CN106765597B

CN106765597B - Air conditioner wall-mounted unit and air conditioner

Info

Publication number: CN106765597B
Application number: CN201710041646.8A
Authority: CN
Inventors: 汪先送; 覃强
Original assignee: Midea Group Co Ltd; GD Midea Air Conditioning Equipment Co Ltd
Current assignee: Midea Group Co Ltd; GD Midea Air Conditioning Equipment Co Ltd
Priority date: 2017-01-18
Filing date: 2017-01-18
Publication date: 2022-08-26
Anticipated expiration: 2037-01-18
Also published as: CN106765597A

Abstract

The invention discloses an air conditioner wall hanging machine and an air conditioner, wherein the air conditioner wall hanging machine comprises a back frame, the back frame comprises a back wall body and two side plates extending forwards from two ends of the back wall body, sliding groove structures are respectively arranged on the opposite inner wall surfaces of the two side plates, and the sliding groove structures are linearly extended from the upper side to the front lower side; the heat exchanger is positioned between the two side plates and is adjacent to the rear wall body, and the heat exchanger is enclosed to form a downward flaring; the volute is arranged below the heat exchanger, an air inlet connected with the flaring is formed in the upper part of the volute, and an air outlet is formed in the lower part of the volute; and sliding convex structures which are in sliding fit with the sliding groove structures are arranged at the left end part and the right end part of the volute. The technical scheme of the invention can improve the installation efficiency of the volute in the wall-mounted air conditioner.

Description

Air conditioner wall-mounted unit and air conditioner

Technical Field

The invention relates to the field of air conditioners, in particular to an air conditioner wall-mounted unit and an air conditioner.

Background

In order to facilitate maintenance or cleaning of the volute in the wall-mounted air conditioner, the volute is generally detachably connected with the shell of the wall-mounted air conditioner. However, when the volute is installed in the prior art, because the process of installing the volute is not well standardized, when the volute is installed, the position of the volute is prone to be deviated from the preset position, so that the installation position of the volute needs to be adjusted for many times, and the adjustment process will inevitably reduce the installation efficiency of the volute.

Disclosure of Invention

The invention mainly aims to provide an air conditioner wall-mounted unit, and aims to solve the problem that the volute in the air conditioner wall-mounted unit is low in installation efficiency.

To achieve the above object, the present invention provides an air conditioner wall-mounted unit, comprising:

the back frame comprises a back wall body and two side plates extending forwards from two ends of the back wall body, wherein sliding groove structures are respectively arranged on the inner wall surfaces of the two side plates, which are opposite to each other, and the sliding groove structures are linearly extended from the upper side to the lower side;

the heat exchanger is positioned between the two side plates and is close to the rear wall body, and the heat exchanger is enclosed to form a downward flaring;

the volute is arranged below the heat exchanger, an air inlet connected with the flaring is formed in the upper part of the volute, and an air outlet is formed in the lower part of the volute; and sliding convex structures which are in sliding fit with the sliding groove structures are arranged at the left end part and the right end part of the volute.

Preferably, the chute structure comprises a first chute and a second chute parallel to the first chute; the sliding convex structure comprises a first sliding shaft and a second sliding shaft, wherein the axis of the second sliding shaft deviates from the first sliding shaft, the first sliding shaft is in sliding fit with the first sliding groove, and the second sliding shaft is in sliding fit with the second sliding groove.

Preferably, the first sliding groove is formed at a groove bottom of the second sliding groove, and the first sliding shaft penetrates through the second sliding groove along a depth direction of the second sliding groove and is in sliding fit with the first sliding groove.

Preferably, one end of the first sliding shaft, which is far away from the volute, is provided with a first roller which is in rolling fit with the first sliding groove, and one end of the second sliding shaft, which is far away from the volute, is provided with a second roller which is in rolling fit with the second sliding groove.

Preferably, a limiting rib is formed at the position, adjacent to the edge of the volute, of the two second sliding grooves, the limiting rib extends towards the groove of the second sliding groove along the width direction of the second sliding groove, and the second roller is abutted to the inner wall surface of the limiting rib.

Preferably, the groove widths of the inlets at the front lower sides of the first sliding groove and the second sliding groove are gradually enlarged from top to bottom.

Preferably, a guide inclined plane is formed on the wall surface of the front groove at the front lower side inlet of the first sliding groove and the second sliding groove, and the included angle between the guide inclined plane and the extending direction of the first sliding groove or the second sliding groove is [3 degrees, 10 degrees ].

