesh frame. is provided.

In some embodiments, the ultraviolet assembly is fixed to the face frame by a fastening member, the longitudinal ends of the first plate portion are respectively provided with mounting through holes, and the face frame includes: A mounting post corresponding to the mounting through hole is provided, a mounting hole is formed on the top of the mounting post, and the fastening member passes through the mounting through hole and is inserted into the mounting hole of the mounting post.

In some embodiments, the outer surface of the second side wall of the first plate portion is in contact with the housing, and the outer surface of the second side wall is provided with a positioning groove extending in the longitudinal direction. , the housing is provided with a positioning rib that is inserted into the positioning groove.

In some embodiments, in the width direction of the air inlet, the ultraviolet assembly is adjacent to one end of the air inlet near the rear side of the indoor unit.

An air conditioner according to an embodiment of the present invention includes any one of the indoor units described above.

The air conditioner according to the embodiment of the present invention is provided with the above indoor unit to improve the sterilization effect of the ultraviolet light assembly, to improve the service life of the air conditioner without damaging the indoor heat exchanger, It is possible to reduce the obstruction to the flow of the air flow, increase the ventilation amount of the indoor heat exchanger, improve the operating efficiency of the air conditioner, and improve the comfort of use for the user.

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

The above and/or additional aspects and advantages of the present invention will become clearer and easier to understand from the following description of embodiments in conjunction with the drawings.

1 is an external perspective view of an indoor unit according to an embodiment of the present invention; FIG. 1 is a schematic configuration diagram of an indoor unit according to an embodiment of the present invention; FIG. 1 is a schematic configuration diagram of an indoor unit in which a face frame main body is hidden according to an embodiment of the present invention; FIG. FIG. 4 is a partial enlarged view of the B region of the embodiment shown in FIG. 3; 1 is a schematic configuration diagram of a mesh frame according to an embodiment of the present invention; FIG. FIG. 6 is a partial enlarged view of the A region of the embodiment shown in FIG. 5; FIG. 4 is a front view of a mounting plate according to an embodiment of the invention; 1 is an external perspective view of an ultraviolet radiation device according to an embodiment of the present invention; FIG. 1 is a front view of an ultraviolet assembly according to an embodiment of the invention; FIG. 1 is an external perspective view of an ultraviolet assembly according to an embodiment of the present invention; FIG. FIG. 4 is another angular profile perspective view of an ultraviolet assembly according to an embodiment of the present invention; 1 is a cross-sectional view of an indoor unit according to an embodiment of the present invention; FIG.

Hereinafter, embodiments of the invention will be described in detail, examples of said embodiments being shown in the drawings, from beginning to end the same or similar reference numerals denote the same or similar components or structures having the same or similar functions. represents a part. The embodiments described below with reference to the drawings are illustrative and only for the purpose of interpreting the present invention, and cannot be understood as limiting the present invention.

In describing the present invention, the terms "longitudinal", "upper", "lower", "anterior", "back", "left", "right", "vertical", "horizontal", "apical", " The orientations and positional relationships indicated by "bottom", "inside", "outside", "circumferential", etc. are based on the orientations and positional relationships shown in the drawings and are merely intended to facilitate and simplify the description of the invention. and does not imply or imply that the devices or components shown must have a particular orientation, be configured and operate in a particular orientation, and therefore do not constitute the invention. cannot be understood as limiting. In the description of the present invention, references to "first feature" and "second feature" may include one or more of such features. In the description of the present invention, "plurality" means two or more.

An indoor unit 100 according to an embodiment of the present invention will be described below with reference to FIGS. 1 to 12. FIG.

An indoor unit 100 according to an embodiment of the present invention includes a housing 1 having a limited installation space, an intake port 11 and an exhaust port 12 formed therein, and an intake port 11 and an exhaust port 12 provided in the installation space. and an ultraviolet assembly 4 fixed to the housing 1 and positioned between the air inlet 11 and the indoor heat exchanger 3 and capable of irradiating the indoor heat exchanger 3 with ultraviolet rays. ,including.

The housing 1 is configured as a supporting member for the entire indoor unit 100 . A display device is provided in the housing 1, and the installation space inside the housing 1 is limited. The indoor heat exchanger 3 is provided within the installation space, and the housing 1 serves to protect the indoor heat exchanger 3 arranged within the installation space. The indoor heat exchanger 3 exchanges heat with the passing airflow and sends out a temperature-changed airflow to adjust the indoor temperature. An intake port 11 and an exhaust port 12 are formed in the housing 1, and an airflow flows in from the intake port 11, passes through the indoor heat exchanger, and flows out from the exhaust port 12. As shown in FIG.

