CN111912035B

CN111912035B - Mounting structure of air conditioner motor

Info

Publication number: CN111912035B
Application number: CN202010685067.9A
Authority: CN
Inventors: 李晓宇; 尹洁; 林鑫源
Original assignee: Zhejiang Jiang Yu Motor Co ltd
Current assignee: Zhejiang Jiang Yu Motor Co ltd
Priority date: 2020-07-16
Filing date: 2020-07-16
Publication date: 2022-03-25
Anticipated expiration: 2040-07-16
Also published as: CN111912035A

Abstract

The invention provides an installation structure of an air conditioner motor, which comprises a bottom plate, a motor, a first installation seat, a second installation seat, an axial flow fan and a centrifugal fan, wherein the motor is arranged on the bottom plate; the first mounting seat is arranged at one end of the upper end surface of the bottom plate, and a first fixing cavity is formed in the first mounting seat; the second mounting seat is arranged at the other end of the upper end surface of the bottom plate, and a second fixing cavity is formed in the second mounting seat; the first fixed cavity and the second fixed cavity are arranged oppositely and form a fixed cavity of the motor together; the first mounting seat is provided with a first mounting seat supporting groove, and the second mounting seat is provided with a second mounting seat supporting groove; the motor is fixedly arranged in the fixed cavity, one end of the motor penetrates through the first mounting seat supporting groove through a first output shaft of the motor, and the other end of the motor penetrates through the second mounting seat supporting groove through a second output shaft of the motor; the axial flow fan is arranged on the first output shaft, and the centrifugal fan is arranged on the second output shaft; the scheme provided by the invention has the advantages of compact structure, convenience in disassembly and higher reliability.

Description

Mounting structure of air conditioner motor

Technical Field

The invention belongs to the technical field of air conditioner motors, and particularly relates to an installation structure of an air conditioner motor.

Background

The motor mounting structure of the existing window type air conditioner is complex, so that the motor is difficult to mount and inconvenient to dismount, vibration caused by unreliable mounting often occurs, the noise is too large, and the operation quality of the air conditioner is seriously influenced.

Based on the technical problems in the air conditioner motor mounting structure, no relevant solution is provided; there is therefore a pressing need to find effective solutions to the above problems.

Disclosure of Invention

The invention aims to provide an air conditioner motor mounting structure aiming at overcoming the defects in the prior art, and aims to solve one of the problems that the existing air conditioner motor mounting structure is complex, inconvenient to dismount and incapable of being positioned in multiple directions.

The invention provides an installation structure of an air conditioner motor, which comprises a bottom plate, a motor, a first installation seat, a second installation seat, an axial flow fan and a centrifugal fan, wherein the motor is arranged on the bottom plate; the first mounting seat is fixedly arranged at one end of the upper end surface of the bottom plate, and a first fixing cavity is formed in the first mounting seat; the second mounting seat is fixedly arranged at the other end of the upper end surface of the bottom plate, and a second fixing cavity is formed in the second mounting seat; the first fixed cavity and the second fixed cavity are arranged oppositely and form a fixed cavity of the motor together; the first mounting seat is provided with a first mounting seat supporting groove, and the second mounting seat is provided with a second mounting seat supporting groove; the motor is fixedly arranged in the fixed cavity, one end of the motor penetrates through the first mounting seat supporting groove through a first output shaft of the motor, and the other end of the motor penetrates through the second mounting seat supporting groove through a second output shaft of the motor; the axial flow fan is arranged on the first output shaft and is driven to rotate by the motor so as to supply air; centrifugal fan sets up on the second output shaft, and centrifugal fan sets up on the second output shaft, drives the rotation through the motor to carry out the air inlet.

Furthermore, the mounting structure also comprises a first supporting seat and a second supporting seat; the first supporting seat is fixedly arranged in the second fixing cavity, and a circular arc-shaped first limiting cover is arranged on the first supporting seat; the second supporting seat is fixedly arranged in the first fixing cavity, and a circular arc-shaped second limiting cover is arranged on the second supporting seat; one end of the motor is sleeved on the first limiting cover, and the other end of the motor is sleeved on the second limiting cover, so that the motor is arranged on the first supporting seat and the second supporting seat.