Preferably, the extending direction of the chute structure forms an angle with the vertical direction in the range of [10 degrees, 45 degrees ].

Preferably, the inner wall surfaces of the two side plates are provided with buckles at positions close to the rear upper ends of the sliding chute structures, and the left end and the right end of the volute are provided with buckle grooves for clamping the buckles.

The invention also provides an air conditioner, which comprises an air conditioner outdoor unit and an air conditioner wall hanging machine, wherein the air conditioner wall hanging machine comprises a back frame and a back frame, the back frame comprises a back wall body and two side plates extending forwards from two ends of the back wall body, sliding groove structures are respectively arranged on the inner wall surfaces opposite to the two side plates, and the sliding groove structures are linearly extended from the upper side to the lower side; the heat exchanger is positioned between the two side plates and is close to the rear wall body, and the heat exchanger is enclosed to form a downward flaring; the volute is arranged below the heat exchanger, an air inlet connected with the flaring is formed in the upper part of the volute, and an air outlet is formed in the lower part of the volute; and sliding convex structures which are in sliding fit with the sliding groove structures are arranged at the left end part and the right end part of the volute.

According to the technical scheme, the sliding groove structures are respectively arranged on the inner wall surfaces opposite to the two side plates, the sliding convex structures in sliding fit with the sliding groove structures are arranged at the left end part and the right end part of the volute, and the sliding groove structures extend linearly from the upper part to the front lower part, so that the volute can slide from the inlet at the front lower end of the oblique line type sliding groove structure to the rear upper end of the sliding groove structure, and the mounting and positioning of the volute can be quickly realized. Because the sliding groove is linear, compared with a curved sliding groove, the step of turning when the volute is installed can be avoided, and the installation efficiency of the volute is greatly improved; meanwhile, when the chute structure is manufactured through a mold, for example, through injection molding, the linear chute structure can facilitate demolding of the mold relative to the curved chute structure.

Drawings

In order to more clearly illustrate the embodiments or technical solutions of the present invention, the drawings used in the embodiments or technical solutions of the prior art will be briefly described below, it is obvious that the drawings in the following description are only some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to the structures shown in the drawings without creative efforts.

FIG. 1 is a left side view of an air conditioning wall unit of the present invention;

FIG. 2 is a schematic view of the air conditioner wall mount of FIG. 1 at another angle;

FIG. 3 is an enlarged view of a portion of FIG. 2 at A;

FIG. 4 is a schematic view of a structure of the air-conditioning wall-mounted unit of FIG. 2 in which a volute casing is matched with a motor wind wheel;

FIG. 5 is a partial enlarged view of the portion B in FIG. 4;

FIG. 6 is a schematic structural diagram of the back frame of FIG. 2;

fig. 7 is a partial enlarged view at C in fig. 6.

The reference numbers indicate:

reference numerals	Name(s)	Reference numerals	Name (R)
				10	Back frame	11	Rear wall body
12	Side plate	121	Sliding chute structure
				1211	First chute	1212	Second chute
12121	Limiting flange	122	Buckle
				1221	Connecting part	1222	Elastic arm
1223	Fastening head	123	Receiving hole
				20	Heat exchanger	30	Spiral casing
31	Smooth convex structure	311	First sliding shaft
				3111	First roller	312	Second sliding shaft
3121	Second roller	32	Catching groove
				40	Motor wind wheel

The implementation, functional features and advantages of the objects of the present invention will be further explained with reference to the accompanying drawings.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

It should be noted that, if directional indications (such as up, down, left, right, front, and back … …) are involved in the embodiment of the present invention, the directional indications are only used to explain the relative positional relationship between the components, the movement situation, and the like in a specific posture (as shown in the drawing), and if the specific posture is changed, the directional indications are changed accordingly.

In addition, if there is a description of "first", "second", etc. in an embodiment of the present invention, the description of "first", "second", etc. is for descriptive purposes only and is not to be construed as indicating or implying relative importance or implicitly indicating the number of technical features indicated. Thus, a feature defined as "first" or "second" may explicitly or implicitly include at least one such feature. In addition, technical solutions between various embodiments may be combined with each other, but must be realized by a person skilled in the art, and when the technical solutions are contradictory or cannot be realized, such a combination should not be considered to exist, and is not within the protection scope of the present invention.

The invention provides an air conditioner wall-mounted unit.

