CN217371244U - Storage battery bolt terminal riveting mechanism - Google Patents

Abstract

The utility model relates to a riveting mechanism for a storage battery bolt terminal, which comprises a power part, a discharging part, a frame and a riveting part; the riveting device comprises a frame, a feeding part, a pressing riveting part, a buffering part, a pushing part, a support part and a riveting part, wherein the feeding part is connected with a rotating shaft of the power part through a turntable, the feeding part is symmetrical about the power part, the feeding part corresponds to the pressing riveting part in position, the feeding part is movably connected with the turntable through the buffering part, the frame is provided with the pushing part, the pressing riveting part is movably connected with the frame through the pushing rod of the pushing part, the turntable is in contact with the support part at the bottom of the frame, the support part corresponds to the pressing riveting part in position, and the pressing riveting part is provided with a middle part and a side part. The utility model provides a storage battery bolt terminal riveting mechanism has improved the pressure and has riveted efficiency, has practiced thrift manufacturing cost.

Description

Storage battery bolt terminal riveting mechanism

Technical Field

The utility model relates to a press and rivet the field, concretely relates to storage battery bolt terminal riveting mechanism.

Background

The riveting is a common procedure in the production process, namely, the step of connecting two or more parts together in a pressing mode; the battery bolt terminal is an important conductive part on a battery and is assembled together by adopting a press riveting mode.

The existing common pressure riveting device only has one discharging part, and the pressure riveting efficiency is low.

SUMMERY OF THE UTILITY MODEL

The utility model aims at: the battery bolt terminal riveting mechanism solves the problems.

In order to achieve the above object, the present invention provides the following technical solutions:

a storage battery bolt terminal riveting mechanism comprises a power part, a discharging part, a frame and a riveting part; the riveting device comprises a frame, a feeding part, a pressing riveting part, a buffering part, a pushing part, a support part and a riveting part, wherein the feeding part is connected with a rotating shaft of the power part through a turntable, the feeding part is symmetrical about the power part, the feeding part corresponds to the pressing riveting part in position, the feeding part is movably connected with the turntable through the buffering part, the frame is provided with the pushing part, the pressing riveting part is movably connected with the frame through the pushing rod of the pushing part, the turntable is in contact with the support part at the bottom of the frame, the support part corresponds to the pressing riveting part in position, and the pressing riveting part is provided with a middle part and a side part.

Furthermore, the discharging parts are uniformly distributed on the rotary table, the power parts are motors, a trough and a top edge part are arranged on the discharging parts, and the discharging parts are connected with the rotary table through guide shafts.

Further, the power part is a stepping motor, the top edge part is symmetrical relative to the trough, and the top edge part penetrates through the trough wall of the trough.

Further, the side portion is symmetrical about the middle portion, the pushing member is specifically an air cylinder or an oil cylinder, the buffering member is an elastic element, and a limiting member is arranged on the outer side of the rotary table.

Further, the middle part is specifically cylindrical, a driving surface is arranged on the side part, and the buffer part is specifically a spring.

The utility model has the advantages that: the utility model provides a storage battery bolt terminal riveting mechanism, use mutually supporting through power spare, blowing spare, frame and pressure riveting spare, have the pressure riveting device of a plurality of blowing parts through the preparation, realize simultaneously pressing the riveting process, place the part that needs the pressure riveting to other blowing parts on one side, realize the effect of pressing the riveting fast, improved and pressed the riveting efficiency, practiced thrift manufacturing cost.

Drawings

Fig. 1 is the utility model relates to an overall structure axonometric drawing of storage battery bolt terminal riveting mechanism.

Fig. 2 is an axonometric view of the partial structure of the riveting mechanism for the terminal of the storage battery bolt of the utility model.

Fig. 3 is a front view of the overall structure of the battery bolt terminal riveting mechanism of the present invention.

Fig. 4 is an axonometric view of the other part of the structure of the riveting mechanism for the terminal of the storage battery bolt of the present invention.

Fig. 5 is a front view of a part of the structure of a battery bolt riveting mechanism of the present invention.

In the figure: 1. a power member; 2. a turntable; 3. a stopper; 4. a discharge member; 41. a trough; 42. a top edge piece; 5. a buffer member; 6. a frame; 7. a pusher member; 8. pressing and riveting the parts; 9. a middle part; 10. and a side part.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more clearly understood, the present invention will be further described in detail with reference to the accompanying drawings and embodiments. It should be understood that the specific embodiments described herein are for purposes of illustration only and are not intended to limit the invention.

Referring to fig. 1 to 5, a battery bolt terminal riveting mechanism comprises a power part 1, a discharging part 4, a frame 6 and a riveting part 8; the discharging part 4 is connected with the rotating shaft of the power part 1 through the turntable 2 and is used for ensuring that the power part 1 drives the turntable 2 and the discharging part 4 to move so as to achieve the purpose of conveying parts on the discharging part 4, the discharging part 4 is symmetrical about the power part 1, the discharging part 4 corresponds to the rivet pressing part 8 in position, is used for riveting parts on the discharging piece 4, the discharging piece 4 is movably connected with the rotary table 2 through a buffer piece 5, used for buffering the pressure during pressure riveting, a pushing part 7 is arranged on the frame 6, the pressure riveting part 8 is movably connected with the frame 6 through a push rod of the pushing part 7, the rotating disc 2 is in contact with a support at the bottom of the frame 6, which corresponds in position to the rivet pressing 8, for supporting the riveting process, the riveting piece 8 is provided with a middle part 9 and a side part 10, the riveting device is used for realizing the function of riveting, and the power part 1 and the pushing part 7 are connected with an external control system.

