CN210084890U - Rotor turning device - Google Patents

Abstract

The utility model discloses a active cell turning device, it is including fixed subassembly, upset buffering subassembly and location chucking subassembly, the upset subassembly be equipped with a set ofly at least, the upset subassembly upset setting be in fixed subassembly on, upset buffering unit mount the side of upset subassembly, be used for the buffering the upset subassembly upset, location chucking unit mount fixed subassembly on and be used for the chucking and loosen the upset subassembly, the buffering subassembly overturns when can effectually preventing the active cell upset and causes the damage too soon to guarantee the off-the-shelf goodness rate of active cell.

Description

Rotor turning device

Technical Field

The utility model relates to a mechanical equipment field, it is concrete relates to a active cell turning device.

Background

At present, the rotor patch equipment is widely applied, and the rotor patches are mainly pasted on two sides of the rotor to achieve the effect that the rotor has shock absorption.

However, the in-process at the active cell paster needs to turn over after the active cell presss from both sides tightly, and current tilting mechanism utilizes the torsional spring to turn over however, but the speed of overturning is too fast when the upset of singly utilizing the torsional spring to turn over, leads to the active cell to appear certain damage under quick upset effort, if the degree of damage is too big, then can become the waste product, can not carry out process paster on next step.

SUMMERY OF THE UTILITY MODEL

A primary object of the present invention is to provide a rotor turnover device, which can overcome the defects and prevent the rotor from being damaged due to the rapid turnover.

In order to achieve the above purpose, the utility model adopts the following technical scheme: the utility model provides a active cell turning device, its includes fixed subassembly, upset buffering subassembly and location chucking subassembly, the upset subassembly at least be equipped with a set ofly, the upset subassembly upset set up fixed subassembly on, upset buffering subassembly install the side of upset subassembly for the buffering the upset subassembly upset, location chucking unit mount fixed subassembly on and be used for the chucking and loosen the upset subassembly.

In the above technical solution, the fixing assembly includes a fixing base and a fixing positioning block, the fixing positioning block is mounted on the fixing base, and the fixing base is provided with a rotating shaft hole for mounting the turnover assembly.

In the technical scheme, the upset subassembly include upset locating piece, upset bearing, wrench nature spring, buckle wheel and wrench nature spring anticreep piece, the upset locating piece cover establish the upset bearing on, buckle wheel cover establish the upset bearing on and be located upset locating piece one side, the upset bearing pass through the pivot hole rotation install unable adjustment base on, the wrench nature spring housing establish and not be equipped with the one end of buckle wheel and be located one side of pivot hole, wrench nature spring anticreep piece install wrench nature spring side.

In the technical scheme, the overturning buffering assembly comprises an overturning arm, an overturning wheel, an overturning arm jacking seat and an overturning arm jacking cylinder, the overturning arm is sleeved on the overturning bearing and is provided with one side of the buckle wheel, the overturning bearing is provided with the rotating shaft hole side, the overturning arm jacking seat is installed on the overturning arm jacking cylinder, and the overturning arm jacking seat is located below the overturning wheel.

In the technical scheme, the turnover arm jacking seat comprises a turnover arm jacking spring and a buffer cushion, the turnover arm jacking spring is arranged below the buffer cushion in a penetrating mode, and the buffer cushion is arranged on the turnover arm jacking cylinder.

In the technical scheme, the positioning and clamping assembly comprises a push rod, a buckle and a reset spring rod, the push rod is installed on the fixed base, the buckle is installed on the push rod, and the reset spring rod is installed on the fixed base and located at the front end of the buckle.

In the technical scheme, the workpiece clamping device further comprises a workpiece clamping assembly, and the workpiece clamping assembly is arranged on the fixed base in an inserting mode.

In the technical scheme, the workpiece clamping assembly comprises an elastic pressing block, a pressing block spring, an elastic pressing block jacking seat and an elastic pressing block jacking cylinder, the elastic pressing block is arranged in the fixed base in a penetrating mode, the pressing block spring supports the elastic pressing block and the fixed base between the elastic pressing block and the fixed base, the elastic pressing block jacking seat is installed below the elastic pressing block, and the elastic pressing block jacking cylinder is connected with the elastic pressing block jacking seat.

In the technical scheme, the elastic pressing block jacking cylinder and the overturning arm jacking cylinder are connected together through the cylinder fixing seat.

In the technical scheme, the turnover positioning block is provided with an iron block which is used for being matched with the rotor for adsorption.

After the technical scheme is adopted, the buffer assembly can effectively prevent the rotor from being damaged due to the fact that the rotor is overturned too fast, so that the qualified rate of the rotor finished product is guaranteed.

Drawings

Fig. 1 is a first perspective view of a rotor turning device according to the present invention;

fig. 2 is a schematic perspective view of a rotor turning device according to the present invention;

fig. 3 is a partially exploded view of the first rotor turnover device of the present invention;

fig. 4 is a first operation schematic diagram of a part of the rotor turnover device of the present invention;

fig. 5 is a second schematic view of the operation of the rotor turning device of the present invention.

