CN217469719U - Motor stator shell pressing device - Google Patents

Abstract

The utility model provides a motor stator shell compression fittings, including base, bearing bracket structure, bearing roller structure and propulsion subassembly. The supporting bracket structure is arranged on the base and used for supporting the motor shell; the bearing roller structure is arranged on the base, and the bearing roller structure and the bearing bracket structure are arranged at intervals; setting the spacing direction of the bearing roller structure and the bearing bracket structure as a first direction; the bearing roller structure is used for bearing the stator, so that the axis of the stator and the central axis of the motor shell are collinear and are arranged along a first direction; the propulsion assembly is equipped with two sets ofly, and two sets of propulsion assemblies all set up on the base, and two sets of propulsion assemblies are used for promoting motor housing and stator respectively and move along first direction in opposite directions to impress the stator to motor housing. The utility model provides a motor stator shell compression fittings aims at can solving the problem that the process of installing the shell with the stator among the prior art wastes time and energy, work efficiency is low.

Description

Motor stator shell pressing device

Technical Field

The utility model belongs to the technical field of motor production facility, concretely relates to motor stator shell compression fittings.

Background

The motor is an electromagnetic device which converts or transmits electric energy according to the law of electromagnetic induction, or converts one form of electric energy into another form of electric energy. The motor is mainly used for generating driving torque and is used as a power source of electric appliances or various machines. The motor mainly comprises a stator, a rotor, a shell and other accessories, wherein the rotor, the stator and the other accessories are all arranged in the shell.

Among the prior art, place stator and shell in same backup pad usually at the in-process of installing the shell with the stator, install the stator in the shell through two manual work cooperations, the stator is damaged easily to the installation, intensity of labour is big, waste time and energy, and leads to stator mounted position to have the deviation easily, influences the performance of motor, and work efficiency is low, and the practicality is relatively poor.

SUMMERY OF THE UTILITY MODEL

The utility model provides a motor stator shell compression fittings aims at solving the problem that the process of installing the shell with the stator among the prior art wastes time and energy, work efficiency is low.

In order to achieve the above object, the utility model adopts the following technical scheme: provided is a motor stator housing compression fitting device, including:

a base;

the supporting bracket structure is arranged on the base and used for supporting the motor shell;

the bearing roller structure is arranged on the base, and the bearing roller structure and the bearing bracket structure are arranged at intervals; setting the spacing direction between the bearing roller structure and the bearing bracket structure as a first direction; the bearing roller structure is used for bearing the stator, so that the axis of the stator and the central axis of the motor shell are collinear and are arranged along the first direction; and

the propelling components are arranged in two groups, the propelling components are arranged on the base, and the propelling components are used for respectively pushing the motor shell and the stator to move in opposite directions along the first direction so as to press the stator into the motor shell.

In one possible implementation, the support bracket structure includes a support plate and a first drive member; the bearing plate is positioned above the base and is provided with a supporting end face which is horizontally arranged and used for bearing the motor shell; the first driving piece is provided with a fixed end and a telescopic end, the fixed end of the first driving piece is connected with the base, and the telescopic end of the first driving piece is connected with the bearing plate and used for driving the bearing plate to move up and down.

In one possible implementation, the first drive element is a pneumatic or hydraulic cylinder.

In one possible implementation, a horizontal direction perpendicular to the first direction is set as a second direction; the bearing roller structure comprises a bearing roller, a mounting seat and a second driving piece; the number of the bearing rollers is two, the two bearing rollers are arranged along the first direction, the two bearing rollers are arranged at intervals along the second direction, and a carrying space for carrying the stator is formed between the two bearing rollers; the mounting seat is positioned above the base and is used for rotationally connecting the two bearing rollers; the second driving piece is provided with a fixed end and a telescopic end, the fixed end of the second driving piece is connected with the base, and the telescopic end of the second driving piece is connected with the mounting seat and used for driving the mounting seat to move up and down.

