CN221197657U - Bottom frame structure for wall-mounted air conditioner indoor unit - Google Patents

Abstract

The utility model relates to the technical field of air conditioners, in particular to a bottom frame structure for an indoor unit of a wall-mounted air conditioner, which comprises a bottom frame, wherein an upper water channel and a lower water channel are arranged outside the bottom frame, a first water inlet through hole, a second water inlet through hole and a water outlet through hole which penetrate through the outside and the inside of the bottom frame are formed in the bottom frame, a first water retaining and guiding side plate is arranged inside the bottom frame, the upper end of the first water retaining and guiding side plate is positioned at the water outlet end of the first water inlet through hole, the upper end of the first water retaining and guiding side plate is positioned at the left side of the water outlet end of the first water inlet through hole, and the lower end of the first water retaining and guiding side plate is positioned at the water inlet end of the water outlet through hole. The first water retaining and guiding side plate is arranged between the first water inlet through hole, the second water inlet through hole and the left side wall of the bottom frame, and the first water retaining and guiding side plate plays a role in guiding condensed water, so that the possibility of direct contact between the condensed water and the left side wall of the bottom frame is also blocked, and the possibility of condensation water on the side wall of the bottom frame is effectively reduced.

Description

Bottom frame structure for wall-mounted air conditioner indoor unit

Technical Field

The utility model relates to the technical field of air conditioners, in particular to a bottom frame structure for an indoor unit of a wall-mounted air conditioner.

Background

The indoor unit of wall-hanging air conditioner is under the refrigerated operating mode, and refrigerant carries out heat exchange with outside air, and the air liquefies into little drop of water, produces the comdenstion water, so design drainage channel with indoor set inside, outside comdenstion water drain to the drain hose discharge outdoor through drainage channel. At present, the underframe structure of wall-mounted air conditioner indoor unit commonly used includes the underframe, the outside of underframe is provided with upper water course, the lower floor's water course, upper water course is located the top of lower floor's water course, be provided with in the underframe and run through its outside and inside first inlet port, second inlet port and drainage through-hole, upper water course is linked together with the inlet end of first inlet port, the lower floor's water course is linked together with the inlet end of second inlet port, first inlet port outlet end is located the second inlet port outlet end directly over, second inlet port outlet end is located the top of drainage through-hole inlet end, upper water course is linked together with the drainage through-hole through first inlet port, the bottom internal surface of underframe, the lower floor's water course is linked together with the drainage through-hole through the bottom internal surface of second inlet port, the underframe. That is, condensed water generated outside the bottom frame is drained to the drain hose to be discharged outside through the upper water course, the first water inlet through hole, the bottom inner surface of the bottom frame and the drain through hole; or is drained to the outside of the drainage hose through the sewer, the second water inlet through hole, the bottom inner surface of the bottom frame and the drainage through hole. Therefore, the outside comdenstion water of underframe gets into the underframe inside from the underframe outside through the inlet opening earlier, and rethread drain channel is from inside drainage to outside drain hose, because the water channel of comdenstion water inside the underframe is the bottom internal surface of underframe, and drain channel is usually close to the left side wall setting of underframe, when leading to the comdenstion water to pass through the underframe inside, the comdenstion water is very close to the left side wall of underframe, and then can condense certain condensation water in the inside and outside of underframe left side wall after a certain time, influences the use of air conditioner.

Disclosure of utility model

The utility model solves the technical problem of providing a bottom frame structure for a wall-mounted air conditioner indoor unit, which has a simple structure and can reduce the possibility of condensation water on the side wall.

The technical scheme adopted for solving the technical problems is as follows: a underframe structure for wall-hanging air conditioning indoor set, including the underframe, the outside of underframe is provided with upper water course, the lower floor's water course, upper water course is located the top of lower floor's water course, be provided with in the underframe and run through its outside and inside first inlet port, second inlet port and drainage through-hole, upper water course is linked together with the inlet end of first inlet port, the lower floor's water course is linked together with the inlet end of second inlet port, first inlet port outlet end is located the top of second inlet port outlet end, second inlet port outlet end is located the top of drainage through-hole inlet end, upper water course is linked together with drainage through-hole through first inlet port, the lower floor's water course is linked together with drainage through the bottom internal surface of second inlet port, the bottom internal surface of underframe, still include first manger plate curb plate, first manger plate setting is in the inside of underframe, first manger plate curb plate upper end is located first inlet port outlet end department, first inlet port upper end is located first inlet port outlet end, first inlet port upper end is located left water baffle plate outlet end is located left water baffle.

Further, the upper water channel is obliquely arranged, and one end, communicated with the water inlet end of the first water inlet through hole, of the upper water channel is an oblique lower end.

Further, the sewer is obliquely arranged, and one end, communicated with the water inlet end of the second water inlet through hole, of the sewer is an oblique lower end.