Further, the mounting structure further comprises a mounting cover; an installation space is formed between the first installation seat and the second installation seat, a first installation seat sliding groove is formed in one side face, opposite to the second installation seat, of the first installation seat along the vertical direction, a second installation seat sliding groove is formed in one side face, opposite to the first installation seat, of the second installation seat along the vertical direction, and sliding rails are respectively arranged on wall faces on two sides of the installation cover along the vertical direction; the mounting cover is arranged on the first mounting seat sliding groove and the second mounting seat sliding groove in a sliding mode through the sliding rails on the two side wall surfaces of the mounting cover, and therefore the mounting cover is buckled on the first mounting seat and the second mounting seat and forms a shell mounting structure with the first mounting seat and the second mounting seat.

Furthermore, a slot is formed in the side wall of the mounting cover, an elastic limiting mechanism is arranged in the slot, and a first mounting seat groove is formed in the side surface of the first mounting seat and positioned at the bottom of the first mounting seat sliding groove; the elastic limiting mechanism comprises a bayonet lock and a spring; the bayonet lock is arranged in the groove in a telescopic manner along the horizontal direction and can be clamped in the groove of the first mounting seat; the spring is arranged in the open slot along the horizontal direction, one end of the spring is connected to the inner wall of the open slot, and the other end of the spring is connected with one end of the bayonet; the outer side surface of the bayonet lock is provided with a pin column, and the locking surface of the front end surface of the bayonet lock is an inclined surface.

Furthermore, the mounting cover is of a concave structure, and an arc-shaped buffer block is arranged in the mounting cover; when the slide rail that the installation was covered slides to the bottom of first mount pad spout, the bayonet lock chucking is in first mount pad recess to the tight motor of clamp is established to the arc buffer block cover, thereby plays spacingly to the vertical of motor.

Furthermore, a limiting block is arranged on the side surface of the motor, and a clamping groove is formed in the side wall of the second mounting seat; when motor one end fixed mounting was on first supporting seat, the stopper chucking was in the draw-in groove to play spacingly to the axial of motor.

Furthermore, the axis of the first limit cover and the axis of the second limit cover are not in the same straight line with the axis of the motor; the axial line of the second mounting seat supporting groove, the axial line of the first mounting seat supporting groove and the axial line of the motor are positioned on the same straight line; the axis of the first limit cover is deviated on one side of the axis of the motor, and the axis of the second limit cover is deviated on the other side of the axis of the motor.

Further, the parallel distance h1 of the axis of the first limit cover deviating from the axis of the motor is 0.1cm to 0.35 cm; the parallel distance h2 of the axis of the second limit shield deviating from the axis of the motor is 0.1cm to 0.4 cm.

Furthermore, the bottom plate is of a quadrilateral structure, four corners of the bottom plate are respectively provided with mounting seat holes, and the first mounting seat and the second mounting seat are symmetrically arranged on two sides of the center line of the bottom plate; the distance h4 between the first supporting seat and the center line of the bottom plate is greater than the distance h5 between the second supporting seat and the center line of the bottom plate; the motor is symmetrically arranged on the first supporting seat and the second supporting seat along the central line of the bottom plate.

Further, the distance h4 between the first support seat and the center line of the bottom plate is 1/4 to 1/5 of the axial length of the motor housing, and the distance h5 between the second support seat and the center line of the bottom plate is 1/5 to 1/6 of the axial length of the motor housing.

The mounting structure of the air conditioner motor can realize the mounting of the air conditioner motor through a simpler mechanical structure, and can limit the air conditioner motor at a plurality of angles, so that the vibration of the air conditioner motor during operation is reduced, and the operation stability of the air conditioner motor is improved; the scheme provided by the invention has the advantages of compact structure, convenience in disassembly, capability of being directly applied to the conventional window type air conditioner and higher reliability.