In one possible implementation, the second drive element is a pneumatic or hydraulic cylinder.

In one possible implementation, each group of the propelling assemblies comprises a propelling piece and a telescopic structure; the propelling piece is positioned on one side of the supporting bracket structure and the supporting roller structure along the first direction and is provided with an abutting end used for abutting against a motor shell or a stator; the telescopic structure has stiff end and flexible end, telescopic structure's stiff end with the base links to each other, telescopic structure's flexible end with it links to each other to impel the piece, is used for the drive impel the piece to being close to hold the bracket structure and hold the bearing roller structure and remove.

In one possible implementation manner, the propelling assembly further includes a guiding auxiliary structure, and the guiding auxiliary structure includes a vertical plate, a guide rod, and a sliding plate; the two vertical plates are arranged along the vertical direction and are arranged in parallel along the first direction at intervals; the two guide rods are arranged along the first direction and are arranged at intervals, the two guide rods are positioned between the two vertical plates, and two ends of each guide rod are fixedly connected with the two vertical plates respectively; the two sliding plates are arranged on the two guide rods in a sliding mode along the first direction and are respectively connected with the two propelling parts.

The utility model provides a motor stator shell compression fittings's beneficial effect lies in: compared with the prior art, through setting up bearing bracket structure and bearing roller structure, bearing bracket structure is used for bearing motor housing, bearing roller structure is used for the bearing stator, keep away from bearing roller structure one side at bearing bracket structure and set up a set of propulsion subassembly, keep away from bearing bracket structure one side at bearing roller structure and set up a set of propulsion subassembly, two sets of propulsion subassemblies promote motor housing and stator respectively and do the opposite motion along first direction, thereby impress the stator in motor housing through advancing the subassembly, improve work efficiency. And the stator or the motor shell only changes along the position of the first direction in the process of pressing the stator into the motor shell, so that the installation effect cannot be influenced due to position deviation, the performance of the motor is ensured, and the practicability is good.

Drawings

Fig. 1 is a schematic structural diagram of a motor stator housing pressing device according to an embodiment of the present invention;

fig. 2 is a schematic structural diagram ii of the pressing device for the motor stator housing provided in the embodiment of the present invention.

Description of reference numerals:

10. a base; 20. a support bracket structure; 21. a bearing plate; 22. a first driving member; 23. a first base frame; 24. a first slide bar; 30. a backup roll structure; 31. a carrying roller; 32. a mounting seat; 33. a second driving member; 34. a second base frame; 35. a second slide bar; 40. a propulsion assembly; 41. a pusher member; 42. a telescopic structure; 43. a vertical plate; 44. a guide bar; 45. a slide board.

Detailed Description

In order to make the technical problem, technical solution and advantageous effects to be solved by the present invention more clearly understood, the following description is given in conjunction with the accompanying drawings and embodiments to illustrate the present invention in further detail. It should be understood that the specific embodiments described herein are merely illustrative of the invention and are not intended to limit the invention.

It should be noted that the terms "length," "width," "height," "thickness," "upper," "lower," "front," "rear," "left," "right," "vertical," "horizontal," "top," "bottom," "inner," "outer," "head," "tail," and the like, are used in the orientation or positional relationship indicated in the drawings for convenience in describing the invention and for simplicity in description, and do not indicate or imply that the device or element so referred to must have a particular orientation, be constructed and operated in a particular orientation, and therefore should not be construed as limiting the invention.

It is also noted that, unless expressly stated or limited otherwise, the terms "mounted," "connected," "secured," "disposed," and the like are intended to be inclusive and mean, for example, that they may be fixedly connected, detachably connected, or integrally formed; can be mechanically or electrically connected; either directly or indirectly through intervening media, either internally or in any other suitable relationship. The specific meaning of the above terms in the present invention can be understood according to specific situations by those skilled in the art.

Furthermore, the terms "first", "second" and "first" are used for descriptive purposes only and are 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 one or more of that feature. Further, "plurality" or "a plurality" means two or more unless specifically limited otherwise.