The above directions are based on a front view when the indoor unit 100 is in normal operation. That is, the indoor heat exchanger 3 includes ends in the longitudinal direction, the indoor heat exchanger 3 has both left and right ends in the horizontal direction, and the connection surface extends along the horizontal direction. , the connecting surface is connected between the two ends, the connecting surface is the main working surface of the indoor heat exchanger 3, the connecting surface heat-exchanges the air flow passing through, and sends out a variable temperature air flow , to adjust the room temperature.

The ultraviolet assembly 4 is provided in the housing 1 and faces the connecting surface of the indoor heat exchanger. The ultraviolet assembly 4 emits sterilizing ultraviolet rays to the connecting surfaces of the indoor heat exchangers 3 to sterilize the connecting surfaces of the indoor heat exchangers 3 and the air flow passing through the indoor heat exchangers 3, thereby eliminating bacteria in the airflow. can be reduced, the quality of the discharged airflow can be improved, and the comfort of use for the user can be improved.

By providing the ultraviolet assembly 4 with a certain distance from the indoor heat exchanger 3, the radiation range of the ultraviolet sterilization module is increased by providing the ultraviolet sterilization module with a space rather than arranging the ultraviolet sterilization module in the indoor heat exchanger 3. , it can improve the ultraviolet ray coverage area, improve the sterilization effect of ultraviolet ray, and improve the quality of discharged air flow. At the same time, by providing a space between the ultraviolet sterilization module and the indoor heat exchanger 3, mutual interference during operation can be reduced, and the service life of the indoor heat exchanger 3 can be improved. It is possible to improve the smoothness of the airflow flowing through the location, increase the ventilation amount of the indoor heat exchanger 3, and improve the operation efficiency of the indoor unit 100.

In the indoor unit 100 according to the embodiment of the present invention, the ultraviolet light assembly 4 and the indoor heat exchanger 3 are provided facing each other with a space therebetween to improve the ultraviolet ray coverage area and the sterilization effect of the ultraviolet ray. It is possible to improve the quality of the discharged air flow, increase the ventilation amount of the indoor heat exchanger 3, improve the operating efficiency of the indoor unit 100, and improve the user's comfort.

In some specific examples, the indoor heat exchanger 3 is an evaporator and the ultraviolet assembly 4 emits ultraviolet light onto the surface of the evaporator.

Specifically, as shown in FIGS. 7-9, the ultraviolet assembly 4 is adjacent to one longitudinal end of the inlet 11 . The ultraviolet assembly 4 includes an ultraviolet radiation device 5 that irradiates the indoor heat exchanger 3 with ultraviolet rays, and a mounting plate 6 that is fixed to the housing 1 and includes a first plate portion 61 and a second plate portion 61 that are connected to each other. a mounting plate 6 including a plate portion 62; The ultraviolet radiation device 5 is fixed to the first plate portion 61 , and the first plate portion 61 is positioned between the second plate portion 62 and one longitudinal end of the inlet 11 .

Specifically, the ultraviolet radiation device 5 emits short-wave sterilizing ultraviolet rays to the connecting surfaces of the indoor heat exchangers 3 to sterilize the connecting surfaces of the indoor heat exchangers 3 and the airflow passing through the indoor heat exchangers 3. As a result, bacteria in the airflow can be reduced, the quality of the discharged airflow can be improved, and the comfort of use for the user can be improved. In some embodiments, the UV radiation device 5 includes a PCB board 53 (Printed Circuit Board) and a radiation lamp cover 51 disposed on the PCB board 53, as shown in FIG.

The mounting plate 6 is fixed to the housing 1 , and the ultraviolet radiation device 5 is fixed to the housing 1 by being fixed to the mounting plate 6 . The mounting plate 6 includes a first plate portion 61 and a second plate portion 62 . It should be noted that the first plate portion 61 and the second plate portion 62 are two separate structures for facilitating the description of the structure of the embodiment of the present invention. It does not imply that it is a split structure of the plate portion 61 and the second plate portion 62 . The mounting plate 6 of the present invention may be a one-piece molded structure or a separately molded and then assembled structure, both of which are within the protection scope of the present invention.