In an embodiment of the present invention, as shown in fig. 1 to 5, the wall hanging machine for air conditioner includes:

the back frame 10 comprises a rear wall body 11 and two side plates 12 extending forwards from two ends of the rear wall body 11, wherein the inner wall surfaces of the two side plates 12 opposite to each other are respectively provided with a sliding groove structure 121, and the sliding groove structures 121 are linearly extended from the upper part to the front lower part;

the heat exchanger 20 is positioned between the two side plates 12 and is adjacent to the rear wall body 11, and the heat exchanger 20 is enclosed to form a downward flaring;

the volute 30 is arranged below the heat exchanger 20, an air inlet connected with the flaring is formed at the upper part of the volute 30, and an air outlet is formed at the lower part of the volute; the left and right ends of the volute 30 are provided with a sliding convex structure 31 which is in sliding fit with the sliding groove structure 121.

Wherein, the front lower end of the sliding chute structure 121 is formed with an inlet for inserting the sliding convex structure 31; an air inlet grille can be arranged at the upper end of the back frame 10; the volute 30 is provided with a motor wind wheel 40 with wind guiding function; the heat exchanger 20 and the volute 30 can be connected by screws to enhance the stability of the installation of the heat exchanger 20 and the volute 30.

The left and right directions in the present invention refer to the perspective of the air conditioner wall-mounted unit after the air conditioner wall-mounted unit is placed in the working position, and similarly, the descriptions of other major directions in the embodiments of the present invention, such as the front and rear directions, are described in terms of the main perspective of the air conditioner wall-mounted unit, and the front, rear, left and right directions are relative and not absolute positive directions, such as front and rear.

According to the technical scheme, the sliding groove structures 121 are respectively arranged on the inner wall surfaces of the two opposite side plates 12, the sliding convex structures 31 in sliding fit with the sliding groove structures 121 are arranged at the left end portion and the right end portion of the volute 30, and the sliding groove structures 121 extend linearly from the upper side to the lower side, so that the volute 30 can slide from the inlet at the front lower end of the oblique sliding groove structure 121 to the rear upper end of the sliding groove structure 121, and the installation and the positioning of the volute 30 are rapidly realized. Because the sliding groove is linear, compared with a curved sliding groove, the step of turning when the volute 30 is installed can be avoided, and the installation efficiency of the volute 30 is greatly improved; meanwhile, when the chute structure 121 is manufactured by a mold, for example, by injection molding, the linear chute structure 121 can facilitate demolding of the mold relative to the curved chute structure 121.

As shown in fig. 3 and 5, further, in order to ensure the stability of the installation of the volute 30 and avoid the problem of the volute 30 shaking during the installation, the chute structure 121 is provided with a first chute 1211 and a second chute 1212 parallel to the first chute 1211; the slide-convex structure 31 includes a first slide shaft 311 and a second slide shaft 312 having an axis offset from the first slide shaft 311, the first slide shaft 311 is slidably engaged with the first slide groove 1211, and the second slide shaft 312 is slidably engaged with the second slide groove 1212. Thus, when the first slide shaft 311 and the second slide shaft 312, which are arranged with their axes offset, are engaged with the first chute 1211 and the second chute 1212, when one of the slide shafts (one of the first slide shaft 311 and the second slide shaft 312) tends to rotate, the other slide shaft (the other of the first slide shaft 311 and the second slide shaft 312) abuts against the side wall of the chute structure 121, so that the problem that the volute casing 30 is unstable in positioning and sways during installation can be effectively avoided.

Further, as shown in fig. 1 to 5, in order to simplify the matching structure between the sliding groove structure 121 and the sliding protrusion structure 31, a first sliding groove 1211 is formed at the bottom of a second sliding groove 1212, and the first sliding shaft 311 passes through the second sliding groove 1212 along the depth direction of the second sliding groove 1212 and is in sliding fit with the first sliding groove 1211, that is, the first sliding groove 1211 and the second sliding groove 1212 are arranged in a left-right direction in a communicating manner, so that the first sliding groove 1211 and the second sliding groove 1212 are prevented from being arranged separately and occupying too much wall hanging space, that is, the present solution can improve the compactness of the air conditioner structure; meanwhile, the structure can facilitate the manufacture of the first sliding chute 1211 and the second sliding chute 1212, specifically, the larger second sliding chute 1212 is manufactured first, and then the first sliding chute 1211 is arranged at the bottom of the second sliding chute 1212. First sliding shaft 311 and second sliding shaft 312 may be disposed at a certain distance, and first sliding shaft 311 may also be disposed to protrude from an end surface of second sliding shaft 312.

