CN217859776U - Automatic press-fitting bearing clamp spring device - Google Patents

Abstract

The utility model discloses an automatic pressure equipment bearing jump ring device, comprises a workbench, be equipped with material loading module, pressure equipment module and unloading module on the workstation in order, material loading module includes first pay-off passageway and second pay-off passageway, the discharge gate of first pay-off passageway with the feed inlet intercommunication of second pay-off passageway, the discharge gate of second pay-off passageway with the feed inlet intercommunication of unloading module, the pressure equipment module sets up second pay-off passageway is terminal, be equipped with position control mechanism on the first pay-off passageway, position control mechanism sets up first pay-off passageway width direction, through position control mechanism changes the channel width of first pay-off passageway. The utility model discloses when transporting not unidimensional assembly bearing, can reduce or widen the channel width of first pay-off passageway through position control mechanism for first pay-off passageway adapts to the bearing size just, and the bearing of being convenient for is stably transported.

Description

Automatic bearing clamp spring press-fitting device

Technical Field

The utility model belongs to the technical field of the bearing rigging equipment, concretely relates to automatic pressure equipment bearing jump ring device.

Background

For solving the problem, for example, patent document CN110434597A discloses an assembly machine for an external snap spring of a bearing, wherein a bearing feeding module, a snap spring pressure-taking module, a snap spring pushing module and a blanking discharging module are arranged on the assembly machine, the bearing is conveyed to the snap spring pressure-taking module through the bearing feeding module, the snap spring pushing module conveys the snap spring to a press-fitting station of the pressure-taking module for press-fitting, and the bearing after the press-fitting of the snap spring enters the next processing link through the blanking discharging module.

Although the assembly machine realizes integration of extraction and press mounting of the snap spring, the assembly machine still has defects in the actual production process, for example, the feeding module is formed by combining a transmission shaft and a conveyor belt, the size of an assembly bearing is large or small, the width of the conveyor belt is fixed, and when the small-size bearing is assembled, the position deviation of the small-size bearing on the excessively wide conveyor belt can occur, so that the conveying stability cannot be ensured.

SUMMERY OF THE UTILITY MODEL

In view of this, the utility model provides an automatic pressure equipment bearing jump ring device.

In order to achieve the above purpose, the utility model discloses technical scheme as follows:

the utility model provides an automatic pressure equipment bearing jump ring device, includes the workstation, be equipped with material loading module, pressure equipment module and unloading module on the workstation in order, material loading module includes first pay-off passageway and second pay-off passageway, the discharge gate of first pay-off passageway with the feed inlet intercommunication of second pay-off passageway, the discharge gate of second pay-off passageway with the feed inlet intercommunication of unloading module, the pressure equipment module sets up second pay-off passageway is terminal, and its key lies in: and a position adjusting mechanism is arranged on the first feeding channel and is arranged in the width direction of the first feeding channel, and the channel width of the first feeding channel is changed through the position adjusting mechanism.

By adopting the structure, the position adjusting mechanism is additionally arranged in the width direction of the first feeding channel, so that when the assembled bearings with different sizes are conveyed, the channel width of the first feeding channel can be reduced or widened through the position adjusting mechanism, the first feeding channel is just suitable for the size of the bearing, and the bearing can be sequentially and stably conveyed on the first feeding channel.

As preferred, position control mechanism includes the limiting plate of rectangular shape, limiting plate extending direction with first pay-off passageway pay-off direction is unanimous, the bar groove has evenly been seted up on the limiting plate, the bar groove transversely sets up on the limiting plate, each correspondence in bar groove below is equipped with a pillar, the pillar supports the limiting plate so that it is located first pay-off passageway top, the bolt is worn to be equipped with in the bar inslot, the limiting plate pass through the bolt with pillar fixed connection, stretch into on one side of limiting plate in order to occupy the place to it in the first pay-off passageway.

By adopting the structure, the width of the limiting plate extending into the first feeding channel can be adjusted by changing the fixed position of the bolt in the strip-shaped groove, so that the first feeding channel is reduced or widened, and the bearing device is suitable for bearings with different sizes.