The blanking part 4 is evenly distributed on the turntable 2 and used for ensuring the stable continuous riveting, the power part 1 is a motor and used for driving the turntable 2 to rotate, the blanking part 4 is provided with a trough 41 and a top edge part 42, the trough 41 is used for placing parts, the top edge part 42 is used for bending the extending edge of the side face of the part, and the blanking part 4 is connected with the turntable 2 through a guide shaft.

The power part 1 is a stepping motor and is used for accurately controlling the rotating angle of the turntable, the top edge part 42 is symmetrical relative to the trough 41, and the top edge part 42 penetrates through the trough wall of the trough 41 and is used for ensuring that the top edge part 42 can bend the extending edge on the side face of the part.

The side parts 10 are symmetrical relative to the middle part 9 and are used for matching with the shape of a part, the pushing part 7 is specifically an air cylinder or an oil cylinder, the buffering part 5 is an elastic element, and the limiting part 3 is arranged on the outer side of the rotary disc 2 and is used for matching with the trough 41 to limit the position of the part.

The middle part 9 is in particular cylindrical, the side part 10 is provided with a driving surface, and the buffer 5 is in particular a spring.

The utility model discloses a theory of operation does: before riveting operation is started, the parts to be riveted are conveyed into a trough 41 of a discharging part 4; then, beginning a riveting process: the power part 1 starts to work under the control of an external control system to drive the rotary table 2 to rotate, in the process, the rotary table 2 drives the discharging part 4 on the rotary table to move, the rotary table 2 drives the discharging part 4 to reach the position under the rivet pressing part 8, at the moment, the power part 1 stops working, then the pushing part 7 under the control of the external control system pushes the rivet pressing part 8 to move towards the discharging part 4, in the process, the middle part 9 contacts the center of the part, meanwhile, the side part 10 contacts the top edge part 42 to drive the top edge part 42 to move towards the part, further, the top edge part 42 bends the extending edge of the side surface of the part, in the process, the rivet pressing part 8 pushes the discharging part 4 to compress the buffer part 5 and contact the rotary table 2, after the rivet pressing process is finished, the pushing part 7 drives the rivet pressing part 8 to reset, then the power part 1 drives the rotary table 2 to continue to rotate until the next discharging part 4 reaches the position under the rivet pressing part 8, the power tool 1 stops the external carrying mechanism again to carry away the clinched component, and carries a new component onto the discharging tool 4, and the clincher 8 clinches the component below the new component again, and the above steps are maintained until the end of the work.

The above examples are provided for further illustration of the present invention, but do not limit the present invention to these specific embodiments. Any modification, equivalent replacement, and improvement made within the spirit and principle of the present invention should be understood as being within the protection scope of the present invention.

Claims (5)

1. The utility model provides a storage battery bolt terminal riveting mechanism which characterized in that: comprises a power piece (1), a material placing piece (4), a frame (6) and a rivet pressing piece (8); the riveting device is characterized in that the discharging part (4) is connected with a rotating shaft of the power part (1) through a rotary disc (2), the discharging part (4) is symmetrical relative to the power part (1), the discharging part (4) corresponds to the position of the rivet pressing part (8), the discharging part (4) is movably connected with the rotary disc (2) through a buffer part (5), a pushing part (7) is arranged on the frame (6), the rivet pressing part (8) is movably connected with the frame (6) through a push rod of the pushing part (7), the rotary disc (2) is in contact with a supporting part at the bottom of the frame (6), the supporting part corresponds to the position of the rivet pressing part (8), and a middle part (9) and a lateral part (10) are arranged on the rivet pressing part (8).

2. The battery bolt terminal riveting mechanism of claim 1, which is characterized in that: the feeding parts (4) are uniformly distributed on the rotary table (2), the power part (1) is a motor, a trough (41) and a top edge part (42) are arranged on the feeding parts (4), and the feeding parts (4) are connected with the rotary table (2) through guide shafts.

3. The battery bolt terminal riveting mechanism of claim 2, wherein: the power part (1) is a stepping motor, the top edge part (42) is symmetrical relative to the trough (41), and the top edge part (42) penetrates through the trough wall of the trough (41).

4. The battery bolt terminal riveting mechanism of claim 1, which is characterized in that: the side parts (10) are symmetrical relative to the middle part (9), the pushing part (7) is specifically an air cylinder or an oil cylinder, the buffering part (5) is an elastic element, and the limiting part (3) is arranged on the outer side of the rotary disc (2).

5. The battery bolt terminal riveting mechanism of claim 4, wherein: the middle part (9) is cylindrical, the side part (10) is provided with a driving surface, and the buffer part (5) is a spring.

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