Further, the left side of the first water retaining and guiding side plate is provided with a second water retaining and guiding side plate, a water guide groove is formed between the first water retaining and guiding side plate and the second water retaining and guiding side plate, and the water guide groove is communicated with the water drainage through hole.

Further, a third water inlet through hole is arranged beside the first water inlet through hole, a fourth water inlet through hole is arranged beside the second water inlet through hole, and the third water inlet through hole and the fourth water inlet through hole are communicated with the water guide groove.

Further, the first water retaining and guiding side plates and the second water retaining and guiding side plates are made of plastics.

Further, the underframe, the first water retaining and guiding side plate and the second water retaining and guiding side plate are of an integrated structure.

The beneficial effects of the utility model are as follows: through being provided with first manger plate water guide curb plate, first manger plate water guide curb plate sets up in the inside of underframe, and first manger plate water guide curb plate upper end is located first inlet port water outlet end department, and first manger plate water guide curb plate upper end is located the left side of first inlet port water outlet end, and first manger plate water guide curb plate lower extreme is located drainage through-hole water inlet end department. The first water retaining and guiding side plate is arranged between the first water inlet through hole, the second water inlet through hole and the left side wall of the bottom frame, and the first water retaining and guiding side plate plays a role in guiding condensed water, so that the possibility of direct contact between the condensed water and the left side wall of the bottom frame is also blocked, and the possibility of condensation water on the side wall of the bottom frame is effectively reduced.

Drawings

FIG. 1 is an external schematic view of a base frame structure of the present utility model;

FIG. 2 is a schematic view of the inside of the bottom frame structure of the present utility model;

FIG. 3 is a schematic cross-sectional view of the first and second water inlet holes;

The marking is as follows: the water diversion device comprises a bottom frame 1, a upper water course 2, a lower water course 3, a first water inlet through hole 4, a second water inlet through hole 5, a first water retaining and guiding side plate 6, a second water retaining and guiding side plate 7, a water guiding groove 8, a third water inlet through hole 9 and a fourth water inlet through hole 10 and a water outlet through hole 11.

Detailed Description

The utility model is further described below with reference to the drawings and the detailed description.

The component orientations are referenced below with respect to the component orientations shown in fig. 2.

As shown in fig. 1 to 3, the bottom frame structure for a wall-mounted air conditioner indoor unit of the present utility model comprises a bottom frame 1, wherein an upper water channel 2 and a lower water channel 3 are arranged outside the bottom frame 1, the upper water channel 2 is positioned above the lower water channel 3, a first water inlet through hole 4 penetrating the outside and the inside of the bottom frame 1, a second water inlet through hole 5 and a water discharge through hole 11 are arranged in the bottom frame 1, the upper water channel 2 is communicated with the water inlet end of the first water inlet through hole 4, the lower water channel 3 is communicated with the water inlet end of the second water inlet through hole 5, the water outlet end of the first water inlet through hole 4 is positioned right above the water outlet end of the second water inlet through hole 5, the water outlet end of the second water inlet through hole 5 is positioned above the water inlet end of the water discharge through hole 11, the upper water channel 2 is communicated with the water discharge through hole 11 through the first water inlet through hole 4, the lower water channel 3 is communicated with the water discharge through the second water inlet through hole 5, the bottom inner surface of the bottom frame 1 and the water discharge through hole 11, a first water guide plate 6 is arranged at the water inlet end of the water guide plate 6, the water guide plate 6 is positioned at the water inlet end of the water guide plate 6 at the water inlet side of the first water guide plate 6, and the water guide plate is positioned at the water inlet end of the water guide plate 6.

With the illustration of fig. 2, first water inlet hole 4, second water inlet hole 5 and drainage through hole 11 all set up in the left side of underframe 1, and the comdenstion water is close to the left side wall of underframe 1 when inside through underframe 1, through being provided with first manger plate water guide side board 6 between first water inlet hole 4, second water inlet hole 5 and the left side wall of underframe 1, first manger plate water guide side board 6 plays the water conservancy diversion effect to the comdenstion water, has also blockked the possibility that comdenstion water and the left side wall direct contact of underframe 1, has reduced the possibility that the underframe 1 lateral wall condensed dew effectively.

In order to facilitate the flow of condensed water, the upper water course 2 is obliquely arranged, and one end of the upper water course 2 communicated with the water inlet end of the first water inlet through hole 4 is an oblique lower end. Furthermore, the sewer 3 is inclined, and one end of the sewer 3 communicated with the water inlet end of the second water inlet through hole 5 is an inclined lower end.