Drawings

The present invention will be described in further detail with reference to the accompanying drawings and specific embodiments.

The invention will be further explained with reference to the drawings, in which:

FIG. 1 is a schematic view of an overall installation structure of an air conditioner motor according to the present invention;

fig. 2 is a partially exploded view of a mounting structure of an air conditioner motor according to the present invention;

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

FIG. 4 is a partially exploded view of a mounting structure of an air conditioner motor according to the present invention;

FIG. 5 is a schematic view of a supporting base according to the present invention;

FIG. 6 is an enlarged view of portion B of FIG. 5;

FIG. 7 is a schematic view of the support base and mounting cap assembly of the present invention;

FIG. 8 is a top view of the support base of the present invention;

FIG. 9 is a schematic diagram of the design of the axis of the second mounting seat sliding groove, the axis of the first support seat, the axis of the second support seat and the axis of the first mounting seat sliding groove according to the present invention;

FIG. 10 is a schematic view of the centerline design of the first support seat, the second support seat and the bottom plate according to the present invention.

In the figure: 1. a base plate; 11. mounting holes; 2. a motor; 21. a limiting block; 3. a first mounting seat; 31. a first mount chute; 32. a first mounting seat groove; 33. a first mount support slot; 4. a second mounting seat; 41. a second mounting seat chute; 42. a second mounting socket recess; 43. a second mount support slot; 44. a card slot; 5. an axial flow fan; 6. a centrifugal fan; 7. installing a cover; 71. a side wall; 72. grooving; 73. a spring; 74. a bayonet lock; 741. a pin; 742. a bevel; 75. an arc-shaped buffer block; 8. a first support base; 9. a second support seat; a. a second mount chute axis; b. a first support axis; c. a floor centerline; d. a second support seat axis; e. first mount pad spout axis.

Detailed Description

It should be noted that the embodiments and features of the embodiments in the present application may be combined with each other without conflict. The present invention will be described in detail below with reference to the embodiments with reference to the attached drawings.

As shown in fig. 1 to 10, the present invention provides an installation structure of an air conditioner motor, which can be installed on a window type air conditioner for air supply and heat dissipation; specifically, the mounting structure comprises a bottom plate 1, a motor 2, a first mounting seat 3, a second mounting seat 4, an axial flow fan 5 and a centrifugal fan 6; the first mounting seat 3 is fixedly arranged at one end of the upper end surface of the bottom plate 1, and a first fixing cavity is formed in the first mounting seat; the second mounting seat 4 is fixedly arranged at the other end of the upper end surface of the bottom plate 1, and a second fixing cavity is formed in the second mounting seat; the first fixed cavity and the second fixed cavity are oppositely arranged and form a fixed cavity of the motor 2 together; furthermore, an installation space is reserved between the first installation seat 3 and the second installation seat 4, so that the motor is convenient to disassemble and assemble; further, a first mounting seat support groove 33 is formed in the first mounting seat 3, a second mounting seat support groove 43 is formed in the second mounting seat 4, and the first mounting seat support groove 33 and the second mounting seat support groove 43 can be provided with bearings to support the output shaft of the motor 2; further, the motor 2 is fixedly arranged in the fixed cavity, and one end of the motor 1 passes through the first mounting seat supporting groove 33 through a first output shaft of the motor and is connected with the axial flow fan 5; the other end of the motor 1 passes through the second mounting base supporting groove 43 through a second output shaft thereof and is connected with the centrifugal fan 6; specifically, the axial fan 5 is arranged on the first output shaft, and the motor 2 drives the axial fan 5 to rotate, so as to supply air; the centrifugal fan 6 is arranged on the second output shaft, and the centrifugal fan 6 is driven to rotate through the motor 2 so as to intake air, so that the design can effectively enhance the air intake and air supply effects of the window type air conditioner and improve the heat dissipation energy efficiency ratio of the window type air conditioner; according to the mounting structure of the air conditioner motor, the motor is mounted through the double-mounting seat design, so that the motor is convenient to disassemble and assemble, the mounting structure of the motor can be simplified, and meanwhile, the double-mounting seat design can be used for positioning in multiple directions, so that the motor can run more stably and reliably.