Referring to fig. 1 and fig. 2, a motor stator housing pressing device according to the present invention will be described. The motor stator housing pressing device comprises a base 10, a support bracket structure 20, a support roller structure 30 and a propelling component 40. A support bracket structure 20 is provided on the base 10 for supporting the motor housing. The support roller structure 30 is disposed on the base 10, the support roller structure 30 and the support bracket structure 20 are disposed at an interval, and the interval direction between the support roller structure 30 and the support bracket structure 20 is set to be a first direction. The bearing roller structure 30 is used for bearing the stator so that the axis of the stator is collinear with the central axis of the motor housing and is arranged along the first direction. The propulsion assemblies 40 are provided in two sets. Both sets of propulsion assemblies 40 are disposed on the base 10. The two sets of propulsion assemblies 40 are configured to respectively propel the motor housing and the stator toward each other in a first direction to press the stator into the motor housing.

The embodiment of the utility model provides a motor stator shell compression fittings, compared with the prior art, through setting up bearing bracket structure and bearing roller structure, bearing bracket structure is used for bearing motor housing, bearing roller structure is used for the bearing stator, keep away from bearing roller structure one side at bearing bracket structure and set up a set of propulsion subassembly, keep away from bearing bracket structure one side at bearing roller structure and set up a set of propulsion subassembly, two sets of propulsion subassemblies promote motor housing and stator respectively and do the opposite motion along first direction, thereby impress the stator in motor housing through advancing the subassembly, and the work efficiency is improved. And the stator or the motor shell only changes along the position of the first direction in the process of pressing the stator into the motor shell, so that the installation effect cannot be influenced due to position deviation, the performance of the motor is ensured, and the practicability is good.

In some embodiments, referring to FIG. 2, the support bracket structure 20 includes a support plate 21 and a first drive member 22. The support plate 21 is located above the base 10. The support plate 21 has a support end face which is arranged horizontally and is used for supporting the motor housing. The first driving member 22 has a fixed end and a telescopic end. The fixed end of the first driving member 22 is connected to the base 10, the telescopic end of the first driving member 22 is connected to the supporting plate 21, and the first driving member 22 is used for driving the supporting plate 21 to move up and down. In this embodiment, the bearing plate 21 is disposed above the base 10, and the telescopic end of the first driving member 22 is connected to the bearing plate 21, so that the bearing plate 21 is driven by the first driving member 22 to move up and down, and the motor housing is disposed on the bearing plate 21, so that the motor housing moves up and down along with the bearing plate 21 to make the central axis of the motor housing coincide with the central axis of the stator, thereby facilitating the pressing of the stator into the motor housing.

Specifically, the supporting bracket structure 20 further includes two first supporting members, and the two first supporting members are disposed in parallel and at an interval along the first direction. Each first supporting component comprises a first base frame 23 and a first sliding rod 24, the first base frame 23 is arranged along the vertical direction, and the first base frame 23 is arranged on the base 10. The number of the first slide bars 24 is two, the two first slide bars 24 are arranged in the vertical direction, the two first slide bars 24 are arranged at intervals, the two first slide bars 24 are connected with the first base frame 23 in a sliding mode, and first slide holes for the first slide bars 24 to be connected in a sliding mode are formed in the first base frame 23. Optionally, the supporting plate 21 is fixedly connected to the upper ends of the two first sliding rods 24, and the lower ends of the two first sliding rods 24 are slidably connected to the first sliding holes of the first base frame 23.

In some embodiments, the first drive member 22 is a pneumatic or hydraulic cylinder.