The first plate portion 61 is for fixedly connecting the ultraviolet radiation device 5 , and the second plate portion 62 serves to protect the ultraviolet radiation device 5 positioned on the first plate portion 61 . Fulfill. The ultraviolet radiation device 5 is a charging element, and when the first plate portion 61 is fixed to the housing 1, the inventor team inserts a test finger through the gap of the housing 1 to make contact with the charging element. I was able to By providing the second plate portion 62, entry of the test finger can be prevented.

The second plate part 62 is provided to close the mounting gap, and during design and experiment, the second plate part 62 shields the UV radiation device 5 located on the first plate part 61, and the UV radiation device It played the role of protecting the charging element on 5, avoiding the charging element from being directly exposed, and the test finger could not enter through the gap between the housings 1 and contact the charging element. Therefore, the second plate portion 62 can restrain the user during use, reduce the risk of electric shock to the user during use, and improve the safety of the indoor unit 100 .

A ventilation hole 7 having an area of 36 mm ² to 100 mm ² is formed in the second plate portion 62 .

Although the provision of the second plate portion 62 improves safety and prevents the user from accidentally contacting the charging element, the second plate portion 62 also blocks the flow of air currents. By providing the ventilation holes 7 in the second plate portion 62 , the air can flow through the ventilation holes 7 . That is, it is possible to improve the smoothness of the airflow flowing through the ultraviolet sterilization module, increase the ventilation rate of the indoor heat exchanger 3, and improve the operating efficiency of the air conditioner.

It should be noted that the ventilation holes 7 must meet not only ventilation requirements but also safety requirements. When the area of the vent hole 7 is large, the fluidity of the air flow in the ultraviolet assembly 4 is good, the ventilation amount of the indoor heat exchanger 3 is large, and the operating efficiency of the air conditioner is high, but the area of the vent hole 7 is large. As a result, the contact area of the charging element with the outside world also increases, increasing the risk of the user accidentally contacting the charging element and lowering safety. If the area of the vent hole 7 is small, the second plate portion 62 closes the charging element, thereby improving safety. Ventilation volume decreases, and the operating efficiency of the air conditioner decreases. The inventor team repeatedly designed and experimented, and found that if the area of the ventilation hole 7 is designed between 36 mm ² and 100 mm ² , the ventilation hole 7 has excellent air flow and high safety. Found it.

In some embodiments, as shown in FIGS. 7 and 10, the first plate portion 61 is provided with a receiving cavity 67 for receiving the UV radiation device 5 . The receiving cavity 67 has a support surface 671 for supporting the ultraviolet radiation device 5 and spaced apart first and second side walls 672 and 673, the support surface 671 It is connected to sidewall 672 and second sidewall 673 respectively.

The first plate part 61 is formed with a receiving cavity 67, the ultraviolet radiation device 5 is provided in the receiving cavity 67, the safety is enhanced, the receiving cavity is provided with a support surface 671, and the ultraviolet radiation device Improve the stability of 5. The first side wall 672 and the second side wall 673 are respectively provided on both sides of the support surface 671 and are provided to face each other with a space therebetween.

In some embodiments, the first plate portion 61 is provided with a first engaging portion 63 for engaging the UV radiation device 5 , the first engaging portion 63 being located on the first side wall 672 . A first snap 631 provided on the inner surface and engaging a first side of the surface facing the indoor heat exchanger 3 of the ultraviolet radiation device 5 and a second snap 631 provided on the inner surface of the second side wall 673 for the ultraviolet radiation. and a second snap 632 engaging a second side of the surface of the device 5 facing the indoor heat exchanger 3 .

As shown in FIGS. 7 and 9, the first plate portion 61 and the ultraviolet radiation device 5 are fastened together by a first engagement portion 63, which facilitates attachment and detachment of the ultraviolet radiation device 5 and is convenient to use. Since the ultraviolet radiation device 5 is light in weight, the mounting stability of the ultraviolet radiation device 5 can be satisfied when it is engaged.

As shown in FIGS. 7 and 9, the first engaging portion 63 includes a first snap 631 and a second snap 632, the first snap 631 and the second snap 632 are respectively for indoor heat exchange. It is fixedly attached to different ends of the vessel 3 . Such a design makes the force to which the ultraviolet radiation device 5 receives uniform and improves the mounting stability of the ultraviolet radiation device 5 .

