CN217334633U - Double-mold voltage dividing mechanism of terminal machine - Google Patents

Abstract

The utility model discloses a bimodulus utensil bleeder mechanism of terminal machine, including mechanism mount and two sets of crimping subassemblies, the upper end of mechanism mount is fixed with the slider support, the crimping subassembly is including driving motor, the speed reducer, the eccentric shaft, horizontal slider, vertical slider and mould drift, horizontal slider is installed at the front end of eccentric shaft, be provided with the transverse groove along horizontal direction on the vertical slider, horizontal slider slides in the transverse groove, be provided with vertical groove along vertical direction on the slider support, vertical slider slides in vertical inslot, the upper end of mould drift is connected with the lower extreme of vertical slider. This terminal machine's bimodulus utensil bleeder mechanism has two sets of crimping structures, can carry out detached crimping to the power cord product of two kinds of different terminal models, because two sets of crimping structures are mutually independent, also convenient the regulation on the single-terminal model, and the structure is light itself, and low in manufacturing cost is also low, and linkage structure propelling movement terminal moves forward in the crimping, can the wide application on the production line of terminal crimping.

Description

Double-mold voltage dividing mechanism of terminal machine

Technical Field

The utility model relates to a technical field of terminal production especially relates to a bimodulus utensil bleeder mechanism of terminal machine.

Background

The terminal is required to be installed at the end part of the wire in the production process of the power line, the conventional installation mode is crimping, the wire stripped of the sheath is placed on the unfolded terminal, and then the terminal is folded to coat the wire to form an integral power line structure. The existing equipment can only carry out crimping of one terminal at a time, if a second terminal needs to be produced, the crimping structure needs to be adjusted or replaced, shutdown processing needs to be carried out, and crimping of the two terminals is affected.

SUMMERY OF THE UTILITY MODEL

The utility model discloses an aim at: the utility model provides a bimodulus mould partial pressure mechanism of terminal machine for solve the problem that prior art exists.

To achieve the purpose, the utility model adopts the following technical proposal:

a double-mould pressure dividing mechanism of a terminal machine comprises a mechanism fixing frame and two groups of crimping components, wherein a sliding block support is fixed in front of the upper end of the mechanism fixing frame, the crimping component comprises a driving motor, a speed reducer, an eccentric shaft, a transverse sliding block, a vertical sliding block, a mounting rack, a swinging arm, a die punch and a terminal conveying track, the driving motor is fixed at the upper end of the mechanism fixing frame, the speed reducer is connected between the driving motor and the eccentric shaft, the transverse sliding block is arranged at the front end of the eccentric shaft, a transverse groove is arranged on the vertical sliding block along the transverse direction, the transverse sliding block slides in the transverse groove, a vertical groove is arranged on the sliding block support along the vertical direction, the vertical sliding block slides in the vertical groove, and the upper end of the die punch is connected with the lower end of the vertical sliding block.

As a preferable technical solution, a first bearing is installed in the slider support, a rotating shaft of the eccentric shaft passes through the first bearing, a second bearing is installed in the transverse slider, and an eccentric protrusion of the eccentric shaft is inserted into the second bearing.

As a preferred technical scheme, the upper end of swing arm articulates the rear end of mounting bracket, the middle part of swing arm is provided with curved movable groove, the rear end of mould drift is provided with the loose axle, the loose wheel is installed to the one end of loose axle, the loose wheel activity in curved movable groove, the lower extreme of swing arm articulates there is the claw arm, terminal delivery track's front end in the below of mould drift, the one end activity of claw arm is in on the terminal delivery track.

As a preferred technical scheme, a first pressure head is fixed at the lower end of the mounting frame, a second pressure head is fixed at the lower end of the die punch, an opening is formed in the middle of the second pressure head, and the first pressure head is inserted into the opening.

As a preferable technical solution, the lower end of the swing arm is provided with an adjusting block and an adjusting groove, the adjusting block is provided with an adjusting screw, the adjusting screw penetrates through the swing arm and then is in threaded connection with the adjusting block, the adjusting block slides in the adjusting groove, and the claw arm is located on the adjusting block.

As a preferable technical solution, an arc-shaped slat is disposed at the rear end of the terminal conveying track, the arc-shaped slat covers the terminal conveying track, and the front end of the arc-shaped slat bends downward.