Preferably, in combination with the above solution, as shown in fig. 1 to 10, the mounting structure further includes a first support seat 8 and a second support seat 9; specifically, the first supporting seat 8 is fixedly arranged in the second fixing cavity, and the first supporting seat 8 is provided with a circular arc-shaped first limiting cover which is matched with the shell of the motor 2, so that the motor can be supported, and meanwhile, the clamping and limiting effects are achieved; furthermore, a second supporting seat 9 is fixedly arranged in the first fixing cavity, and a circular arc-shaped second limiting cover is arranged on the second supporting seat 9 and is also matched with the shell of the motor 2, so that the motor can be supported and the clamping and limiting effects are achieved; by adopting the design structure, one end of the motor 2 is sleeved on the first limiting cover, and the other end of the motor 2 is sleeved on the second limiting cover, so that the motor is arranged on the first supporting seat 8 and the second supporting seat 9; in the above scheme, the supporting seat is arranged in the fixing cavities of the first mounting seat 3 and the second mounting seat 4, so that the motor 2 can be supported in two halves, and the motor 2 can be mounted more evenly.

Preferably, in combination with the above solution, as shown in fig. 1 to 10, the mounting structure further includes a mounting cover 7; an installation space is formed between the first installation seat 3 and the second installation seat 4; a first mounting seat sliding groove 31 is formed in one side face, opposite to the first mounting seat 3 and the second mounting seat 4, of the first mounting seat, and a second mounting seat sliding groove 41 is formed in one side face, opposite to the first mounting seat 3, of the second mounting seat 4 in the vertical direction, namely sliding grooves are formed in the faces, opposite to the first mounting seat 3 and the second mounting seat 4, of the first mounting seat in the vertical direction; meanwhile, the wall surfaces at two sides of the mounting cover 7 are respectively provided with a slide rail along the vertical direction; the mounting cover 7 is respectively arranged on the first mounting seat sliding groove 31 and the second mounting seat sliding groove 41 in a sliding manner through sliding rails on two side wall surfaces of the mounting cover, so that the mounting cover is buckled on the first mounting seat 3 and the second mounting seat 4, and when the mounting cover 7 is buckled on the first mounting seat 3 and the second mounting seat 4, a shell mounting structure is formed by the mounting cover and the first mounting seat 3 and the second mounting seat 4; specifically, both side walls 71 of the mounting cover 7 are of a convex structure, so that it can just be snapped into the mounting space formed between the first mounting seat 3 and the second mounting seat 4.

Preferably, with reference to the above solutions, as shown in fig. 1 to 10, a slot 72 is provided on a side wall 71 of the mounting cover 7, an elastic limiting mechanism is provided in the slot 72, and a first mounting seat groove 32 is provided on a side surface of the first mounting seat 3 at the bottom of the first mounting seat sliding groove 31; specifically, the elastic limit mechanism includes a click pin 74 and a spring 73; the bayonet lock 74 is telescopically arranged in the slot 72 along the horizontal direction and can be clamped in the first mounting seat groove 32; the spring 73 is arranged in the open slot 72 along the horizontal direction, one end of the spring 73 is fixedly connected to the inner wall of the open slot 72, and the other end of the spring 73 is fixedly connected with one end of the bayonet 74; a pin column 741 is arranged on the outer side surface of the bayonet 74, so that the locking by pushing and pulling is convenient; specifically, the locking surface of the front end surface of the locking pin 74 is an inclined surface 742, and the whole locking structure is more convenient to clamp due to the inclined surface design.