In other embodiments of the present invention, the first chute 1211 and the second chute 1212 may be spaced apart and remain in parallel.

As shown in fig. 4 and 5, in order to reduce the friction force when the sliding protrusion structure 31 slides in the sliding groove structure 121, a roller slidably engaged with the sliding groove structure 121 may be disposed at an end of the sliding protrusion structure 31 away from the scroll casing 30, so that the friction force during sliding may be effectively reduced, thereby improving the installation efficiency of the scroll casing 30. Specifically, as shown in fig. 5, a first roller 3111 engaged with the first sliding slot 1211 may be disposed on the first sliding shaft 311, and a second roller 3121 engaged with the second sliding slot 1212 may be disposed on the second sliding shaft 312.

As shown in fig. 3 to 6, in order to prevent the second roller 3121 from being separated from the second sliding groove 1212 when sliding in the second sliding groove 1212, two second sliding grooves 1212 are provided adjacent to the edge of the scroll casing 30 to form a limiting rib 12121, the limiting rib 12121 extends into the groove of the second sliding groove 1212 in the width direction of the second sliding groove 1212, and the second roller 3121 abuts against the inner wall surface of the limiting rib 12121. Thus, when the second roller 3121 slides into the second sliding groove 1212 from the entrance of the front lower end of the second sliding groove 1212, the stop rib 12121 can prevent the second roller 3121 from coming out of the second sliding groove 1212, and at the same time, the second roller 3121 is outside the first roller 3111, so that the first roller 3111 is restricted from coming out of the first sliding groove 1211. Similarly, in other embodiments of the present invention, a limit rib may be formed at the edge of the first chute 1211 adjacent to the volute 30, and the problem that the sliding protrusion 31 is disengaged from the chute structure 121 may also be prevented.

As shown in fig. 1, when the sliding-protrusion structure 31 is inserted from the inlet at the front lower end of the chute structure 121, in order to facilitate the alignment of the sliding-protrusion structure 31 and the inlet at the front lower end of the chute structure 121 in the initial stage, the widths of the inlets at the front lower sides of the first chute 1211 and the second chute 1212 may be set to be gradually enlarged from top to bottom, that is, the front lower end of the chute structure 121 is in a horn shape, so that the sliding-protrusion structure 31 may be conveniently introduced into the chute structure 121, thereby improving the installation efficiency of the volute 30.

Specifically, a guide inclined surface may be formed on a front groove wall surface at the front lower inlet of the first chute 1211 and the second chute 1212, an included angle between the guide inclined surface and the extending direction of the first chute 1211 or the second chute 1212 is b, and a value range of b is [3 °,10 ° ]. Of course, the guide slope may be provided on the rear groove wall surface of the chute structure 121, or the guide slope may be provided on both the rear groove wall surface and the front groove wall surface of the chute structure 121.

Since the guiding inclined plane is disposed on the rear side wall surface of the sliding groove structure 121, a certain gap must be provided between the rear wall body 11 of the back frame 10 and the spiral case 30 to ensure that the spiral case 30 is disposed at a position close to the rear wall body 11 of the back frame 10 when the spiral case 30 is mounted, so that the sliding protrusion structure 31 abuts against the guiding inclined plane of the rear side wall surface, and the gap mentioned above is still left empty after the spiral case 30 is mounted, which results in space waste. Therefore, in this embodiment, the guide slope is preferably provided on the front side wall surface of the chute structure 121.

In the invention, as shown in fig. 1, the included angle range between the extending direction of the chute structure 121 and the vertical direction is a, and the value range of a is [10 degrees, 45 degrees ], and the included angle range can reasonably match the preset position of the volute 30 mounted in the wall-mounted air conditioner, so that the structure compactness of the wall-mounted air conditioner is ensured.

As shown in fig. 4, 6 and 7, in order to facilitate the fixed connection between the volute 30 and the back frame 10, a buckle 122 may be disposed at the rear upper end of the inner wall surfaces of the two side plates 12 adjacent to the sliding groove structure 121, and a buckle groove 32 for the buckle 122 to buckle is disposed at the left end and the right end of the volute 30, so that the back frame 10 can be fixed when the volute 30 is installed in place.