Preferably, an installation rod is arranged on one side of the second feeding channel in parallel, a material claw for clamping a bearing is installed on the installation rod, the installation rod is connected with an air cylinder assembly, and the air cylinder assembly is used for driving the installation rod and the material claw to move simultaneously and alternately longitudinally and transversely so that the material claw clamps the bearing on the second feeding channel and moves towards the press-fitting module;

the material claw is at least installed on the installation rod, the material claws are evenly arranged on the installation rod at intervals, each material claw is provided with two separated clamping parts, each clamping part is installed on the installation rod through a bolt, a necking groove is formed in the installation rod along the length direction of the installation rod, the bolt on the clamping part is connected with the necking groove, so that the adjustment of the opening size of the material claw can be realized by adjusting the angle or the distance of the two clamping parts in the material claw.

By adopting the structure, when the bearings with different sizes are assembled, the two clamping parts of the material claw can be respectively adjusted to a proper angle and a proper distance, so that the material claw can clamp the bearing, and then the clamping parts are fixed in the necking groove by bolts.

Preferably, the cylinder assembly comprises a transverse cylinder and a longitudinal cylinder, wherein a piston rod of the longitudinal cylinder is parallel to the second feeding channel and extends and retracts along the feeding direction of the second feeding channel, the transverse cylinder is mounted on a piston rod of the longitudinal cylinder, the mounting rod is fixedly arranged at the extending end of the piston rod of the transverse cylinder, and the piston rod of the transverse cylinder drives the mounting rod to extend and retract along the width direction of the second feeding channel.

By adopting the structure, the air cylinder component drives the mounting rod and the material claw to alternately move longitudinally and transversely, namely, the mounting rod is driven to firstly advance towards the width direction of the second feeding channel until the material claw clamps the bearing in the channel, then the mounting rod is driven to move along the feeding direction, so that the material claw clamps the bearing to the press-fitting module, then the material claw is withdrawn backwards, the mounting rod and the material claw are moved to return to the original position, and the next round of movement is continued.

Preferably, a reversing module for correcting the bearing position is arranged at the front end of the second feeding channel, the reversing module comprises a sensor, a transposing cylinder and a motor, the sensor is installed at the feeding port of the second feeding channel, and the transposing cylinder is horizontally arranged at the downstream of the sensor;

the second feeding channel is provided with a gap, the transposition barrel is rotatably embedded in the gap, the central axis of the transposition barrel is perpendicular to the feeding direction of the second feeding channel, one end face of the transposition barrel is close to the material claw, the other end face of the transposition barrel is connected with the motor output shaft, a bearing channel horizontally penetrates through the transposition barrel, the bottom surface of the bearing channel is parallel to and communicated with the second feeding channels on the two sides of the bearing channel, and the motor drives the transposition barrel to rotate axially when being started.

By adopting the structure, the bearing entering the second feeding channel firstly passes through the sensor, when the bearing is positioned on the front surface, the sensor does not send a detection signal, the bearing normally passes through the bearing channel, when the bearing is positioned on the back surface, the sensor sends an abnormal signal to the control module of the whole device, the control module sends an instruction, so that when the bearing moves into the bearing channel, the motor drives the transposition cylinder and the bearing to rotate 180 degrees, and the bearing rotates to the front surface and then continues to move to the press-mounting module.

Preferably, the press-mounting module comprises a clamping mechanism, a clamp spring feeding mechanism and a press-mounting mechanism, and the clamping mechanism, the clamp spring feeding mechanism and the press-mounting mechanism are sequentially arranged above the second feeding channel from bottom to top;

the clamping mechanism comprises a first lifting cylinder, a clamping cylinder is arranged on a piston rod of the first lifting cylinder, the clamping cylinder is connected with a clamping jaw, the clamping jaw is arranged above the second feeding channel in parallel, a clamp spring guiding cone is clamped by the clamping jaw, the axial lead of the clamp spring guiding cone is perpendicular to the second feeding channel, the larger end face of the clamp spring guiding cone faces towards the second feeding channel, the first lifting cylinder drives the clamping jaw and the clamp spring guiding cone to move up and down above the second feeding channel, and when the material claw clamping bearing is conveyed to the press-fitting module, the bearing is located under the clamp spring guiding cone.

Preferably, jump ring feeding mechanism includes the pay-off subassembly, the pay-off subassembly has the pay-off position and gets the material position, the pay-off subassembly is connected with the promotion cylinder, the promotion cylinder promotes the pay-off subassembly switches between pay-off position and material position.

Preferably, the press-fitting mechanism comprises a press cylinder, the press cylinder is coaxially arranged right above the clamp spring guide cone, one end of the press cylinder, facing the clamp spring guide cone, is open, and the other end of the press cylinder is fixedly connected to a cantilever of the second lifting cylinder.