Preferably, in combination with the above solution, as shown in fig. 1 to 10, the mounting cover 7 has a concave structure, that is, two sidewalls 71 thereof form a concave structure, so as to be able to be snapped on the first mounting seat 3 and the second mounting seat 4; specifically, an arc-shaped buffer block 75 is arranged in the mounting cover 7, and the arc-shaped buffer block 75 can be specifically silica gel or pp cotton; design like this for when the slide rail on the installation lid 7 slides to the bottom of first mount pad spout 31, bayonet lock 74 chucking is in first mount pad recess 32, and arc buffer block 75 overlaps the clamp motor 2 of establishing just, thereby plays spacingly to the vertical direction of motor 2, makes the motor realize spacingly like this in a plurality of directions, makes whole mounting structure more reliable.

Preferably, in combination with the above scheme, as shown in fig. 1 to 10, a limit block 21 is disposed on a side surface of the motor 2, and the limit block 21 may be directly formed on a housing of the motor 2 in an integrated manner or formed by welding; specifically, a clamping groove 44 is arranged on the side wall of the second mounting seat 4; design like this for when the one end fixed mounting of motor 2 on first supporting seat 8, stopper 21 on the casing of motor 1 can just the chucking in draw-in groove 44, thereby play spacingly to the axial of motor 2, make the motor realize spacingly in a plurality of directions like this, make whole mounting structure more reliable.

Preferably, in combination with the above solutions, as shown in fig. 1 to 10, the axis b of the first limit cover and the axis d of the second limit cover are not in a straight line with the axis f of the motor 2, the axis b of the first limit cover is offset on one side of the axis f of the motor 2, the axis d of the second limit cover is offset on the other side of the axis f of the motor 2, and the offset amount can be determined according to the actual volume of the motor 2, so the design mainly considers that the axial flow fan 5 and the centrifugal fan 6 are respectively installed on both sides of the motor 2, during the specific operation, the torque and the stress of the output shaft of the motor are different, during the installation and the use of the motor, because the axes b of the motor on the first limit cover and the axis d of the second limit cover are not in a straight line, the mutual parts of the axes b of the motor on both sides of the axis f of the motor 2, and the clamping forces of the axes d on the motor are just opposite, so that the installation of the motor is more firm, particularly, when the air conditioner runs at a high speed, the clamping protection effect can be realized, and the vibration is avoided; further, the axis a of the second mounting seat supporting groove 43, the axis e of the first mounting seat supporting groove 33 and the axis f of the motor 2 are in a straight line, so that the problem that the axial flow fan 5 and the centrifugal fan 6 are coaxially arranged is mainly considered, and the air inlet and outlet efficiency can be improved.

Preferably, in combination with the above solutions, as shown in fig. 1 to 10, in consideration of the design of the motor structure of the existing window type air conditioner, the parallel distance h1 that the axis b of the first position-limiting cover deviates from the axis f of the motor 2 is generally designed to be 0.1cm to 0.35cm, preferably 0.12cm and 0.25 cm; the parallel distance h2 of the axis d of the second limit cover deviating from the axis f of the motor 2 is 0.1cm to 0.4cm, preferably 0.22cm and 0.25 cm; further, the parallel distance h3 by which the axis e of the first mount supporting groove 33 is offset from the axis d of the second cage is generally designed to be 0.22cm or 0.25 cm.

Preferably, in combination with the above solutions, as shown in fig. 1 to 10, the bottom plate 1 is a quadrilateral structure, and the four corners of the bottom plate 1 are respectively provided with the mounting seat holes 11, specifically, the bottom plate 1 may be a bottom plate of a window type air conditioner, or may be a single steel plate, so that the structure can be directly designed as a bottom plate of a window type air conditioner, and the reliability is high; further, the first mounting seat 3 and the second mounting seat 4 are symmetrically arranged on two sides of a center line c of the bottom plate 1; the distance h4 between the first supporting seat 8 and the center line c of the bottom plate 1 is greater than the distance h5 between the second supporting seat 9 and the center line c of the bottom plate 1, so that the axial flow fan 5 and the centrifugal fan 6 are respectively installed on two sides of the motor 2, when the motor works specifically, the torque and the stress of an output shaft of the motor are different, under a common working condition, the stress of the axial flow fan 5 is relatively light, the stress of the motor 2 is larger due to the rotation of the centrifugal fan 6, and therefore the gravity center of the motor 2 needs to be shifted to the second supporting seat 9, so that the operation of the whole motor is more reliable, and the fluttering noise is reduced; further, during installation and use of the motor; the motor 2 is symmetrically arranged on the first supporting seat 8 and the second supporting seat 9 along the central line c of the bottom plate 1.