In some embodiments of the present invention, a first snap 631 is provided on the inner surface of the first side wall 672 and engages a first side of the indoor heat exchanger 3 facing surface of the ultraviolet radiation device 5 . do. There are two second snaps, and two second snaps 632 are spaced apart on the inner surface of the second side wall 673 and are the second snaps on the surface of the ultraviolet radiation device 5 facing the indoor heat exchanger 3 . 2 side to improve the fastening effect on the ultraviolet radiation device 5 . The inner surface of the first side wall 672 is also provided with a release groove, through which force is applied during use to move the UV radiation device 5 out of its fixed relationship with the first snap 631, and thereafter. , the second snap 632 can directly release the locking restraint of the ultraviolet radiation device 5, and the ultraviolet radiation device 5 can be easily detached from the housing cavity 67, making it easy to use.

In some embodiments, as shown in FIGS. 10 and 11, the support surface 671 is formed with heat dissipation holes 66 that communicate the internal space of the receiving cavity 67 with the outside world. The ultraviolet radiation device 5 generates heat when it radiates ultraviolet rays. By providing the heat dissipation hole 66, the heat dissipation of the ultraviolet radiation device 5 is improved, and the safety in use is improved.

In some embodiments, as shown in FIG. 11, the support surface 671 is grooved. The support surface 671 contacts the UV radiation device 5 and serves to support the UV radiation device 5 . By providing the groove, the heat radiation hole 66 positioned in the groove is separated from the ultraviolet radiation device 5, the flowability of the air flow can be improved, and the heat radiation effect of the heat radiation hole 66 can be improved.

In some embodiments, as shown in FIG. 9, mounting plate 6 further includes outlet grooves 64 that accommodate harnesses 52 that are connected to UV radiation device 5 . The outlet groove 64 is further provided with a second engaging portion 65 that engages with the harness 52 , and the outlet groove 64 is positioned between the first plate portion 61 and one longitudinal end of the air inlet 11 . .

The ultraviolet radiation device 5 is provided with a harness 52 for transmitting electrical signals and control signals. is provided. By providing the outlet groove 64 and the second engaging portion 65 to constrain the harness 52, it is possible to improve safety and avoid the occurrence of dangerous phenomena such as electric leakage due to exposure of the harness 52. In addition, by restraining and arranging the wiring of the harness 52, the orderliness of the wiring of the harness 52 can be improved, and attachment/detachment and maintenance of the ultraviolet radiation device 5 can be facilitated.

Specifically, the UV radiation device 5 further includes a UV lamp. The distance between the ultraviolet lamp and the end surface of the second plate portion 62 away from the first plate portion 61 is 40 mm to 53 mm, and the shortest distance between the ultraviolet assembly 4 and the indoor heat exchanger 3 is 0 to 10 mm.

The UV lamps are arranged in a radiation lamp cover 51 . The ultraviolet lamp is a charging element and radiates short-wave sterilizing ultraviolet rays to the connecting surface of the indoor heat exchanger 3 . The distance b between the ultraviolet lamp and the left edge of the mounting plate 6 is the distance between the ultraviolet lamp and the left edge of the second plate portion 62, as shown in FIG. By limiting the distance to the element, it can serve to protect the charging element on the ultraviolet radiation device 5, and by increasing the size of the second plate part 62, the charging of the second plate part 62 can be prevented. The distance between the one end away from the element and the charging element was greater than the length of the test finger. Since the test finger cannot contact the charging element through the left edge of the mounting plate 6, the second plate part 62 can touch the UV lamp on the first plate part 61 during actual use. It is possible to restrict the user from being unable to do so, reduce the risk of electric shock, reduce safety hazards during use, and improve the safety of the indoor unit 100 .

In addition, the radiant lamp cover 51 is designed with an arc-shaped structure. When the UV lamp emits UV light, the structure of the lamp cover will refract the UV light, improve the UV radiation range, and increase the sterilization area. to improve the sterilization effect of the ultraviolet assembly 4.

As shown in FIG. 12, the team of inventors repeatedly designed and experimented, and found that the shortest distance a between the ultraviolet assembly 4 and the indoor heat exchanger 3 was optimally arranged at 0 to 10 mm. rice field. At this distance, the sterilization effect on the indoor heat exchangers 3 is good, the airflow of the indoor heat exchangers 3 is good, and the operation efficiency is high.