Preferably, the opening end of the pressing cylinder is provided with a magnet, and when the feeding assembly is at the feeding position, the pressing cylinder adsorbs the clamp spring on the feeding assembly to the opening end through the magnet.

After the bearing is quickly conveyed to the press-mounting module, the clamping cylinder drives the clamping jaw to clamp the clamp spring guide cone, the first lifting cylinder drives the clamping jaw and the clamp spring guide cone to rise for a certain distance, the bearing moves to the position under the guide cone at the moment, then the first lifting cylinder descends to place the guide cone on the bearing, the clamping jaw loosens the guide cone, then the pushing cylinder pushes the feeding assembly to the feeding position, the pressing cylinder adsorbs the clamp spring on the feeding assembly to the end part of the opening, the feeding assembly returns to the material taking position, the second lifting cylinder drives the pressing cylinder to descend at the moment, the clamp spring at the opening of the pressing cylinder is clamped into an axial groove of the bearing after the guide cone is expanded, and press-mounting is completed.

Has the beneficial effects that:

according to the automatic bearing snap spring press-fitting device adopting the technical scheme, the position adjusting mechanism is additionally arranged in the width direction of the first feeding channel, so that the channel width of the first feeding channel can be reduced or widened through the position adjusting mechanism when bearings with different sizes are assembled, the first feeding channel is just suitable for the size of a bearing, and the bearing can be sequentially and stably conveyed on the first feeding channel.

Drawings

Fig. 1 is a schematic structural view of the present invention;

FIG. 2 is a partial enlarged view taken at a point a in FIG. 1;

FIG. 3 is a schematic view of the present invention;

fig. 4 is a schematic structural view of the snap spring guide cone and the pressing cylinder.

Detailed Description

The present invention will be further described with reference to the following examples and accompanying drawings.

As shown in fig. 1, the automatic press-fitting bearing snap spring device comprises a workbench 1, wherein a feeding module 2, a press-fitting module 3 and a discharging module 4 are sequentially arranged on the workbench 1, the feeding module 2 comprises a first feeding channel 21 and a second feeding channel 22, a discharging port of the first feeding channel 21 is communicated with a feeding port of the second feeding channel 22, a discharging port of the second feeding channel 22 is communicated with a feeding port of the discharging module 4, and the press-fitting module 3 is arranged at the tail end of the second feeding channel 22.

In order to enable bearings of different sizes to be stably conveyed on the first feeding channel 21, a position adjusting mechanism 21a is arranged on the first feeding channel 21, the position adjusting mechanism 21a includes a strip-shaped limiting plate 21b, the extending direction of the limiting plate 21b is consistent with the feeding direction of the first feeding channel 21, a strip-shaped groove 21c is uniformly formed in the limiting plate 21b, the strip-shaped groove 21c is transversely formed in the limiting plate 21b, a supporting column 21d is correspondingly arranged below the strip-shaped groove 21c, the supporting column 21d supports the limiting plate 21b to enable the limiting plate 21b to be located above the first feeding channel 21, a bolt penetrates through the strip-shaped groove 21c, the limiting plate 21b is fixedly connected with the supporting column 21d through the bolt, one side of the limiting plate 21b extends into the first feeding channel 21, and the width of the limiting plate 21b extending into the first feeding channel 21 can be adjusted by changing the fixing position of the bolt in the strip-shaped groove 21c, so that the width of the first feeding channel 21 can be reduced or widened to adapt to the bearings of different sizes.

As can be seen from fig. 1 and 2, a mounting rod 22a is arranged in parallel on one side of the second feeding channel 22, a material claw 22b for clamping a bearing is mounted on the mounting rod 22a, the mounting rod 22a is connected with a cylinder assembly 22c, the cylinder assembly 22c includes a transverse cylinder and a longitudinal cylinder, a piston rod of the longitudinal cylinder is parallel to the second feeding channel 22 and extends and retracts along the feeding direction thereof, the transverse cylinder is mounted on a piston rod of the longitudinal cylinder, the mounting rod 22a is fixedly arranged at an extending end of the piston rod of the transverse cylinder, and the piston rod of the transverse cylinder drives the mounting rod 22a to extend and retract along the width direction of the second feeding channel 22.

When the bearing enters the second feeding channel 22, the transverse cylinder drives the mounting rod 22a to move forward in the width direction of the second feeding channel 22 until the material claw 22b on the mounting rod 22a clamps the bearing on the second feeding channel 22, then the longitudinal cylinder drives the mounting rod 22a to move along the feeding direction, so that the material claw 22b clamps the bearing to the press-fitting module 3, then the transverse cylinder drives the mounting rod 22a to move backward until the material claw 22b withdraws from the bearing, and finally the longitudinal cylinder drives the mounting rod 22a to return to the original position in the reverse feeding direction to continuously clamp the next bearing.

