CN215646543U - Fan motor rotor clamp spring and bearing assembly machine - Google Patents

Abstract

The utility model provides a fan motor rotor jump ring and bearing assembly machine which characterized in that: the clamp spring clamping device comprises a main machine, wherein a workbench is arranged on the main machine, a feeding mechanism, a clamp spring assembling mechanism, a bearing assembling mechanism and a discharging mechanism are transversely arranged on the workbench, and a material moving mechanism is arranged across the upper part of the workbench; wherein: the feeding mechanism comprises a left baffle and a right baffle, a containing groove is formed between the left baffle and the right baffle at intervals, a rotating shaft of the motor rotor is borne above the left baffle and the right baffle, and the rotor part is positioned in the containing groove; the clamp spring assembling mechanism comprises a clamp spring stator fixing seat and clamp spring assembling mechanical arms symmetrically distributed on two sides of the clamp spring stator fixing seat, and the clamp springs are synchronously pressed into the rotating shaft by the clamp spring assembling mechanical arms. The utility model has the beneficial effects that: 1. simple structure, low production cost and improved market competitiveness. 2. The clamp spring and bearing automatic assembly of the motor rotor can be automatically realized, and the clamp spring and bearing automatic assembly device has the advantages of convenience in operation, high working efficiency, stable working performance and the like.

Description

Fan motor rotor clamp spring and bearing assembly machine

Technical Field

The utility model relates to mechanical equipment, in particular to a fan motor rotor clamp spring and bearing assembling machine.

Background

As is well known, with the development of modernization, traditional or modern apparatuses such as computers, communication products, photoelectric products, consumer electronics, automotive electronics, exchangers, medical devices, heaters, air conditioners, frequency converters, teller machines, automotive refrigerators, welding machines, electromagnetic ovens, audio devices, environmental protection devices, and refrigeration devices have been developed greatly, and particularly, these traditional or modern apparatuses are all provided with cooling fans, so that the demand of cooling fans is increasing with the development of modernization. At present, all need the equipment in the radiator fan production process, radiator fan generally comprises casing, upper bearing, fan blade rotor, lower bearing, backing ring and jump ring, and the fan equipment trade is because the part is less, and product model size form is more, so still most stop on manual line production equipment on this link of equipment, just so need a large amount of manpower and material resources, for the production increase cost, also reduced work efficiency.

SUMMERY OF THE UTILITY MODEL

The utility model aims to overcome the defects in the prior art and provides the assembling machine which is simple in structure and convenient to use and can realize automatic assembly of the clamp spring and the bearing of the fan rotor.

The object of the utility model is achieved in the following way: the utility model provides a fan motor rotor jump ring and bearing assembly machine which characterized in that: the clamp spring clamping device comprises a main machine, wherein a workbench is arranged on the main machine, a feeding mechanism, a clamp spring assembling mechanism, a bearing assembling mechanism and a discharging mechanism are transversely arranged on the workbench, and a material moving mechanism is arranged across the upper part of the workbench;

wherein: the feeding mechanism comprises a left baffle and a right baffle, a containing groove is formed between the left baffle and the right baffle at intervals, a rotating shaft of the motor rotor is borne above the left baffle and the right baffle, and the rotor part is positioned in the containing groove;

the clamp spring assembling mechanism comprises a clamp spring stator fixing seat and clamp spring assembling manipulators symmetrically distributed on two sides of the clamp spring stator fixing seat, and the clamp springs are synchronously pressed onto the rotating shaft by the clamp spring assembling manipulators;

the bearing assembling mechanism comprises a bearing stator fixing seat and bearing assembling manipulators symmetrically distributed on two sides of the bearing stator fixing seat, the bearing assembling manipulators are connected with a bearing vibration feeding disc through guide rails, and the bearings are pressed onto the rotating shaft by the bearing assembling manipulators under the action of the power cylinder;

the material moving mechanism comprises a material moving workbench crossing the workbench, and the material moving workbench is driven by a material moving cylinder to transversely slide back and forth; a first material taking mechanical arm, a second material taking mechanical arm and a third material taking mechanical arm are sequentially arranged below the material moving workbench.

The left baffle and the right baffle are arranged in an inclined shape with a short front part and a high back part, and the foremost end of the left baffle and the right baffle is provided with a front baffle extending upwards.

The clamp spring assembly manipulator comprises a clamp spring guide rail and a clamp spring sliding seat arranged on the clamp spring guide rail, and the clamp spring sliding seat slides along the clamp spring guide rail under the pushing of the first clamp spring cylinder.