In some other embodiments, as shown in FIGS. 1 to 4, the housing 1 includes a face frame 2 and a mesh frame 9 detachably provided on the face frame 2, and the mesh frame 9 includes a filter A screen is provided and the UV assembly 4 is provided on the mesh frame 9 .

The mesh frame 9 is provided with a filter screen, which filters the airflow passing through the indoor heat exchanger 3 and captures contaminants such as dust with the filter screen, thereby improving the cleanliness of the indoor heat exchanger 3. can be improved, and the quality of the air flow discharged by the indoor heat exchanger 3 can be improved. The mesh frame 9 is detachably attached to the face frame 2, and the attachment and detachment of the ultraviolet assembly 4 is facilitated by providing the ultraviolet assembly 4 on the mesh frame 9 rather than providing the ultraviolet assembly 4 on the face frame 2. do.

In addition, in some embodiments of the present invention, the ultraviolet assembly 4 may be provided on the mesh frame 9, but those skilled in the art will clearly understand that the ultraviolet assembly 4 can be installed on the housing after reading the above technical proposal. It can be understood that mounting in other sub-regions of 1 and facing the indoor heat exchanger 3 with a gap is also included in the protection scope of the present invention.

In some embodiments, as shown in FIGS. 3 and 4, the ultraviolet assembly 4 is fixedly connected to the face frame 2 and secured to the housing 1 by fastening members 8 . The first plate portion 61 of the UV assembly 4 is provided with mounting through holes 42 . Mounting through holes are provided on the left end surface and the right end surface of the first plate portion 61, respectively. A mounting hole 210 is formed, and the fastening member 8 passes through the mounting through hole 42 and threads into the internal thread of the mounting hole 210 on the mounting post 21 .

Specifically, the fastening member 8 is a stud bolt that passes through the mounting through hole 42 on the ultraviolet assembly 4, enters the mounting post 21, and screws into the mounting hole 210 of the mounting post 21. to fixedly connect the UV assembly 4 to the housing 1 .

In some other specific embodiments, the fastening member 8 is a nut, the UV assembly 4 is provided with mounting through holes 42, and the housing 1 is provided with a A threaded mounting post 21 is provided to pass the mounting through hole 42 of the UV assembly 4 through the mounting post 21 and threaded onto the mounting post 21 with a nut to fixedly connect the UV assembly 4 to the face frame 2. do.

Specifically, as shown in FIGS. 5 and 9, the outer surface of the second side wall 673 of the first plate portion 61 contacts the housing 1, and the outer surface of the second side wall 673 extends longitudinally. The housing 1 is provided with a support surface 23 , the support surface 23 is provided with positioning ribs 22 that fit into the positioning grooves 41 , and the positioning ribs 22 are aligned with the positioning grooves 41 . is inserted into

After the UV assembly 4 is fixedly connected to the housing 1 by the fastening members 8 , the ends of the UV assembly 4 abut the support surface 23 . The support surface 23 serves to support and positionally limit the UV sterilization assembly, and the UV assembly 4 is provided with positioning ribs 22 on the support surface to mate with positioning grooves 41 on the end face of the UV assembly 4 . improve connection stability.

In some embodiments, as shown in FIGS. 2 and 12 , in the width direction of the air inlet 11 , the ultraviolet assembly 4 is adjacent to one end of the air inlet 11 closer to the rear side of the indoor unit 100 . During use, the UV assembly 4 is less likely to come into contact with the UV assembly 4, and the safety and operation stability of the UV assembly 4 can be improved.

An air conditioner according to an embodiment of the present invention includes any indoor unit 100 described above.

By providing the indoor unit 100, the air conditioner according to the embodiment of the present invention can improve the sterilization effect of the ultraviolet assembly 4 and extend the service life of the air conditioner without damaging the indoor heat exchanger 3. In addition, it is possible to reduce the obstruction to the flow of the air flow, increase the ventilation amount of the indoor heat exchanger 3, improve the operating efficiency of the air conditioner, and improve the comfort of use for the user. .

A specific embodiment of the indoor unit 100 of the present invention will be described in detail below with reference to FIGS. 1 to 12. FIG.