Further, at least two material claws 22b are mounted on the mounting rod 22a, the material claws 22b are uniformly arranged on the mounting rod 22a at intervals, each material claw 22b is provided with two separated clamping portions 22b1, each clamping portion 22b1 is mounted on the mounting rod 22a through bolts, a necking groove is formed in the mounting rod 22a along the length direction of the mounting rod, the bolts on the clamping portions 22b1 are connected with the necking grooves, when bearings of different sizes are assembled, the two clamping portions 22b1 of each material claw 22b can be respectively adjusted to be at proper angles and proper intervals, so that the material claws 22b can clamp the bearings, and then the clamping portions 22b1 are fixed in the necking grooves through bolts.

As shown in fig. 2, a reversing module 23 for correcting the bearing orientation is disposed at the front end of the second feeding channel 22, and one specific arrangement manner of the reversing module 23 is that the reversing module 23 includes a sensor 23a, a transposing cylinder 23b and a motor 23c, the sensor 23a is installed at a feeding port of the second feeding channel 22, and the transposing cylinder 23b is horizontally disposed at the downstream of the sensor 23 a;

the second feeding channel 22 is provided with a gap, the transposing cylinder 23b is rotatably embedded in the gap, the central axis of the transposing cylinder 23b is perpendicular to the feeding direction of the second feeding channel 22, one end face of the transposing cylinder 23b is close to the material claw 22b, the other end face of the transposing cylinder 23b is connected with the output shaft of the motor 23c, a bearing channel 23b1 horizontally penetrates through the transposing cylinder 23b, and the bottom face of the bearing channel 23b1 is parallel to and communicated with the second feeding channels 22 on the two sides of the bearing channel 23 b;

the sensor 23a can adopt a photoelectric sensor, a bearing entering the second feeding channel 22 firstly passes through the sensor 23a, because a clamp spring groove on an outer ring of the bearing is close to one end of the bearing, when the bearing is positioned on the front surface, the sensor 23a does not send out a detection signal, the bearing normally passes through the bearing channel 23b1, when the bearing is inverted, the clamp spring groove is staggered with the photoelectric sensor, the sensing end of the photoelectric sensor is shielded by the outer ring of the bearing, at the moment, the sensor 23a generates an abnormal signal and transmits the abnormal signal to a control module of the whole device, and when the bearing moves into the bearing channel 23b1, the control module sends out a command to start the motor 23c and drive the transposing cylinder 23b to rotate 180 degrees to correct the direction of the bearing.

As can be seen from fig. 3, the press-fitting module 3 includes a clamping mechanism 31, a snap spring feeding mechanism 32 and a press-fitting mechanism 33, and the clamping mechanism 31, the snap spring feeding mechanism 32 and the press-fitting mechanism 33 are sequentially disposed above the second feeding channel 22 from bottom to top;

the clamping mechanism 31 includes a first lifting cylinder 31b, a clamping cylinder is disposed on a piston rod of the first lifting cylinder 31b, the clamping cylinder is connected with a clamping jaw 31a, the clamping jaw 31a is disposed above the second feeding channel 22 in parallel, the clamping jaw 31a clamps a clamp spring guide cone 31c, the clamp spring guide cone 31c can be positioned on the clamp spring mold by using a designated bearing as disclosed in patent document CN 213196437U, an axial line of the clamp spring guide cone 31c is perpendicular to the second feeding channel 22, a larger end surface of the clamp spring guide cone 31c faces the second feeding channel 22, the first lifting cylinder 31b drives the clamping jaw 31a and the clamp spring guide cone 31c to perform lifting motion above the second feeding channel 22, and when the material jaw 22b clamps a bearing and conveys the press-fitting module 3, the bearing is located right below the clamp spring guide cone 31 c.

Jump ring feeding mechanism 32 includes feeding component 32a, feeding component 32a has the material feeding position and gets the material position, feeding component 32a is connected with push cylinder 32b, push cylinder 32b promotes feeding component 32a switches between the material feeding position and getting the material position, feeding component 32a and push cylinder 32b can adopt the jump ring propelling movement module as disclosed in patent document CN 110434597A.