The clamp spring sliding seat is provided with a clamp spring positioning seat, a clamp spring guide rod is arranged at the rear end of the clamp spring positioning seat, a plurality of clamp springs are sleeved on the clamp spring guide rod in a stacking mode, a clamp spring hole is formed in the clamp spring positioning seat relatively, and a clamp spring push rod is arranged at the tail portion of the clamp spring guide rod and pushes the clamp springs into the clamp spring hole.

The back of the clamp spring positioning seat is also vertically provided with a spring pushing groove, a spring pushing block is arranged in the spring pushing groove, and the spring pushing block slides up and down under the action of a spring pushing cylinder to push the clamp spring upwards into a spring installing hole.

The bearing assembling manipulator comprises a bearing guide rail and a bearing sliding seat arranged on the bearing guide rail, wherein a fixed bearing mounting seat and a movable bearing mounting seat are respectively arranged on two sides of the bearing sliding seat, and the fixed bearing mounting seat and the movable bearing mounting seat are connected with a bearing vibration feeding disc through a guide rail.

One side of the movable bearing mounting seat is provided with a bearing pushing cylinder which pushes the bearing sliding seat to slide on the bearing guide rail.

And a material pressing cylinder is arranged between the movable bearing mounting seat and the workbench and pushes the movable bearing mounting seat to slide on the bearing sliding seat so as to press the bearing onto the rotating shaft.

The utility model has the beneficial effects that: 1. simple structure, low production cost and improved market competitiveness. 2. The clamp spring and bearing automatic assembly of the motor rotor can be automatically realized, and the clamp spring and bearing automatic assembly device has the advantages of convenience in operation, high working efficiency, stable working performance and the like.

Drawings

Fig. 1 and 2 are general assembly effect diagrams of the utility model.

Fig. 3 is a schematic structural diagram of a snap spring assembling mechanism in the utility model.

Fig. 4 and 5 are schematic structural diagrams of the clamp spring assembling manipulator in the utility model.

Fig. 6 and 7 are schematic structural diagrams of the circlip assembling manipulator in the utility model.

Fig. 8 and 9 are schematic structural diagrams of the material moving mechanism in the utility model.

Fig. 10 is an assembly view of the motor rotor, the clamp spring and the bearing in the utility model.

Detailed Description

The present invention will be further described with reference to the accompanying drawings. The utility model provides a fan motor rotor jump ring and bearing assembly machine which characterized in that: the clamp spring clamping device comprises a main machine 1, wherein a workbench 2 is arranged on the main machine 1, a feeding mechanism 3, a clamp spring assembling mechanism 4, a bearing assembling mechanism 5 and a discharging mechanism 6 are transversely arranged on the workbench 2, and a material moving mechanism 7 is arranged across the upper part of the workbench 2;

wherein: the feeding mechanism 3 comprises a left baffle 31 and a right baffle 32, a containing groove 33 is formed between the left baffle 32 and the right baffle 32 at intervals, a rotating shaft 81 of the motor rotor 8 is borne above the left baffle 32 and the right baffle 32, and a rotor part 82 is positioned in the containing groove 33;

the clamp spring assembling mechanism 4 comprises a clamp spring stator fixing seat 41 and clamp spring assembling manipulators 42 symmetrically distributed on two sides of the clamp spring stator fixing seat, and the clamp springs are synchronously pressed onto the rotating shaft 81 by the clamp spring assembling manipulators 42;

the bearing assembling mechanism 5 comprises a bearing stator fixing seat 51 and bearing assembling manipulators 52 symmetrically distributed on two sides of the bearing stator fixing seat, wherein the bearing assembling manipulators 52 are connected with a bearing vibration feeding disc 54 through material guide rails 53, and the bearings are pressed onto a rotating shaft 81 by the bearing assembling manipulators 52 under the action of a power cylinder 55;

the material moving mechanism 7 comprises a material moving workbench 71 crossing the workbench 2, and the material moving workbench 71 is driven by a material moving cylinder 72 to transversely slide back and forth; a first material taking manipulator 73, a second material taking manipulator 74 and a third material taking manipulator 75 are sequentially arranged below the material moving workbench 71.

The left baffle 31 and the right baffle 32 are disposed in an inclined shape with a short front and a high rear, and a front baffle 34 extending upward is disposed at the foremost end thereof.