Preferably, in combination with the above solutions, as shown in fig. 1 to 10, based on the above design requirements, in the actual structure design process, considering the offset of the installation of the center of gravity of the motor 2, the distance h4 between the first supporting seat 8 and the center line c of the bottom plate 1 is 1/4 to 1/5, preferably 1/4, of the axial length of the housing of the motor 2; the distance h5 between the second support 9 and the center line c of the base plate 1 is 1/5 to 1/6, preferably 1/5, of the axial length of the housing of the motor 2.

The above description is only a preferred embodiment of the present invention, and is not intended to limit the present invention in any way. Those skilled in the art can make numerous possible variations and modifications to the described embodiments, or modify equivalent embodiments, without departing from the scope of the invention. Therefore, any modification, equivalent change and modification made to the above embodiments according to the technology of the present invention are within the protection scope of the present invention, unless the content of the technical solution of the present invention is departed from.

Claims

1. The mounting structure of the air conditioner motor is characterized by comprising a bottom plate (1), a motor (2), a first mounting seat (3), a second mounting seat (4), an axial fan (5) and a centrifugal fan (6); the first mounting seat (3) is fixedly arranged at one end of the upper end surface of the bottom plate (1), and a first fixing cavity is formed in the first mounting seat; the second mounting seat (4) is fixedly arranged at the other end of the upper end face of the bottom plate (1), and a second fixing cavity is formed in the second mounting seat; the first fixed cavity and the second fixed cavity are oppositely arranged and form a fixed cavity of the motor (2) together; a first mounting seat supporting groove (33) is formed in the first mounting seat (3), and a second mounting seat supporting groove (43) is formed in the second mounting seat (4); the motor (2) is fixedly arranged in the fixed cavity, one end of the motor (1) penetrates through the first mounting seat supporting groove (33) through a first output shaft of the motor, and the other end of the motor (1) penetrates through the second mounting seat supporting groove (43) through a second output shaft of the motor; the axial flow fan (5) is arranged on the first output shaft and is driven to rotate by the motor (2) so as to supply air; the centrifugal fan (6) is arranged on the second output shaft, and air is fed in by the rotation driven by the motor (2);

the mounting structure also comprises a first supporting seat (8) and a second supporting seat (9); the first supporting seat (8) is fixedly arranged in the second fixing cavity, and a circular arc-shaped first limiting cover is arranged on the first supporting seat (8); the second supporting seat (9) is fixedly arranged in the first fixing cavity, and a circular arc-shaped second limiting cover is arranged on the second supporting seat (9); one end of the motor (2) is sleeved on the first limiting cover, and the other end of the motor (2) is sleeved on the second limiting cover, so that the motor is arranged on the first supporting seat (8) and the second supporting seat (9);

the bottom plate (1) is of a quadrilateral structure, four corners of the bottom plate (1) are respectively provided with a mounting seat hole (11), and the first mounting seat (3) and the second mounting seat (4) are symmetrically arranged on two sides of a center line (c) of the bottom plate (1); the distance h4 between the first supporting seat (8) and the midline (c) of the bottom plate (1) is larger than the distance h5 between the second supporting seat (9) and the midline (c) of the bottom plate (1); the motor (2) is symmetrically arranged on the first supporting seat (8) and the second supporting seat (9) along the central line (c) of the bottom plate (1).

