CN116358132A - Mounting structure, electric control box assembly and air conditioner - Google Patents

Abstract

The invention relates to the technical field of air conditioners, in particular to a mounting structure, an electric control box assembly and an air conditioner. The invention provides a mounting structure for mounting an electric control box to an air conditioner, comprising: the first connecting piece is used for being connected with the electric control box; the second connecting piece is used for being connected with the air conditioner; the first connecting piece and the second connecting piece are connected in a sliding mode, so that the electric control box can slide relative to the air conditioner. The effect that this scheme can reach: when the electric control box breaks down, the first connecting piece can move relative to the second connecting piece, so that the electric control box moves along with the movement of the first connecting piece relative to the second connecting piece, namely, when the first connecting piece stretches out of the air conditioner, the electric control box can stretch out of the air conditioner, the electric control box is not required to be detached from the air conditioner during maintenance, and the maintenance efficiency and the maintenance convenience when the electric control box breaks down are greatly improved.

Description

Mounting structure, electric control box assembly and air conditioner

Technical Field

The invention relates to the technical field of air conditioners, in particular to a mounting structure, an electric control box assembly and an air conditioner.

Background

Along with the development of air conditioner, the placing requirement of the automatically controlled box in the air conditioner has solved, but because the intake of air conditioner is not influenced to needs, generally install the automatically controlled box near to the chassis, and the mounted position of automatically controlled box is comparatively deep, when the automatically controlled box breaks down, often need dismantle the automatically controlled box just can maintain the automatically controlled box, maintenance work is comparatively difficult and can be very inconvenient.

Therefore, how to facilitate maintenance after the electric control box is installed to the air conditioner is a problem to be solved.

Disclosure of Invention

The invention solves the problem of how to facilitate maintenance after the electric control box is installed on an air conditioner.

In order to solve the above problems, the present invention provides a mounting structure for mounting an electronic control box to an air conditioner, the mounting structure comprising: the first connecting piece is used for being connected with the electric control box; the second connecting piece is used for being connected with the air conditioner; the first connecting piece and the second connecting piece are connected in a sliding mode, so that the electric control box can slide relative to the air conditioner.

Compared with the prior art, the scheme can achieve the following effects: when the electric control box breaks down, the first connecting piece can move relative to the second connecting piece, so that the electric control box moves along with the movement of the first connecting piece relative to the second connecting piece, namely, when the first connecting piece stretches out of the air conditioner, the electric control box can stretch out of the air conditioner, and the electric control box is not required to be detached from the air conditioner during maintenance, so that maintenance time is saved, maintenance difficulty is reduced, and maintenance efficiency and maintenance convenience when the electric control box breaks down are greatly improved.

In one embodiment of the invention, the first connector comprises a runner and the second connector comprises a rail that engages the runner to slidably connect the first connector to the second connector.

Compared with the prior art, the scheme can achieve the following effects: the connecting mode of the chute and the guide rail is that the first connecting piece slides relative to the second connecting piece when the chute slides on the guide rail. Meanwhile, the sliding groove of the first connecting piece and the guide rail of the second connecting piece are simple in structure, simple in die sinking, low in manufacturing and processing cost and good in effect.

In one embodiment of the invention, the first connector further comprises: the first connecting plate is used for being connected with the electric control box; the flange is protruded and bent relative to the first connecting plate; wherein the flange and the first connecting plate enclose a chute.

Compared with the prior art, the scheme can achieve the following effects: the chute structure that turn-ups and first connecting plate constitute is simple, and chute structure relies on first connecting plate and automatically controlled box to be connected, and the spout setting is on first connecting plate promptly, and first connecting plate is connected with automatically controlled box, can make the fixed more stable of spout.

In one embodiment of the invention, the first connector further comprises: the reinforcement is connected with the first connecting plate, and the reinforcement is buckled for the first connecting plate, and the reinforcement is connected with the automatically controlled box.