In some embodiments, please refer to fig. 2, a horizontal direction perpendicular to the first direction is set as the second direction. The bearing roller structure 30 comprises a bearing roller 31, a mounting seat 32 and a second drive 33. Bearing roller 31 is equipped with two, and two bearing roller 31 set up along the first direction, and two bearing roller 31 set up along the second direction interval, form the carrying space that supplies the stator to carry on between two bearing roller 31. The mounting seat 32 is located above the base 10 and is used for rotatably connecting the two carrier rollers 31. The second driving member 33 has a fixed end and a telescopic end. The fixed end of the second driving member 33 is connected to the base 10, the telescopic end of the second driving member 33 is connected to the mounting seat 32, and the second driving member 33 is used for driving the mounting seat 32 to move up and down.

In this embodiment, two bearing rollers 31 set up along the second direction interval to form the carrying space that supplies the stator to carry on between two bearing rollers 31, the stator of being convenient for is placed. And two bearing rollers 31 are rotatably arranged on the mounting seat 32, so that when the stator is pressed into the motor shell, if the stator rotates, the bearing rollers 31 can rotate along with the stator, and the friction between the bearing rollers 31 and the stator is reduced.

In the above embodiment, the supporting roller structure 30 further includes two second supporting members, and the two second supporting members are disposed in parallel and spaced in the first direction. Each second support element comprises a second base frame 34 and a second slide bar 35, the second base frame 34 being arranged in a vertical direction, the second base frame 34 being arranged on the base 10. The number of the second slide bars 35 is two, the two second slide bars 35 are arranged along the vertical direction, the two second slide bars 35 are arranged at intervals, the two second slide bars 35 are both connected with the second base frame 34 in a sliding manner, and second slide holes for sliding connection of the second slide bars 35 are formed in the second base frame 34. Alternatively, the mounting seat 32 is fixedly connected to the upper ends of the two second sliding rods 35, and the lower ends of the two second sliding rods 35 are slidably connected to the second sliding holes of the second base frame 34.

In some embodiments, the second drive member 33 is a pneumatic or hydraulic cylinder.

In some embodiments, referring to fig. 1 and 2, each set of propelling elements 40 includes a propelling member 41 and a telescopic structure 42. The pusher 41 is located on one side of the support bracket structure 20 and the support roller structure 30 in the first direction, and has an abutment end for abutting against the motor housing or the stator. The telescoping structure 42 has a fixed end and a telescoping end. The fixed end of the telescopic structure 42 is connected to the base 10, the telescopic end of the telescopic structure 42 is connected to the propelling part 41, and the telescopic structure 42 is used for driving the propelling part 41 to move towards the side close to the supporting bracket structure 20 and the supporting structure. In this embodiment, the propelling part 41 is located one side of the supporting bracket structure 20 and the supporting roller structure 30 along the first direction, and has a butt end for abutting with the motor housing or the stator, and the propelling part 41 is connected with the telescopic end of the telescopic structure 42, so that the propelling part 41 is driven by the telescopic structure 42 to propel the motor housing and the stator to move in opposite directions, so as to press the stator into the motor housing, thereby improving the working efficiency, ensuring the accuracy of the installation position of the stator, and ensuring the performance of the motor.

In some embodiments, referring to fig. 1 and 2, the propulsion assembly 40 further includes a guiding auxiliary structure. The guide auxiliary structure includes a vertical plate 43, a guide rod 44, and a sliding plate 45. The vertical plates 43 are provided in two numbers, and are disposed along the vertical direction. The two vertical plates 43 are disposed in parallel and spaced apart along the first direction. Two guide rods 44 are provided, the two guide rods 44 are both arranged along the first direction, the two guide rods 44 are arranged at intervals, the two guide rods 44 are located between the two vertical plates 43, and two ends of each guide rod 44 are respectively fixedly connected with the two vertical plates 43. Two sliding plates 45 are provided, two sliding plates 45 are slidably disposed on the two guide rods 44 along the first direction, and the two sliding plates 45 are respectively connected to the two propelling members 41. Optionally, the support bracket structure 20 and the backup roller structure 30 are located between two risers 43 and between two guide rods 44. The telescopic ends of the two telescopic structures 42 are respectively connected with the corresponding sliding plates 45.