An indoor unit 100 according to an embodiment of the present invention includes a housing 1, an evaporator and an ultraviolet assembly 4, the housing 1 limits the mounting space, and the housing 1 is formed with an air inlet 11 and an air outlet 12. , the evaporator is provided in the mounting space, the evaporator includes longitudinal ends and a connection surface connected between the ends, the housing 1 includes a face frame 2 and a mesh frame 9, and the mesh The frame 9 is detachably attached to the face frame 2, the ultraviolet assembly 4 is provided on the mesh frame 9, and the ultraviolet assembly 4 faces the connection surface of the evaporator with a gap therebetween. The airflow enters through the air inlet 11 , passes through the indoor heat exchanger 3 , and exits through the air outlet 12 .

UV assembly 4 includes UV emitter 5 and mounting plate 6 . The ultraviolet radiation device 5 emits ultraviolet rays to the connection surface of the indoor heat exchanger 3, the mounting plate 6 is fixed to the face frame 2, and the mounting plate 6 includes a first plate portion 61 and a second plate portion 61 which are connected to each other. It comprises two plate portions 62, the first plate portion 61 having the UV radiation device 5 fixed thereto, and the second plate portion 62 having a plurality of 50 mm ² vent holes 7 provided therein.

The first plate portion 61 is provided with a housing cavity 67 for housing the ultraviolet radiation device 5. The housing cavity 67 has a support surface 671 for supporting the ultraviolet radiation device 5 and a Having a first side wall 672 and a second side wall 673 spaced apart, the first plate portion 61 is fixedly fixed to the ultraviolet radiation device 5 by a first engaging portion 63, One engaging part 63 includes a first snap 631 and a second snap 632 , the first snap 631 being located on the inner surface of the first side wall 672 and fixing the upper part of the ultraviolet radiation device 5 . , the second snap 632 is located on the inner surface of the second side wall 673 to fix the lower part of the ultraviolet radiation device 5, the second snaps 632 are two, and the force received by the ultraviolet radiation device 5 is It is made uniform, and the mounting stability of the ultraviolet radiation device 5 is improved. The second plate part 62 is further provided with an outlet groove 64, the outlet groove 64 is located above the accommodation cavity 67, and the ultraviolet radiation device 5 is provided with a harness 52 for transmitting electrical signals and control signals. The outlet groove 64 accommodates the harness 52 connected to the ultraviolet radiation device 5 , and the outlet groove 64 is provided with a second engaging portion 65 for engaging the harness 52 .

The UV radiation device 5 includes a PCB board 53 , a radiation lamp cover 51 and a UV lamp, the UV lamp being arranged on the radiation lamp cover 51 . The ultraviolet lamp radiates short-wave sterilizing ultraviolet rays to the connection surface of the indoor heat exchanger 3, the distance b between the ultraviolet lamp and the left edge of the mounting plate 6 is 40 mm to 53 mm, and the ultraviolet assembly 4 and the indoor heat exchanger 3 are separated. The shortest distance a between is 0 to 10 mm.

Mounting through holes 42 are provided on the left end surface and the right end surface of the first plate portion 61. The face frame 2 is provided with mounting posts 21 facing the mounting through holes 42, and the stud bolts are , enter the mounting post 21 and engage threads in mounting holes 210 on the mounting post 21 to fixedly connect the UV assembly 4 to the housing 1 . The outer surface of the second side wall of the first plate portion 61 is in contact with the housing and is provided with a positioning groove 41 extending in the left-right direction, and the housing 1 is provided with the support surface 23. , the support surface 23 is provided with a positioning rib 22 that fits into the positioning groove 41 .

Other configurations and operations of the indoor unit 100 according to the embodiment of the present invention, such as the indoor heat exchanger 3 and the filter screen, are well known to those skilled in the art and will not be described in detail here.

In the description herein, references to the terms "one embodiment," "some embodiments," "exemplary embodiments," "examples," "specific examples," or "some examples," etc. means that at least one embodiment or example of the present invention includes a specific feature, structure, material or feature described in combination with the embodiment or example. Exemplary descriptions of such terms in this specification do not necessarily refer to the same embodiment or example. Also, the specific features, structures, materials or characteristics described may be combined in any suitable manner in any one or more embodiments or examples.

Although embodiments of the present invention have been illustrated and described, those skilled in the art can make various changes, modifications, substitutions and alterations to these embodiments without departing from the principles and objectives of the invention. It should be understood that the scope of the invention is limited by the claims appended hereto and their equivalents.