Compared with the prior art, the scheme can achieve the following effects: the angle of buckling of first connecting plate laminating automatically controlled box's outer box body is buckled the angle, makes things convenient for whole part of first connecting plate to both laminate and automatically controlled box is last, and the reinforcement makes the connection of first connecting piece and automatically controlled box more stable.

In one embodiment of the invention, the second connector further comprises: the guide rail is arranged on the second connecting plate; the connecting legs outwards extend relative to the second connecting plate; wherein, the connecting leg is used for being connected with the air conditioner.

Compared with the prior art, the scheme can achieve the following effects: the guide rail relies on the second connecting plate, and is connected with the second connecting plate, improves the stability of guide rail connection and during the use, and the second connecting plate passes through the connecting leg to be connected with the base of air conditioner simultaneously, and the connecting leg can further improve the joint strength of second connecting plate and air conditioner. Simultaneously, the connecting leg can promote the setting height of second connecting plate, makes things convenient for operating personnel to operate mounting structure.

In one embodiment of the invention, the first connector includes a first stop and the second connector includes a second stop, the first and second stops cooperating with each other to limit the separation of the chute and the rail.

Compared with the prior art, the scheme can achieve the following effects: when the electric control box needs to be maintained, the electric control box is pulled outwards from the guide rail through the sliding groove, and when the electric control box is pulled to the maximum extent, the first stop part is attached to the second stop part and stops mutually, so that the electric control box is limited, and the electric control box is prevented from falling out of the second connecting piece.

In one embodiment of the present invention, the sliding groove comprises a first sliding groove and a second sliding groove which are oppositely arranged, and the first stop part is arranged between the first sliding groove and the second sliding groove; the guide rail comprises a first guide rail and a second guide rail which are oppositely arranged, and the second stop part is arranged between the first guide rail and the second guide rail.

Compared with the prior art, the scheme can achieve the following effects: the connection of the two sliding grooves and the two guide rails can enable the second connecting piece to support the first connecting piece more stably.

In one embodiment of the present invention, a first gap is formed between the first stop portion and the first chute, and a second gap is formed between the first stop portion and the second chute; and/or the second stop part is respectively connected with the first guide rail and the second guide rail.

Compared with the prior art, the scheme can achieve the following effects: a first gap is formed between the opening part of the first chute and the first stop part, a second gap is formed between the opening part of the second chute and the first stop part, the first gap and the second gap can play a guiding role in embedding of the guide rail, and the first guide rail and the second guide rail can be matched with the first chute and the second chute accurately.

In one embodiment of the present invention, there is provided an electronic control box assembly comprising: an electric control box; the mounting structure according to any one of the above embodiments, wherein the mounting structure is used for mounting an electronic control box to an air conditioner.

Compared with the prior art, the scheme can achieve the following effects: because the electric control box assembly in this embodiment includes the mounting structure described in any one of the foregoing embodiments, the electric control box assembly has the beneficial effects of any one of the foregoing embodiments, and will not be described herein.

In one embodiment of the present invention, an air conditioner is provided, the air conditioner including an electronic control box assembly.

Compared with the prior art, the scheme can achieve the following effects: the electronic control box assembly in this embodiment has the mounting structure of any one of the above embodiments, and the electronic control box assembly is mounted to the air conditioner, so the air conditioner in this embodiment has the beneficial effects of any one of the above embodiments, and will not be described herein.

Drawings

FIG. 1 is a schematic structural view of a mounting structure;

FIG. 2 is a schematic structural view of a second connector;

FIG. 3 is a schematic view of a first connector;

FIG. 4 is a side view of the mounting structure of FIG. 1;

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

FIG. 6 is another view of the second connector;

FIG. 7 is another view of the first connector;

FIG. 8 is a schematic view of the connection of the mounting structure to the electronic control box;

fig. 9 is a schematic structural view of an air conditioner.