Detailed Description

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

Referring to fig. 1 and 2, the utility model discloses a rotor turning device for prevent that the rotor from overturning and causing the damage too fast, it includes fixed subassembly 1, upset subassembly 2, upset buffering subassembly 3, location chucking subassembly 4, work piece chucking subassembly 5 and cylinder fixing base 6, wherein:

referring to fig. 1 and 3, the fixing assembly 1 includes a fixing base 11 and a fixing positioning block 12, the fixing positioning block 12 is installed on the fixing base 11, the fixing base 11 is provided with a rotating shaft hole 111 for installing the turnover assembly 2, and the fixing positioning block 12 is used for fixing a position where the turnover assembly 2 is turned down.

Referring to fig. 1 and 3, the flipping module 2 includes a flipping positioning block 21, a flipping bearing 22, a torsional spring 23, a buckle wheel 24 and a torsional spring anti-release element 25, the flipping positioning block 21 is sleeved on the flipping bearing 22, the buckle wheel 24 is sleeved on the flipping bearing 22 and is located on one side of the flipping positioning block 21, the flipping bearing 22 is rotatably installed on the fixing base 11 through a rotating shaft hole 111, the torsional spring 23 is sleeved on one end not provided with the buckle wheel 24 and is located on one side of the rotating shaft hole 111, and the torsional spring anti-release element 25 is installed on one side of the torsional spring 23. The torsion spring escape preventing member 25 prevents the torsion spring 23 from escaping during operation. The turning positioning block 21 is provided with an iron block 211 which is used for being matched with the rotor to be adsorbed, and the rotor has certain magnetism, so that the iron block 211 on the turning positioning block 21 can be mutually adsorbed, and the rotor can be prevented from loosening or falling off when being turned.

Referring to fig. 1 and 3, the overturning buffering component 3 includes an overturning arm 31, an overturning wheel 32, an overturning arm jacking seat 33 and an overturning arm jacking cylinder 34, the overturning arm 31 is sleeved on the overturning bearing 22 on one side of the buckle wheel 24 and is located on the side of the rotating shaft hole 111, the overturning arm jacking seat 33 is installed on the overturning arm jacking cylinder 34, the overturning arm jacking seat 33 is located below the overturning wheel 32, the overturning arm jacking seat 33 includes an overturning arm jacking spring 331 and a buffering pad 332, the overturning arm jacking spring 331 is inserted below the buffering pad 332, the buffering pad 332 is installed on the overturning arm jacking cylinder 34, and the overturning arm jacking spring 331 can play buffering and assisting roles for the buffering pad 332 when the buffering pad 332 is lifted under the effect of the overturning arm jacking cylinder 34.

Referring to fig. 1, 3, 4 and 5, the positioning and clamping assembly 4 includes a push rod 41, two buckles 42 and a return spring rod 43, the push rod 41 is slidably mounted on a sliding groove of the fixing base 11, the two buckles 42 are mounted on the push rod 41, the return spring rod 43 is mounted on the fixing base 11 and located at the front end of the first buckle 42, and the return spring rod 43 can buffer and assist the movement of the push rod 41.

Referring to fig. 1, 2 and 3, the workpiece clamping assembly 5 is inserted and arranged on the fixed base 11, the workpiece clamping assembly 5 comprises an elastic pressing block 51, a pressing block spring 52, an elastic pressing block jacking seat 53 and an elastic pressing block jacking cylinder 54, the elastic pressing block 51 is arranged in the fixed base 11 in a penetrating manner, the pressing block spring 52 is supported between the elastic pressing block 51 and the fixed base 11, the elastic pressing block jacking seat 53 is arranged below the elastic pressing block 51, and the elastic pressing block jacking cylinder 54 is connected with the elastic pressing block jacking seat 53.