DESCRIPTION OF SYMBOLS 100... Indoor unit, 1... Housing, 11... Intake port, 12... Exhaust port, 2... Face frame, 21... Mounting post, 210... Mounting hole, 22... Positioning rib, 23... Support surface, 3... Indoor heat exchange Unit 4 Ultraviolet assembly 41 Positioning groove 42 Mounting through hole 5 Ultraviolet radiation device 51 Radiation lamp cover 52 Harness 53 PCB board 6 Mounting plate 61 First plate Part 62... Second plate part 63... First engaging part 631... First snap 632... Second snap 64... Outlet groove 65... Second engaging part 66... Heat dissipation Apertures 67 Accommodating cavity 671 Support surface 672 First side wall 673 Second side wall 7 Ventilation hole 8 Fastening member 9 Mesh frame.

Claims (13)

a housing that limits the mounting space and has an intake port and an exhaust port;
an indoor heat exchanger provided in the mounting space and positioned between the air inlet and the air outlet;
an ultraviolet assembly fixed to the housing and positioned between the air inlet and the indoor heat exchanger and capable of irradiating the indoor heat exchanger with ultraviolet light;
An indoor unit characterized by: said ultraviolet assembly adjacent one longitudinal end of said inlet;
The ultraviolet assembly comprises:
an ultraviolet radiation device for irradiating the indoor heat exchanger with ultraviolet rays;
a mounting plate fixed to the housing, the mounting plate including a first plate portion and a second plate portion connected to each other;
The ultraviolet radiation device is fixed to the first plate portion, and the first plate portion is located between the second plate portion and one longitudinal end of the air inlet.
The indoor unit according to claim 1, characterized by: The second plate portion is formed with a vent hole having an area of 36 mm ² to 100 mm ² ,
The indoor unit according to claim 2, characterized by: The first plate portion is provided with a housing cavity for housing the ultraviolet radiation device, and the housing cavity is spaced apart from a support surface for supporting the ultraviolet radiation device. a side wall and a second side wall, the support surface being connected to the first side wall and the second side wall, respectively;
The indoor unit according to claim 2, characterized by: The first plate portion is provided with a first engaging portion that engages with the ultraviolet radiation device,
the first engaging portion is provided on the inner surface of the first side wall and engages a first side of the surface of the ultraviolet radiation device facing the indoor heat exchanger; a second snap provided on the inner surface of a second sidewall for engaging a second side of the indoor heat exchanger facing surface of the ultraviolet radiation device;
The indoor unit according to claim 4, characterized in that: The support surface is formed with a heat dissipation hole that communicates the internal space of the accommodation cavity with the outside world.
The indoor unit according to claim 4, characterized in that: The mounting plate further includes an outlet groove for receiving a harness connected to the ultraviolet radiation device, the outlet groove is further provided with a second engaging portion for engaging the harness, and the outlet groove is , located between the first plate portion and one longitudinal end of the inlet;
The indoor unit according to claim 2, characterized by: The ultraviolet radiation device comprises an ultraviolet lamp, the distance between the ultraviolet lamp and the end of the second plate portion remote from the first plate portion is between 40 mm and 53 mm, and the ultraviolet assembly and The shortest distance between the indoor heat exchanger is 0 to 10 mm,
The indoor unit according to claim 2, characterized by: The housing includes a face frame and a mesh frame detachably attached to the face frame, the mesh frame is provided with a filter screen, and the ultraviolet assembly is provided on the mesh frame.
The indoor unit according to claim 2, characterized by: the ultraviolet assembly is fixed to the face frame by a fastening member;
Mounting through holes are provided at both ends of the first plate portion in the longitudinal direction, mounting posts corresponding to the mounting through holes are provided on the face frame, and mounting holes are provided on top of the mounting posts. is formed, and the fastening member passes through the mounting through hole and is inserted into the mounting hole of the mounting post.
The indoor unit according to claim 9, characterized by: The outer surface of the second side wall of the first plate portion is in contact with the housing, and the outer surface of the second side wall is provided with a positioning groove extending in the longitudinal direction. is provided with a positioning rib that is inserted into the positioning groove,
The indoor unit according to claim 4, characterized in that: In the width direction of the air inlet, the ultraviolet assembly is adjacent to one end of the air inlet near the rear side of the indoor unit,
The indoor unit according to claim 1, characterized by: an air conditioner,
Including the indoor unit according to any one of claims 1 to 12,
An air conditioner characterized by:

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