Reference numerals illustrate:

100: a mounting structure; 110: a first connector; 111: a chute; 111a: a first chute; 111b: a second chute; 112: a first connection plate; 113: flanging; 114: a first stop portion; 115: a reinforcement; 120: a second connector; 121: a guide rail; 121a: a first guide rail; 121b: a second guide rail; 122: a second connecting plate; 123: a connecting leg; 124: a second stop portion; 200: an electric control box; 300: an electronic control box assembly; 400: an air conditioner; x1: a first gap; x2: and a second gap.

Detailed Description

In order that the above objects, features and advantages of the invention will be readily understood, a more particular description of the invention will be rendered by reference to specific embodiments thereof which are illustrated in the appended drawings.

Embodiment one:

referring to fig. 1 and 8, the present embodiment provides a mounting structure 100, the mounting structure 100 is used for mounting an electronic control box 200 to an air conditioner 400, and the mounting structure 100 includes: the first connecting piece 110, the first connecting piece 110 is used for connecting with the electric control box 200; a second connection member 120, the second connection member 120 being for connection with the air conditioner 400; wherein the first and second connection members 110 and 120 are slidably coupled such that the electronic control box 200 can slide with respect to the air conditioner 400.

In this embodiment, the mounting structure 100 is used for connecting to the electronic control box 200, specifically, the first connecting member 110 is a structure with rolling or sliding devices, and the second connecting member 120 may be a track structure, and the first connecting member 110 can move relative to the second connecting member 120 by matching the first connecting member 110 with the second connecting member 120, that is, matching a groove body or a roller on the first connecting member 110 with the second connecting member 120.

Wherein, the electric control box 200 is installed to the chassis position of the air conditioner 400, so that the electric control box 200 and the installation structure 100 can not stop the air inlet after being assembled, and the normal air quantity of the air inlet is ensured. Meanwhile, the electric control box 200 is of a cuboid-like structure, and one surface of the largest area of the electric control box 200 is connected with the mounting structure 100, so that the electric control box 200 extends out of the smallest height, and the electric control box 200 and the mounting structure 100 are prevented from stopping an air inlet of the air conditioner 400.

Specifically, when the first connector 110 is connected with the electric control box 200, in a normal use state of the air conditioner 400, the first connector 110 has the largest area and is matched with the second connector 120, so that the electric control box assembly 300 can be stably arranged inside the air conditioner 400, when the electric control box 200 fails, the first connector 110 can move relative to the second connector 120, so that the electric control box 200 moves along with the movement of the first connector 110 relative to the second connector 120, namely, when the first connector 110 extends out of the air conditioner 400, the electric control box 200 can also extend out of the air conditioner 400, meanwhile, the electric control box 200 can finish maintenance operation without being detached from the first connector 110, and after maintenance is finished, the electric control box 200 can enter the air conditioner 400 without detaching the electric control box 200, thereby saving maintenance time and reducing maintenance difficulty and greatly improving maintenance efficiency and maintenance convenience when the electric control box 200 fails.

Embodiment two:

referring to fig. 2 to 3, in the present embodiment, the first connecting member 110 includes a sliding groove 111, and the second connecting member 120 includes a guide rail 121, and the guide rail 121 is embedded in the sliding groove 111 to slidably connect the first connecting member 110 and the second connecting member 120.

In this embodiment, the first connecting member 110 is a groove structure, and the second connecting member 120 is a track structure. The first connecting piece 110 includes a sliding groove 111, which is connected with a guide rail 121 included in the second connecting piece 120, specifically, the sliding groove 111 is connected with the guide rail 121 by embedding, so that the sliding groove 111 can slide on the guide rail 121.

The connection manner of the chute 111 and the guide rail 121 is that the first connecting piece 110 slides relative to the second connecting piece 120 when the chute 111 slides on the guide rail 121. Meanwhile, the sliding groove 111 of the first connecting piece 110 and the guide rail 121 of the second connecting piece 120 have simple structure, simple die sinking, lower manufacturing and processing cost and better effect.