The press-fitting mechanism 33 comprises a press cylinder 33a, the press cylinder 33a is arranged right above the clamp spring guide cone 31c along the same axial line, the press cylinder 33a is open towards one end of the clamp spring guide cone 31c, the other end of the press cylinder 33a is fixedly connected to a cantilever of the second lifting cylinder 33b, the structure and the matching method of the press cylinder 33a and the clamp spring guide cone 31c adopt a clamp spring mold positioned by a press head and a conical bearing as disclosed in patent document CN 213196437U, furthermore, the open end of the press cylinder 33a is provided with a magnet, and when the feeding assembly 32a is at a feeding position, the press cylinder 33a adsorbs the clamp spring on the feeding assembly 32a to the open end through the magnet. When used for different bearings, the pressing cylinder 33a of an appropriate size is replaced.

When the bearing is conveyed to the press-fitting module 3, the clamping cylinder drives the clamping jaw 31a to clamp the snap spring guide cone 31c, the first lifting cylinder 31b drives the clamping jaw 31a and the snap spring guide cone 31c to rise for a certain distance, the bearing moves to a position right below the snap spring guide cone 31c at the moment, after the first lifting cylinder 31b descends to place the snap spring guide cone 31c on the bearing, the clamping jaw 31a loosens the snap spring guide cone 31c, then the pushing cylinder 32b pushes the feeding assembly 32a to a feeding position, the pressing cylinder 33a adsorbs a snap spring on the feeding assembly 32a to an opening end, the feeding assembly retracts to a taking position, at the moment, the second lifting cylinder 33b drives the pressing cylinder 33a to descend, the snap spring at the opening of the pressing cylinder 33a is expanded by the guide cone 31c and then clamped into a snap spring groove of an outer sleeve of the bearing, and press-fitting is completed, wherein the structures and press-fitting processes of the pressing cylinder 33a and the snap spring guide cone 31c are shown in fig. 4.

The blanking module 4 is obliquely arranged on the workbench 1, a discharge port of the blanking module 4 is connected with a bearing material box, and a bearing after being pressed and mounted by the pressing module 3 enters the bearing material box along the inclined surface of the blanking module 4.

Finally, it should be noted that the above description is only a preferred embodiment of the present invention, and those skilled in the art can make various similar representations without departing from the spirit and the scope of the present invention.

Claims (9)

1. The utility model provides an automatic pressure equipment bearing jump ring device, includes workstation (1), be equipped with material loading module (2), pressure equipment module (3) and unloading module (4) on workstation (1) in order, material loading module (2) include first pay-off passageway (21) and second pay-off passageway (22), the discharge gate of first pay-off passageway (21) with the feed inlet intercommunication of second pay-off passageway (22), the discharge gate of second pay-off passageway (22) with the feed inlet intercommunication of unloading module (4), pressure equipment module (3) set up second pay-off passageway (22) are terminal, its characterized in that: the first feeding channel (21) is provided with a position adjusting mechanism (21 a), the position adjusting mechanism (21 a) is arranged in the width direction of the first feeding channel (21), and the channel width of the first feeding channel (21) is changed through the position adjusting mechanism (21 a).

2. The automatic press fitting bearing clamp spring device according to claim 1, wherein: position adjustment mechanism (21 a) includes limiting plate (21 b) of rectangular shape, limiting plate (21 b) extending direction with first pay-off passageway (21) pay-off direction is unanimous, strip groove (21 c) have evenly been seted up on limiting plate (21 b), strip groove (21 c) transversely sets up on limiting plate (21 b), each correspondence in strip groove (21 c) below is equipped with a spinal branch post (21 d), pillar (21 d) support limiting plate (21 b) is so that it is located first pay-off passageway (21) top, wear to be equipped with the bolt in strip groove (21 c), limiting plate (21 b) pass through the bolt with pillar (21 d) fixed connection, one side of limiting plate (21 b) stretches into in order to occupy the place it in first pay-off passageway (21).