When the wall-mounted air conditioner indoor unit adopting the bottom frame structure operates, as shown in fig. 3, the dotted line in fig. 3 is the drainage flow direction of the condensed water. Because the first water retaining and guiding side plate 6 plays a role in guiding the condensed water, the first water retaining and guiding side plate 6 and the condensed water can be in direct contact necessarily, after a certain time, certain condensed water can be condensed on the left side wall of the first water retaining and guiding side plate 6, in order to reduce the influence of the condensed water on an air conditioner, a second water retaining and guiding side plate 7 is arranged on the left side of the first water retaining and guiding side plate 6 as shown in fig. 2, a water guiding groove 8 is formed between the first water retaining and guiding side plate 6 and the second water retaining and guiding side plate 7, and the water guiding groove 8 is communicated with a water draining through hole 11. The arrangement is such that the condensed water condensed on the left side wall of the first water retaining and guiding side plate 6 is drained from the drainage through hole 11 along the water guiding groove 8, and the second water retaining and guiding side plate 7 also further blocks the possibility that the condensed water is in direct contact with the left side wall of the bottom frame 1, so that the possibility that the condensed water is condensed on the side wall of the bottom frame 1 is further reduced.

As shown in fig. 1, a third water inlet through hole 9 is arranged beside the first water inlet through hole 4, a fourth water inlet through hole 10 is arranged beside the second water inlet through hole 5, the upper water course 2 is communicated with the water inlet end of the third water inlet through hole 9, the lower water course 3 is communicated with the water inlet end of the fourth water inlet through hole 10, and the third water inlet through hole 9, the fourth water inlet through hole 10 are communicated with the water guide groove 8. When a large amount of condensed water is generated outside the bottom frame 1, the water can be discharged from the first water inlet through hole 4 and the second water inlet through hole 5, and also can be discharged from the third water inlet through hole 9, the fourth water inlet through hole 10 and the water guide groove 8, so that the water discharge capacity of the air conditioner is improved.

The first water retaining and guiding side plate 6 and the second water retaining and guiding side plate 7 are preferably square in shape and made of plastics. For the processing of being convenient for, underframe 1, first manger plate water guide side board 6, second manger plate water guide curb plate are integrated into one piece structure, set up like this and strengthen the part of underframe, improve the reliability in use.

Claims (7)

1. A underframe structure for wall-hanging air conditioner indoor set, including underframe (1), the outside of underframe (1) is provided with upper water course (2), lower floor's water course (3), upper water course (2) are located the top of lower floor's water course (3), be provided with in underframe (1) and run through its outside and inside first through-hole (4) that intakes, second through-hole (5) and drainage through-hole (11), upper water course (2) are linked together with the inlet end of first through-hole (4), lower floor's water course (3) are linked together with the inlet end of second through-hole (5), first through-hole (4) play water end is located the top of second through-hole (5) play water end, second through-hole (5) play water end is located the top of drainage through-hole (11) play water end, upper water course (2) are linked together with drainage through-hole (11) through first through-hole (4), the bottom internal surface of underframe (1), lower water course (3) are linked together with the bottom of drainage through-hole (11) through second through-hole (5), the bottom of bottom (1), characterized in that drainage through-hole (11). Still include first manger plate water guide side board (6), first manger plate water guide side board (6) set up in the inside of underframe (1), first manger plate water guide side board (6) upper end is located first water inlet hole (4) play water end department, first manger plate water guide side board (6) upper end is located the left side of first water inlet hole (4) play water end, first manger plate water guide side board (6) lower extreme is located drainage through-hole (11) water inlet end department.

2. The base frame structure for an indoor unit of a wall-mounted air conditioner as set forth in claim 1, wherein: the upper water channel (2) is obliquely arranged, and one end of the upper water channel (2) communicated with the water inlet end of the first water inlet through hole (4) is an oblique lower end.

3. The base frame structure for an indoor unit of a wall-mounted air conditioner as set forth in claim 1, wherein: the sewer (3) is obliquely arranged, and one end of the sewer (3) communicated with the water inlet end of the second water inlet through hole (5) is an oblique lower end.

4. A base frame structure for an indoor unit of a wall-mounted air conditioner as set forth in any one of claims 1 to 3, wherein: the left side of first manger plate water guide side board (6) is provided with second manger plate water guide side board (7), forms guiding gutter (8) between first manger plate water guide side board (6) and second manger plate water guide side board (7), and guiding gutter (8) are linked together with drainage through-hole (11).

5. The base frame structure for an indoor unit of a wall-mounted air conditioner as set forth in claim 4, wherein: a third water inlet through hole (9) is arranged beside the first water inlet through hole (4), a fourth water inlet through hole (10) is arranged beside the second water inlet through hole (5), and the third water inlet through hole (9) and the fourth water inlet through hole (10) are communicated with the water guide groove (8).

6. The base frame structure for an indoor unit of a wall-mounted air conditioner as set forth in claim 4, wherein: the first water retaining and guiding side plate (6) and the second water retaining and guiding side plate (7) are made of plastics.

7. The base frame structure for an indoor unit of a wall-mounted air conditioner as set forth in claim 6, wherein: the bottom frame (1), the first water retaining and guiding side plate (6) and the second water retaining and guiding side plate (7) are of an integrated structure.