Further, rollers are disposed in the sliding groove 111, so that the first connecting piece 110 is in rolling connection with the second connecting piece 120, that is, the rollers disposed in the sliding groove 111 can roll on the guide rail 121, thereby realizing the movement of the first connecting piece 110 relative to the second connecting piece 120. The original sliding connection is changed into rolling connection, so that the movement of the first connecting piece 110 relative to the second connecting piece 120 is more labor-saving.

Embodiment III:

referring to fig. 1 to 3 and 8, in the present embodiment, the first connector 110 further includes: the first connecting plate 112, the first connecting plate 112 is used for connecting with the electronic control box 200; the flange 113, the flange 113 protrudes and bends relative to the first connecting plate 112; wherein the flange 113 surrounds the first connecting plate 112 to define the chute 111.

In the present embodiment, the first connecting piece 110 is provided with a protrusion on the first connecting plate 112, and the protrusion is bent along a direction of one side to form a flange 113 structure, and the flange 113 structure and the planar portion of the first connecting plate 112 enclose a fastening opening, which is the chute 111. The chute 111 structure relies on the first connecting plate 112 to be connected with the electric control box 200, namely, the chute 111 is arranged on the first connecting plate 112, and the first connecting plate 112 is connected with the electric control box 200, so that the chute 111 can be fixed more stably.

Further, the structure of the chute 111 is specifically an L-shaped chute 111, and the structure of the guide rail 121 is also an inverted L-shaped structure.

Wherein, be provided with the screw hole on the first connecting plate 112, also be provided with the screw hole on the automatically controlled box 200 on, the screw hole is used for supplying the screw to pass with first connecting piece 110 to be connected to automatically controlled box 200 on the screw hole on the first connecting plate 112 for first connecting piece 110 is fixed with automatically controlled box 200, and the joint strength of screw connection is high, can prevent effectively that first connecting piece 110 from droing from automatically controlled box 200.

Preferably, the number of screw holes on the first connecting plate 112 is two, the two screw holes are arranged at the bottom of the first connecting plate 112 at intervals, the first connecting plate 112 is of a strip-shaped square structure, the interval distance between the two screw holes is required to be far, and the condition that one end of the first connecting plate 112 is not fixed and a shaking and driving device falls off when the first connecting plate 112 is connected to the electric control box 200 is avoided. Meanwhile, the arrangement of two screw holes can ensure that the processing and manufacturing cost of the first connecting piece 110 is lower under the condition of enough connecting strength.

Embodiment four:

referring to fig. 3 and 8, in the present embodiment, the first connector 110 further includes: the reinforcement member 115, the reinforcement member 115 is connected with the first connecting plate 112, and the reinforcement member 115 is bent relative to the first connecting plate 112, and the reinforcement member 115 is connected with the electronic control box 200.

In the present embodiment, the reinforcement member 115 is in a plate-shaped structure, and meanwhile, the reinforcement member 115 is a bending portion of the main body of the first connecting plate 112, and the reinforcement member 115 and the first connecting plate 112 are integrally formed, so that the first connecting plate 112 is more convenient to process and manufacture. The bending angle of the first connecting plate 112 is attached to the bending angle of the outer box body of the electronic control box 200, so that the whole part of the first connecting plate 112 can be attached to the electronic control box 200 conveniently, and the reinforcing member 115 enables the first connecting piece 110 to be connected with the electronic control box 200 more stably.

Further, the reinforcement member 115 is a single component, that is, when the reinforcement member 115 is needed, the reinforcement member 115 is connected to the first connecting plate 112, and the reinforcement member 115 and the first connecting plate 112 are connected in a riveting manner, so that the reinforcement member 115 has a rotation angle with respect to the first connecting plate 112, and the first connecting member 110 is connected to the electronic control box 200 for further reinforcement. Meanwhile, since the reinforcement member 115 is a component separately connected to the first connecting plate 112, the reinforcement member 115 can have enough bending freedom relative to the first connecting plate 112, so that the first connecting member 110 can be more suitable for the electric control boxes 200 with different specifications and models, and the application range is wide.