Specifically, the buckle 122 may be an elastic buckle, the elastic buckle includes a connecting portion 1221, an elastic arm 1222, and a buckle head 1223, the connecting portion 1221 is connected to the side plate 12 and has a protruding end (not labeled) protruding from an inner wall surface of the side plate 12, the elastic arm 1222 extends in an up-down direction, a lower end of the elastic arm 1222 is connected to the protruding end, an upper end of the elastic arm 1222 is connected to the buckle head 1223, the buckle head 1223 extends in a direction away from the inner wall surface of the side plate 12, and a receiving groove or a receiving hole 123 is formed at a position of the two side plates 12 corresponding to the elastic arm 1222 and the buckle head 1223; when the sliding protrusion structure 31 slides to the upper rear end of the sliding slot structure 121, the fastening head 1223 is fastened into the fastening slot 32. Therefore, when the sliding-protrusion structure 31 on the volute casing 30 is to slide in place along the sliding-groove structure 121, two side walls of the volute casing 30 will abut against the fastening head 1223 first, the fastening head 1223 will drive the elastic arm 1222 to move towards the accommodating groove or the accommodating hole 123 after being stressed, and when the sliding-protrusion structure 31 continues to slide towards the rear upper end of the sliding-groove structure 121, the fastening groove 32 on the volute casing 30 will be fastened with the fastening head 1223, that is, the installation of the volute casing 30 is finally achieved. In order to enhance the connection strength between the connection portion 1221 and the scroll casing 30, the connection portion 1221 may include a plurality of plate-shaped structures arranged at intervals, and end faces of the plate-shaped structures are connected to the scroll casing 30, and at this time, the plate-shaped structures function as reinforcing ribs.

The present invention further provides an air conditioner, which includes an outdoor unit and a wall-mounted unit, and the specific structure of the wall-mounted unit is as described in the foregoing embodiments.

The above description is only a preferred embodiment of the present invention, and not intended to limit the scope of the present invention, and all modifications and equivalents of the present invention, which are made by the contents of the present specification and the accompanying drawings, or directly/indirectly applied to other related technical fields, are included in the scope of the present invention.

Claims

1. An air conditioning wall unit, comprising:

the volute is arranged below the heat exchanger, an air inlet connected with the flaring is formed at the upper part of the volute, and an air outlet is formed at the lower part of the volute; the left end part and the right end part of the volute are provided with sliding convex structures which are in sliding fit with the sliding groove structures;

the back frame is provided with an opening, and the sliding groove structure is positioned on the front side of the opening;

the sliding groove structure comprises a first sliding groove and a second sliding groove parallel to the first sliding groove; the sliding convex structure comprises a first sliding shaft and a second sliding shaft of which the axis deviates from the first sliding shaft, the first sliding shaft is in sliding fit with the first sliding groove, and the second sliding shaft is in sliding fit with the second sliding groove;

the first sliding chute is formed at the bottom of the second sliding chute, and the first sliding shaft penetrates through the second sliding chute along the depth direction of the second sliding chute and is in sliding fit with the first sliding chute.

2. An air conditioner wall-mounted unit as defined in claim 1, wherein said first end of said first slide shaft remote from said volute housing is provided with a first roller for rolling engagement with said first runner, and said second end of said second slide shaft remote from said volute housing is provided with a second roller for rolling engagement with said second runner.

3. The wall-mounted air conditioner according to claim 2, wherein a limiting rib is formed at a position of the two second sliding grooves adjacent to the edge of the volute, the limiting rib extends into the groove of the second sliding groove along the width direction of the second sliding groove, and the second roller abuts against the inner wall surface of the limiting rib.

4. The wall-mounted air conditioner as claimed in claim 1, wherein the widths of the inlets at the lower front sides of the first chute and the second chute are gradually increased from top to bottom.

5. An air conditioner wall-hung machine as defined in claim 4, wherein the front groove wall surface at the front lower side inlet of said first and second chutes is formed with a guide slope, and the angle between said guide slope and the extending direction of said first or second chute is in the range of [3 °,10 ° ].

6. An air conditioning wall unit according to claim 1, wherein said chute structure extends at an angle to vertical in the range of [10 °,45 ° ].

7. The air conditioner wall-hung machine of any one of claims 1 to 4, characterized in that the inner wall surfaces of the two side plates are provided with buckles near the rear upper ends of the chute structures, and the left and right ends of the volute are provided with buckle grooves for the buckles to be buckled.

8. An air conditioner comprising an outdoor unit and the wall-mounted unit as claimed in any one of claims 1 to 7.