2. The mounting structure of an air conditioner motor according to claim 1, characterized in that the mounting structure further comprises a mounting cover (7); an installation space is formed between the first installation seat (3) and the second installation seat (4), a first installation seat sliding groove (31) is formed in one side face, opposite to the second installation seat (4), of the first installation seat (3) along the vertical direction, a second installation seat sliding groove (41) is formed in one side face, opposite to the first installation seat (3), of the second installation seat (4) along the vertical direction, and sliding rails are respectively arranged on wall faces on two sides of the installation cover (7) along the vertical direction; the mounting cover (7) is arranged on the first mounting seat sliding groove (31) and the second mounting seat sliding groove (41) in a sliding mode through sliding rails on two side wall surfaces of the mounting cover respectively, so that the mounting cover is buckled on the first mounting seat (3) and the second mounting seat (4), and forms a shell mounting structure with the first mounting seat (3) and the second mounting seat (4).

3. The mounting structure of the air conditioner motor according to claim 2, wherein a slot (72) is provided on a side wall (71) of the mounting cover (7), an elastic limit mechanism is provided in the slot (72), and a first mounting seat groove (32) is provided on a side surface of the first mounting seat (3) at the bottom of the first mounting seat sliding groove (31); the elastic limiting mechanism comprises a bayonet (74) and a spring (73); the clamping pin (74) is arranged in the open slot (72) in a telescopic mode along the horizontal direction and can be clamped in the first mounting seat groove (32); the spring (73) is arranged in the open slot (72) along the horizontal direction, one end of the spring (73) is connected to the inner wall of the open slot (72), and the other end of the spring (73) is connected with one end of the clamping pin (74); a pin column (741) is arranged on the outer side face of the bayonet lock (74), and the locking face of the front end face of the bayonet lock (74) is an inclined face (742).

4. The mounting structure of the air conditioner motor according to claim 3, wherein the mounting cover (7) is a concave structure, and an arc-shaped buffer block (75) is arranged in the mounting cover (7); when the sliding rail on the mounting cover (7) slides to the bottom of the first mounting seat sliding groove (31), the clamping pin (74) is clamped in the first mounting seat groove (32), and the arc-shaped buffer block (75) is sleeved and clamped on the motor (2), so that the motor (2) is limited vertically.

5. The mounting structure of the air conditioner motor according to claim 1, wherein a limit block (21) is arranged on the side surface of the motor (2), and a clamping groove (44) is arranged on the side wall of the second mounting seat (4); when one end of the motor (2) is fixedly arranged on the first supporting seat (8), the limiting block (21) is clamped in the clamping groove (44), so that the axial direction of the motor (2) is limited.

6. The mounting structure of an air conditioner motor according to claim 1, wherein the axis (b) of the first limit housing and the axis (d) of the second limit housing are not in a straight line with the axis (f) of the motor (2); the axis (a) of the second mounting seat supporting groove (43), the axis (e) of the first mounting seat supporting groove (33) and the axis (f) of the motor (2) are in a straight line; the axis (b) of the first limit cover is deviated on one side of the axis (f) of the motor (2), and the axis (d) of the second limit cover is deviated on the other side of the axis (f) of the motor (2).

7. The mounting structure of an air conditioner motor according to claim 6, wherein the parallel distance h1 by which the axis (b) of the first limit cap is offset from the axis (f) of the motor (2) is 0.1cm to 0.35 cm; the parallel distance h2 of the axis (d) of the second limit cover deviating from the axis (f) of the motor (2) is 0.1 cm-0.4 cm.

8. The mounting structure of an air conditioner motor according to claim 1, wherein a distance h4 between the first support seat (8) and a centerline (c) of the base plate (1) is 1/4 to 1/5 of an axial length of a casing of the motor (2), and a distance h5 between the second support seat (9) and the centerline (c) of the base plate (1) is 1/5 to 1/6 of the axial length of the casing of the motor (2).