3. The automatic press fitting bearing clamp spring device according to claim 1, wherein: a mounting rod (22 a) is arranged on one side of the second feeding channel (22) in parallel, a material claw (22 b) for clamping a bearing is mounted on the mounting rod (22 a), the mounting rod (22 a) is connected with a cylinder assembly (22 c), and the cylinder assembly (22 c) is used for driving the mounting rod (22 a) and the material claw (22 b) to move simultaneously and alternately move longitudinally and transversely so that the material claw (22 b) clamps the bearing on the second feeding channel (22) and moves towards the press-fitting module (3);

the material claw (22 b) is arranged on the mounting rod (22 a) at least in two, the material claws (22 b) are arranged on the mounting rod (22 a) at uniform intervals, each material claw (22 b) is provided with two separated clamping parts (22 b 1), each clamping part (22 b 1) is mounted on the mounting rod (22 a) through a bolt, a reducing groove is formed in the mounting rod (22 a) along the length direction of the mounting rod, and the bolt on each clamping part (22 b 1) is connected with the reducing groove to allow the opening size of the material claw (22 b) to be adjusted by adjusting the angle or/and the distance of the two clamping parts (22 b 1) in the same material claw (22 b).

4. The automatic press fitting bearing clamp spring device according to claim 3, wherein: the cylinder assembly (22 c) comprises a transverse cylinder and a longitudinal cylinder, wherein a piston rod of the longitudinal cylinder is parallel to the second feeding channel (22) and stretches along the feeding direction of the second feeding channel, the transverse cylinder is mounted on a piston rod of the longitudinal cylinder, a mounting rod (22 a) is fixedly arranged at the extending end of the piston rod of the transverse cylinder, and the piston rod of the transverse cylinder drives the mounting rod (22 a) to stretch along the width direction of the second feeding channel (22).

5. The automatic press fitting bearing clamp spring device according to claim 3, wherein: a reversing module (23) for correcting the bearing direction is arranged at the front end of the second feeding channel (22), the reversing module (23) comprises a sensor (23 a), a transposing cylinder (23 b) and a motor (23 c), the sensor (23 a) is installed at a feeding port of the second feeding channel (22), and the transposing cylinder (23 b) is horizontally arranged at the downstream of the sensor (23 a);

the second feeding channel (22) is provided with a gap, the transposition cylinder (23 b) is rotatably embedded in the gap, the central axis of the transposition cylinder (23 b) is perpendicular to the feeding direction of the second feeding channel (22), one end face of the transposition cylinder (23 b) is close to the material claw (22 b), the other end face of the transposition cylinder (23 b) is connected with an output shaft of the motor (23 c), a bearing channel (23 b 1) horizontally penetrates through the transposition cylinder (23 b), the bottom face of the bearing channel (23 b 1) is parallel to and communicated with the second feeding channels (22) on two sides of the bearing channel, and the motor (23 c) drives the transposition cylinder (23 b) to axially rotate when being started.

6. The automatic press fitting bearing clamp spring device according to claim 1, wherein: the press-mounting module (3) comprises a clamping mechanism (31), a clamp spring feeding mechanism (32) and a press-mounting mechanism (33), and the clamping mechanism (31), the clamp spring feeding mechanism (32) and the press-mounting mechanism (33) are sequentially arranged above the second feeding channel (22) from bottom to top;

the clamping mechanism (31) comprises a first lifting cylinder (31 b), a clamping cylinder is arranged on a piston rod of the first lifting cylinder (31 b), the clamping cylinder is connected with a clamping jaw (31 a), the clamping jaw (31 a) is arranged above the second feeding channel (22) in parallel, a clamp spring guide cone (31 c) is clamped by the clamping jaw (31 a), the axial lead of the clamp spring guide cone (31 c) is perpendicular to the second feeding channel (22), and the larger end face of the clamp spring guide cone (31 c) faces the second feeding channel (22).

7. The automatic press fitting bearing clamp spring device according to claim 6, wherein: jump ring feeding mechanism (32) are including pay-off subassembly (32 a), pay-off subassembly (32 a) have the pay-off position and get the material position, pay-off subassembly (32 a) are connected with and promote cylinder (32 b), it promotes to promote cylinder (32 b) pay-off subassembly (32 a) are pay-off position and are got and switch between the material position.

8. The automatic press fitting bearing snap spring device according to claim 7, wherein: the press-fitting mechanism (33) comprises a press cylinder (33 a), the press cylinder (33 a) is arranged right above the clamp spring guide cone (31 c) with the same axial lead, the press cylinder (33 a) faces towards one end of the clamp spring guide cone (31 c) and is open, and the other end of the press cylinder (33 a) is fixedly connected to a cantilever of the second lifting cylinder (33 b).

9. The automatic press fitting bearing clamp spring device according to claim 8, wherein: the opening end of the pressing cylinder (33 a) is provided with a magnet, and when the feeding component (32 a) is at a feeding position, the pressing cylinder (33 a) adsorbs a clamp spring on the feeding component (32 a) to the opening end through the magnet.

Images