Referring to fig. 1, 2, 3, 4 and 5, when the device is assembled and used, the elastic pressing block jacking cylinder 54 and the overturning arm jacking cylinder 34 are connected together through the cylinder fixing seat 6. The elastic pressing block jacking cylinder 54 and the overturning arm jacking cylinder 34 are both positioned below the fixed base 11. When the rotor starts to be clamped, the turning arm jacking cylinder 54 drives the turning arm jacking seat 33 to move upwards, thereby driving the turning wheel 32 and the turning arm 31 to turn upwards, turning the turning positioning block 21 to a vertical direction, the push rod 41 driving the buckle 42 to slide, under the stretching action of the reset spring rod 43, the buckle 42 is clamped on the buckle wheel 24, so that the overturning positioning block 21 keeps the overturning state, at the moment, the mover can be clamped by overturning the positioning block 21, because two groups of turning positioning blocks 21 are arranged, two rotors can be clamped at the same time, the iron blocks 211 on the turning positioning blocks 21 can attract the rotors mutually, so that the rotors are not easy to loosen and separate, when the turning positioning block 21 is turned up, the elastic pressing block jacking cylinder 54 drives the elastic pressing blocks 51 to move upwards, the pressing block springs 52 are compressed, every two elastic pressing blocks 51 are vertically arranged, and at the moment, the four elastic pressing blocks 51 are in an open state; when the rotor is clamped, the push rod 41 is pushed by external force, the push rod 41 compresses the reset spring rod 43, the buckle 42 is separated from the buckle wheel 24, the turnover positioning block 21 resets under the action of the torsional spring 23, at the moment, the turnover arm jacking cylinder 54 starts to reset, the turnover wheel 32 and the turnover arm 31 are driven to reset downwards, the rotor damage caused by instant resetting of the torsional spring 23 can be avoided under the driving of the turnover arm jacking cylinder 54, the turnover positioning block 21 is overturned to the fixed positioning block 12 for positioning, meanwhile, the elastic press block jacking cylinder 54 also resets, the elastic press block 51 is driven to move downwards, the press block spring 52 is extended to reset, and the elastic press block 51 is enabled to compress the rotor.

The above embodiments are merely illustrative and not restrictive, and all equivalent changes and modifications made by the methods described in the claims are intended to be included within the scope of the present invention.

Claims (10)

1. The utility model provides a active cell turning device which characterized in that: it is including fixed subassembly (1), upset subassembly (2), upset buffering subassembly (3) and location chucking subassembly (4), upset subassembly (2) be equipped with a set ofly at least, upset subassembly (2) upset setting be in fixed subassembly (1) on, upset buffering subassembly (3) install the side of upset subassembly (2) for the buffering upset subassembly (2) upset, location chucking subassembly (4) install fixed subassembly (1) on and be used for the chucking and loosen upset subassembly (2).

2. The mover overturning device of claim 1, wherein: the fixed component (1) comprises a fixed base (11) and a fixed positioning block (12), the fixed positioning block (12) is installed on the fixed base (11), and the fixed base (11) is provided with a rotating shaft hole (111) for installing the turnover component (2).

3. A mover overturning device according to claim 2, wherein: upset subassembly (2) including upset locating piece (21), upset bearing (22), wrench spring (23), buckle wheel (24) and wrench spring anticreep spare (25), upset locating piece (21) cover establish upset bearing (22) on, buckle wheel (24) cover establish upset bearing (22) on and be located upset locating piece (21) one side, upset bearing (22) pass through pivot hole (111) rotatory install unable adjustment base (11) on, wrench spring (23) cover establish and not be equipped with the one end of buckle wheel (24) and be located one side of pivot hole (111), wrench spring anticreep spare (25) install wrench spring (23) side.

4. A mover overturning device according to claim 3, wherein: upset buffer unit (3) including upset arm (31), upset wheel (32), upset arm jacking seat (33) and upset arm jacking cylinder (34), upset arm (31) cover establish be equipped with buckle wheel (24) one side upset bearing (22) on and be located pivot hole (111) side, upset arm jacking seat (33) install upset arm jacking cylinder (34) on, upset arm jacking seat (33) be located upset wheel (32) below.

5. The mover overturning device of claim 4, wherein: turnover arm jacking seat (33) including turnover arm jacking spring (331) and blotter (332), turnover arm jacking spring (331) wear to establish blotter (332) below, blotter (332) install turnover arm jacking cylinder (34) on.

6. A mover overturning device according to any one of claims 2-5, wherein: the positioning clamping assembly (4) comprises a push rod (41), a buckle (42) and a return spring rod (43), the push rod (41) is installed on the fixed base (11), the buckle (42) is installed on the push rod (41), and the return spring rod (43) is installed on the fixed base (11) and located at the front end of the buckle (42).

7. A mover overturning device according to any one of claims 4 and 5, wherein: still including work piece chucking subassembly (5), work piece chucking subassembly (5) alternate the setting and be in unable adjustment base (11) on.

8. The mover overturning device of claim 7, wherein: work piece chucking subassembly (5) include elastic pressing piece (51), briquetting spring (52), elastic pressing piece jacking seat (53) and elastic pressing piece jacking cylinder (54), elastic pressing piece (51) wear to establish unable adjustment base (11) in, briquetting spring (52) support elastic pressing piece (51) with unable adjustment base (11) between, elastic pressing piece jacking seat (53) install the below of elastic pressing piece (51), elastic pressing piece jacking cylinder (54) with elastic pressing piece jacking seat (53) connect.

9. The mover overturning device of claim 8, wherein: the elastic pressing block jacking cylinder (54) and the overturning arm jacking cylinder (34) are connected together through a cylinder fixing seat (6).

10. A mover overturning device according to claim 3, wherein: and an iron block (211) used for being matched with the rotor for adsorption is arranged on the overturning positioning block (21).

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