Specifically, the reinforcement member 115 is connected to the electronic control box 200 by a screw, the reinforcement member 115 is provided with a screw hole, and the position of the electronic control box 200 corresponding to the reinforcement member 115 is also provided with a screw hole through which the screw passes. The number of screw holes in the reinforcement member 115 is plural, so that the stability of the connection of the reinforcement member 115 to the electronic control box 200 can be further enhanced.

Fifth embodiment:

referring to fig. 1 to 3 and 8, in the present embodiment, the second connecting member 120 further includes: the second connecting plate 122, the guide rail 121 is arranged on the second connecting plate 122; the connecting legs 123, the connecting legs 123 protrude outwards relative to the second connecting plate 122; wherein the connection legs 123 are used for connection with the air conditioner 400.

In this embodiment, the guide rail 121 is supported by the second connecting plate 122, and the guide rail 121 is connected with the second connecting plate 122, so as to improve the stability of the guide rail 121 during connection and use, and meanwhile, the second connecting plate 122 is connected with the base of the air conditioner 400 through the connecting leg 123. Specifically, the second connecting plate 122 has a square structure, which is convenient to manufacture and has a beautiful appearance. The second connecting plate 122 is connected with the air conditioner 400 through the connecting legs 123, and the connecting legs 123 have a certain height, can play a lifting role on the second connecting plate 122, change the setting height of the second connecting plate 122, make the second connecting piece 120 be connected with the first connecting piece 110 after, make things convenient for the use of automatically controlled box 200.

The connecting legs 123 are metal supporting legs, the number of the connecting legs 123 is four, the connecting legs 123 are arranged at four corners of the second connecting plate 122, so that the connecting legs 123 have enough supporting strength to the connecting plate, and the connecting legs 123 are arranged at four corners of the second connecting plate 122, so that the second connecting plate 122 cannot be turned over, and the stability is high. The connecting leg 123 with the flanging 113 structure is matched with the air conditioner 400, the screw holes are formed in the flanging 113, the connecting stability of the connecting leg 123 is improved through the flanging 113 structure, the connecting leg 123 is connected with the air conditioner 400 through the screws, and the fact that the second connecting piece 120 cannot move relative to the air conditioner 400 is guaranteed.

Further, the length of the guide rail 121 on the second connecting plate 122 is the same as the length of the sliding groove 111 on the first connecting plate 112, and at this time, the movement of the electronic control box 200 between the sliding groove 111 and the guide rail 121 is more stable.

Example six:

referring to fig. 2 to 8, in the present embodiment, the first link 110 includes a first stopper 114, and the second link 120 includes a second stopper 124, and the first stopper 114 and the second stopper 124 cooperate with each other to limit the separation of the chute 111 and the guide rail 121.

In the present embodiment, the first stopping portion 114 is a thin plate structure protruding outwards relative to the plane of the first connecting plate 112, and the protruding direction of the first stopping portion 114 is the direction in which the chute 111 is located. The second stop portion 124 is a thin plate structure with a plane of the second connecting plate 122 protruding outwards, and the protruding direction of the second stop portion 124 is the direction in which the guide rail 121 is located. When the electronic control box 200 is inside the air conditioner 400, that is, when the electronic control box 200 does not need to be repaired, the first stop portion 114 and the second stop portion 124 are not attached to each other, and at this time, no connection exists between the first stop portion 114 and the second stop portion 124. When the electric control box 200 needs to be maintained, the electric control box 200 is pulled out from the guide rail 121 through the sliding groove 111, and when the electric control box 200 is pulled to the maximum, the first stopping portion 114 is attached to the second stopping portion 124, and since the first stopping portion 114 is arranged on the first connecting piece 110 and the second stopping portion 124 is arranged on the second connecting piece 120, the first stopping piece and the second stopping piece interact to stop each other, so that the electric control box 200 is limited, and the electric control box 200 is prevented from falling out from the second connecting piece 120. The first stop piece and the second stop piece are simple in structure, convenient to set and good in limiting effect.