The clamp spring assembling manipulator 42 comprises a clamp spring guide rail 421 and a clamp spring sliding seat 422 arranged on the clamp spring guide rail 421, and the clamp spring sliding seat 422 slides along the clamp spring guide rail 421 under the pushing of the first clamp spring cylinder 423.

The clamp spring slide 422 is provided with a clamp spring positioning seat 424, the back end of the clamp spring positioning seat 424 is provided with a clamp spring guide rod 425, a plurality of clamp springs are sleeved on the clamp spring guide rod 425 in a laminated mode, correspondingly, a clamp spring hole 426 is formed in the clamp spring positioning seat 424, and a clamp spring push rod 427 is arranged at the tail of the clamp spring guide rod 425 to push the clamp spring into the clamp spring hole 426.

The back of the clamp spring positioning seat 424 is also vertically provided with a spring pushing groove 428, a spring pushing block 429 is arranged in the spring pushing groove 428, and the spring pushing block 429 slides up and down under the action of a spring pushing cylinder 430 to push the clamp spring upwards into the spring installing hole.

The bearing assembling manipulator 52 comprises a bearing guide rail 521 and a bearing sliding seat 522 arranged on the bearing guide rail 521, wherein a fixed bearing mounting seat 523 and a movable bearing mounting seat 524 are respectively arranged on two sides of the bearing sliding seat 522, and the fixed bearing mounting seat 523 and the movable bearing mounting seat 524 are connected with the bearing vibration feeding tray 54 through a material guide rail 53.

A bearing pushing cylinder 525 is arranged on one side of the movable bearing mounting seat 524, and pushes the bearing sliding seat 522 to slide on the bearing guide rail 521.

A material pressing cylinder 527 is arranged between the movable bearing mounting seat 524 and the workbench 2, and the material pressing cylinder pushes the movable bearing mounting seat 524 to slide on the bearing sliding seat 522 so as to press the bearing onto the rotating shaft 81.

The working principle is as follows: as shown in fig. 1 and 2, when the device works, the motor rotor 5 to be assembled is placed on the baffle plate of the feeding mechanism through a mechanical arm or a manual work, and automatically rolls forwards under the inclined guiding action of the baffle plate, so that the motor rotor reaches a station to be clamped. The material moving workbench 71 is driven by the material moving cylinder 72 to transversely slide back and forth; meanwhile, a first material taking manipulator 73, a second material taking manipulator 74 and a third material taking manipulator 75 are sequentially arranged below the material moving workbench 71, clamp the motor stator through up-down lifting motion, and sequentially feed the motor stator into the clamp spring assembling mechanism 4, the bearing assembling mechanism 5 and the discharging mechanism 6 in a stepping mode.

As shown in fig. 3, 4 and 5, when the motor rotor enters the station, the motor rotor is placed in the clamp spring stator fixing seat 41 for fixing, and then the clamp spring positioning seat 424 pushes the spring block to move upwards, so that the clamp spring is pushed upwards into the spring installing hole. Then the first clamp spring cylinder 423 pushes the clamp spring assembling manipulator 42 to move oppositely, and the clamp spring is sleeved on the rotating shaft of the motor rotor.

As shown in fig. 6 and 7, when the motor rotor enters the station, the automatic feeding tray feeds the bearings into the fixed bearing mounting seat 523 and the movable bearing mounting seat 524, and then the bearing on one side of the movable bearing mounting seat 524 pushes the cylinder 525 to push the bearing slide 522 to move towards the fixed bearing mounting seat 523, so that the bearings are sleeved on the rotating shaft of the motor rotor. After the bearing is installed, the material moving workbench takes out the finished product, sends the finished product into the discharging mechanism, and drops the finished product into the finished product frame.

Compared with the manual assembly mode adopted by the traditional technology, the automatic assembly clamp spring and bearing are adopted by the equipment in the scheme, automatic operation can be realized in the whole process, the production efficiency is improved, and meanwhile, the assembly quality is guaranteed, so that the automatic assembly clamp spring and bearing can be widely popularized and used.

The foregoing shows and describes the general principles and broad features of the present invention and advantages thereof. It will be understood by those skilled in the art that the present invention is not limited to the embodiments described above, which are described in the specification and illustrated only to illustrate the principle of the present invention, but that various changes and modifications may be made therein without departing from the spirit and scope of the present invention, which fall within the scope of the utility model as claimed.