In this embodiment, two propulsion pieces 41 set up respectively on two slide 45, two slide 45 all slide along the first direction and set up on two guide arms 44, thereby extending structure 42 promotes slide 45 and removes along the first direction, and propulsion piece 41 moves along the first direction along with slide 45, and propulsion piece 41 impels motor housing and stator to do the motion in opposite directions, in order to impress the stator motor housing, improves work efficiency, and can guarantee the accuracy of stator mounted position, guarantees the performance of motor.

In some embodiments, the telescoping structure 42 may be a hydraulic cylinder.

The above description is only exemplary of the present invention and should not be taken as limiting the scope of the present invention, as any modifications, equivalents, improvements and the like made within the spirit and principles of the present invention are intended to be included within the scope of the present invention.

Claims (7)

1. Motor stator shell compression fittings, its characterized in that includes:

a base;

the supporting bracket structure is arranged on the base and used for supporting the motor shell;

the bearing roller structure is arranged on the base, and the bearing roller structure and the bearing bracket structure are arranged at intervals; setting the spacing direction between the bearing roller structure and the bearing bracket structure as a first direction; the bearing roller structure is used for bearing the stator, so that the axis of the stator and the central axis of the motor shell are collinear and are arranged along the first direction; and

the propelling components are arranged in two groups, the propelling components are arranged on the base, and the propelling components are used for respectively pushing the motor shell and the stator to move in opposite directions along the first direction so as to press the stator into the motor shell.

2. The motor stator housing compression fitting arrangement of claim 1, wherein the support bracket structure comprises a support plate and a first drive member; the bearing plate is positioned above the base and is provided with a supporting end face which is horizontally arranged and used for bearing the motor shell; the first driving piece is provided with a fixed end and a telescopic end, the fixed end of the first driving piece is connected with the base, and the telescopic end of the first driving piece is connected with the bearing plate and used for driving the bearing plate to move up and down.

3. The motor stator housing compression fitting arrangement of claim 2, wherein the first drive member is a pneumatic or hydraulic cylinder.

4. The motor stator housing laminating apparatus of claim 1, wherein a horizontal direction perpendicular to the first direction is set as a second direction; the bearing roller structure comprises a bearing roller, a mounting seat and a second driving piece; the number of the bearing rollers is two, the two bearing rollers are arranged along the first direction, the two bearing rollers are arranged at intervals along the second direction, and a carrying space for carrying the stator is formed between the two bearing rollers; the mounting seat is positioned above the base and is used for rotationally connecting the two bearing rollers; the second driving piece is provided with a fixed end and a telescopic end, the fixed end of the second driving piece is connected with the base, and the telescopic end of the second driving piece is connected with the mounting seat and used for driving the mounting seat to move up and down.

5. The motor stator housing compression fitting arrangement of claim 4, wherein the second drive member is a pneumatic or hydraulic cylinder.

6. The electric machine stator housing compression fitting arrangement of claim 1, wherein each said propulsion assembly includes a propulsion member and a telescoping structure; the propelling piece is positioned on one side of the supporting bracket structure and the supporting roller structure along the first direction and is provided with an abutting end used for abutting against a motor shell or a stator; the telescopic structure has stiff end and flexible end, telescopic structure's stiff end with the base links to each other, telescopic structure's flexible end with it links to each other to impel the piece, is used for the drive impel the piece to being close to hold the bracket structure and hold the bearing roller structure and remove.

7. The motor stator housing compression fitting arrangement of claim 6, wherein the propulsion assembly further comprises a guiding auxiliary structure, the guiding auxiliary structure comprises a vertical plate, a guide rod and a sliding plate; the two vertical plates are arranged along the vertical direction and are arranged in parallel along the first direction at intervals; the two guide rods are arranged along the first direction and are arranged at intervals, the two guide rods are positioned between the two vertical plates, and two ends of each guide rod are fixedly connected with the two vertical plates respectively; the two sliding plates are arranged on the two guide rods in a sliding mode along the first direction and are respectively connected with the two propelling parts.

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