Embodiment seven:

referring to fig. 2 to 3, in the present embodiment, the chute 111 includes a first chute 111a and a second chute 111b that are disposed opposite to each other, and the first stopper 114 is disposed between the first chute 111a and the second chute 111 b; the guide rail 121 includes a first guide rail 121a and a second guide rail 121b arranged opposite to each other, and a second stopper 124 is provided between the first guide rail 121a and the second guide rail 121 b.

In the present embodiment, the sliding grooves 111 are disposed on the first connecting plate 112, meanwhile, on the first connecting plate 112, the number of the sliding grooves 111 is two, the two sliding grooves 111 are disposed on two opposite sides of the first connecting plate 112, the lengths and structures of the first sliding groove 111a and the second sliding groove 111b are the same, but the opening directions of the sliding grooves 111 are different, but the openings of the first sliding groove 111a and the second sliding groove 111b are all facing the inside of the first connecting plate 112, that is, the opening of the first sliding groove 111a is opposite to the opening of the second sliding groove 111 b. The guide rails 121 are disposed on the second connecting plate 122, the number of the guide rails 121 is two, the two guide rails 121 are disposed opposite to each other on two sides of the second connecting plate 122, the lengths and structures of the first guide rail 121a and the second guide rail 121b are the same, the bending directions of the first guide rail 121a and the second sliding guide rail 121b are all towards the outside of the second connecting plate 122, and the two guide rails 121 are respectively connected with the two sliding grooves 111 in a matching manner. The connection between the two sliding grooves 111 and the two guide rails 121 can make the second connecting piece 120 support the first connecting piece 110 more stable, and the connection between the two sliding grooves 111 and the guide rails 121 can make the first connecting piece 110 move more conveniently relative to the second connecting piece 120.

Further, the openings of the first chute 111a and the second chute 111b may face to the outside of the first connecting plate 112, and the bending direction of the first rail 121a and the second rail 121b faces to the inside of the second connecting plate 122.

Further, the opening directions of the first chute 111a and the second chute 111b may be the same, at this time, the bending directions of the first rail 121a and the second rail 121b are also the same, and the bending directions of the first rail 121a and the second rail 121b are opposite to the opening directions of the first chute 111a and the second chute 111 b.

Further, the number of the second connectors 120 is two, and correspondingly, the number of the first connectors 110 is also two, and the two first connectors 110 are respectively connected with the two second connectors 120. At this time, the number of the guide rails 121 is four, the number of the sliding grooves 111 is also four, and the four sliding grooves 111 are respectively connected with the four guide rails 121.

Example eight:

referring to fig. 6 to 7, a first gap X1 is provided between the first stopper 114 and the first chute 111a, and a first gap X1 is provided between the first stopper 114 and the second chute 111 b; and/or the second stopper 124 is connected with the first rail 121a and the second rail 121b, respectively.

In the present embodiment, the first stop portion 114 is not attached to the structures of the first sliding groove 111a and the second sliding groove 111b, so that a first gap X1 is formed between the opening portion of the first sliding groove 111a and the first stop portion 114, a second gap X2 is formed between the opening portion of the second sliding groove 111b and the second stop member 114, and the presence of the first gap X1 and the second gap X2 can guide the insertion of the guide rail 121, so that the first guide rail 121a and the second guide rail 121b can be accurately matched with the first sliding groove 111a and the second sliding groove 111 b.

Preferably, the length of the first gap X1 is equal to the length of the second gap X2.

Example nine:

referring to fig. 8 to 9, the present embodiment provides an electronic control box assembly 300, and the electronic control box assembly 300 includes: an electronic control box 200; the mounting structure 100 according to any one of the above embodiments, the mounting structure 100 is used for mounting the electronic control box 200 to the air conditioner 400.

In this embodiment, the mounting structure 100 is disposed at the chassis of the air conditioner 400, and the electric control box 200 connects the side with a larger area with the mounting structure 100, so that the electric control box 200 is laid on the side, so that the vertical height of the electric control box 200 required to enter the air conditioner 400 is reduced, and the electric control box 200 does not shade the air inlet of the air conditioner 400.