Claims (8)

1. The utility model provides a fan motor rotor jump ring and bearing assembly machine which characterized in that: the device comprises a main machine (1), wherein a workbench (2) is arranged on the main machine (1), a feeding mechanism (3), a clamp spring assembling mechanism (4), a bearing assembling mechanism (5), a discharging mechanism (6) are transversely arranged on the workbench (2), and a material moving mechanism (7) is arranged across the upper part of the workbench (2);

wherein: the feeding mechanism (3) comprises a left baffle (31) and a right baffle (32), a containing groove (33) is formed between the left baffle and the right baffle (32) at intervals, a rotating shaft (81) of the motor rotor (8) is borne above the left baffle and the right baffle (32), and a rotor part (82) is positioned in the containing groove (33);

the clamp spring assembling mechanism (4) comprises a clamp spring stator fixing seat (41) and clamp spring assembling manipulators (42) symmetrically distributed on two sides of the clamp spring stator fixing seat, and the clamp springs are synchronously pressed onto the rotating shaft (81) by the clamp spring assembling manipulators (42);

the bearing assembling mechanism (5) comprises a bearing stator fixing seat (51) and bearing assembling mechanical arms (52) symmetrically distributed on two sides of the bearing stator fixing seat, the bearing assembling mechanical arms (52) are connected with a bearing vibration feeding disc (54) through guide rails (53), and the bearings are pressed onto the rotating shaft (81) by the bearing assembling mechanical arms (52) under the action of a power cylinder (55);

the material moving mechanism (7) comprises a material moving workbench (71) crossing the workbench (2), and the material moving workbench (71) is driven by a material moving cylinder (72) to transversely slide back and forth; a first material taking mechanical hand (73), a second material taking mechanical hand (74) and a third material taking mechanical hand (75) are sequentially arranged below the material moving working table (71).

2. The assembly machine of claim 1 for assembling a rotor clamp spring and a bearing of a fan motor, wherein: the left baffle (31) and the right baffle (32) are arranged in an inclined shape with a short front and a high back, and the foremost end of the left baffle and the right baffle is provided with a front baffle (34) extending upwards.

3. The assembly machine of claim 1 for assembling a rotor clamp spring and a bearing of a fan motor, wherein: the clamp spring assembling manipulator (42) comprises a clamp spring guide rail (421) and a clamp spring sliding seat (422) arranged on the clamp spring guide rail, and the clamp spring sliding seat (422) slides along the clamp spring guide rail (421) under the pushing of a first clamp spring cylinder (423).

4. The assembly machine of claim 3 for assembling a rotor clamp spring and a bearing of a fan motor, wherein: the clamp spring sliding seat (422) is provided with a clamp spring positioning seat (424), the rear end of the clamp spring positioning seat (424) is provided with a clamp spring guide rod (425), a plurality of clamp springs are sleeved on the clamp spring guide rod (425) in a stacking mode, a clamp spring hole (426) is formed in the clamp spring positioning seat (424), and a clamp spring push rod (427) is arranged at the tail of the clamp spring guide rod (425) to push the clamp spring into the clamp spring hole (426).

5. The assembly machine of claim 4, wherein the assembly machine comprises: the back of jump ring positioning seat (424) still vertically be provided with and push away spring groove (428), push away and be provided with in spring groove (428) and push away spring piece (429), push away spring piece (429) and slide from top to bottom under the effect that pushes away spring cylinder (430), upwards push the jump ring into the dress spring downthehole.

6. The assembly machine of claim 1 for assembling a rotor clamp spring and a bearing of a fan motor, wherein: the bearing assembling mechanical arm (52) comprises a bearing guide rail (521) and a bearing sliding seat (522) arranged on the bearing guide rail, wherein a fixed bearing mounting seat (523) and a movable bearing mounting seat (524) are respectively arranged on two sides of the bearing sliding seat (522), and the fixed bearing mounting seat (523) and the movable bearing mounting seat (524) are connected with a bearing vibration feeding disc (54) through a material guide rail (53).

7. The assembly machine of claim 6, wherein the assembly machine comprises: and a bearing pushing cylinder (525) is arranged on one side of the movable bearing mounting seat (524), and pushes the bearing sliding seat (522) to slide on the bearing guide rail (521).

8. The assembly machine of claim 6, wherein the assembly machine comprises: a material pressing cylinder (527) is arranged between the movable bearing mounting seat (524) and the workbench (2), and the material pressing cylinder pushes the movable bearing mounting seat (524) to slide on the bearing sliding seat (522) to press a bearing onto the rotating shaft (81).

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