Further, the mounting structure 100 is entirely composed of a metallic material, specifically including, but not limited to: steel, iron, alloys.

Example ten:

referring to fig. 9, the present embodiment provides an air conditioner 400, and the air conditioner 400 includes the electronic control box assembly 300 as described above.

In this embodiment, the air conditioner 400 is specifically a cabinet air conditioner, and the electric control box assembly 300 of this embodiment can exert the maximum use efficiency when the electric control box assembly 300 is mounted to the cabinet air conditioner.

Further, the electronic control box assembly 300 may be mounted to a system including, but not limited to, a wall air conditioner, a mobile air conditioner.

Although the present invention is disclosed above, the present invention is not limited thereto. Various changes and modifications may be made by one skilled in the art without departing from the spirit and scope of the invention, and the scope of the invention should be assessed accordingly to that of the appended claims.

Claims (10)

1. A mounting structure (100), wherein the mounting structure (100) is used for mounting an electronic control box (200) to an air conditioner (400), the mounting structure (100) comprising:

a first connecting piece (110), wherein the first connecting piece (110) is used for being connected with the electric control box (200);

-a second connection (120), the second connection (120) being adapted to be connected to the air conditioner (400);

wherein the first connector (110) and the second connector (120) are slidably connected to enable the electronic control box (200) to slide with respect to the air conditioner (400).

2. The mounting structure (100) of claim 1, wherein the first connector (110) includes a runner (111) and the second connector (120) includes a rail (121), the rail (121) being embedded in the runner (111) to slidably connect the first connector (110) and the second connector (120).

3. The mounting structure (100) of claim 2, wherein the first connector (110) further comprises:

a first connection plate (112), wherein the first connection plate (112) is used for being connected with the electric control box (200);

a flange (113), the flange (113) protruding and bending with respect to the first connecting plate (111);

wherein the flange (113) and the first connecting plate (112) enclose and define the chute (111).

4. The mounting structure (100) of claim 2, wherein the first connector (110) further comprises:

the reinforcement (115), the reinforcement (115) with first connecting plate (112) is connected, and the reinforcement (115) is buckled for first connecting plate (112), reinforcement (115) with automatically controlled box (200) is connected.

5. The mounting structure (100) of claim 2, wherein the second connector (120) further comprises:

the guide rail (121) is arranged on the second connecting plate (122);

-a connecting leg (123), said connecting leg (123) protruding outwards with respect to said second connecting plate (122);

wherein the connecting leg (123) is used for being connected with the air conditioner (400).

6. The mounting structure (100) of claim 2, wherein the first connector (110) includes a first stop (114) and the second connector (120) includes a second stop (124), the first stop (114) and the second stop (124) cooperating with one another to limit separation of the chute (111) and the rail (121).

7. The mounting structure (100) of claim 6, wherein,

the sliding groove (111) comprises a first sliding groove (111 a) and a second sliding groove (111 b) which are oppositely arranged, and the first stop part (114) is arranged between the first sliding groove (111 a) and the second sliding groove (111 b);

the guide rail (121) comprises a first guide rail (121 a) and a second guide rail (121 b) which are arranged oppositely, and the second stop part (124) is arranged between the first guide rail (121 a) and the second guide rail (121 b).

8. The mounting structure (100) of claim 7, wherein,

a first gap (X1) is formed between the first stop part (114) and the first chute (111 a), and a second gap (X2) is formed between the first stop part (114) and the second chute (111 b); and/or

The second stop portion (124) is connected to the first rail (121 a) and the second rail (121 b), respectively.

9. An electronic control box assembly (300), characterized in that the electronic control box assembly (300) comprises:

an electronic control box (200);

the mounting structure (100) of any one of claims 1 to 8, the mounting structure (100) being for mounting the electronic control box (200) to an air conditioner (400).

10. An air conditioner (400), wherein the air conditioner (400) includes the electronic control box assembly (300) of claim 9.

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