As a preferred technical scheme, the lower extreme both sides of mounting bracket all are provided with first inclined plane, be provided with the slope piece on the mechanism mount, be provided with the second inclined plane on the slope piece, first inclined plane with the laminating of second inclined plane, the locking of slope piece is in on the mechanism mount.

As a preferred technical scheme, one side of the mechanism fixing frame is provided with a socket, a first material rod is inserted into the socket along the vertical direction, and a first material disc is installed at the upper end of the first material rod.

As a preferred technical scheme, one side of mechanism's mount is provided with adjusts the seat, be provided with the arc wall on adjusting the seat, be connected with the second on the arc wall and expect the pole, the second charging tray is installed to the upper end that the second expects the pole.

The beneficial effects of the utility model are that: the double-mould voltage dividing mechanism of the terminal machine is provided with two sets of crimping structures, can be used for separately crimping power line products with two different terminal models, is convenient to adjust on a single terminal model due to the fact that the two sets of crimping structures are mutually independent, is light in structure and low in manufacturing cost, can push terminals to move forwards in a linkage structure during crimping, and can be widely applied to a terminal crimping production line.

Drawings

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

Fig. 1 is a schematic view of a first overall structure of a dual-mold voltage dividing mechanism of a terminal machine according to an embodiment;

fig. 2 is a schematic view of a second overall structure of a dual-mold voltage dividing mechanism of a terminal machine according to an embodiment;

FIG. 3 is a perspective view of the upper end of the crimping assembly according to an embodiment;

FIG. 4 is a first exploded view of the upper end of the crimping assembly according to an embodiment;

FIG. 5 is a second exploded view of the upper end of the crimping assembly of the embodiment;

FIG. 6 is a first perspective view of a lower end of a crimping assembly according to an embodiment;

figure 7 is a second perspective view of the lower end of the crimping assembly according to the embodiment.

In fig. 1 to 7:

1. a mechanism fixing frame; 2. a drive motor; 3. a mounting frame; 4. a swing arm; 5. a die punch; 6. a terminal conveying rail; 7. a curved movable groove; 8. a movable shaft; 9. a movable wheel; 10. a claw arm; 11. a first ram; 12. a second ram; 13. an adjusting block; 14. an adjustment groove; 15. adjusting the screw rod; 16. an arc-shaped lath; 17. a first inclined surface; 18. an inclined block; 19. a socket; 20. a first material rod; 21. a first tray; 22. an adjusting seat; 23. an arc-shaped slot; 24. a second material rod; 25. a second tray; 26. a slider support; 27. a speed reducer; 28. an eccentric shaft; 29. a transverse slide block; 30. a vertical slide block; 31. a transverse slot; 32. a vertical groove; 33. a first bearing; 34. a second bearing; 35. and (4) a bolt.

Detailed Description

The technical solution of the present invention is further explained by the following embodiments with reference to the accompanying drawings.

As shown in fig. 1 to 7, in this embodiment, a dual-mold voltage dividing mechanism of a terminal machine includes a mechanism fixing frame 1 and two sets of crimping components, a slider support 26 is fixed in front of an upper end of the mechanism fixing frame 1, each crimping component includes a driving motor 2, a speed reducer 27, an eccentric shaft 28, a transverse slider 29, a vertical slider 30, a mounting frame 3, a swing arm 4, a mold punch 5, and a terminal conveying rail 6, the driving motor 2 is fixed on the upper end of the mechanism fixing frame 1, the speed reducer 27 is connected between the driving motor 2 and the eccentric shaft 28, the transverse slider 29 is mounted at a front end of the eccentric shaft 28, a transverse groove 31 is formed in the vertical slider 30 along a transverse direction, the transverse slider 29 slides in the transverse groove 31, a vertical groove 32 is formed in the slider support 26 along a vertical direction, vertical slider 30 slides in vertical groove 32, the upper end of mould drift 5 with the lower extreme of vertical slider 30 is connected, the upper end of swing arm 4 articulates the rear end of mounting bracket 3, the middle part of swing arm 4 is provided with curved type activity groove 7, the rear end of mould drift 5 is provided with loose axle 8, loose wheel 9 is installed to the one end of loose axle 8, loose wheel 9 move about in curved type activity groove 7, the lower extreme of swing arm 4 articulates there is claw arm 10, the front end of terminal delivery track 6 is in the below of mould drift 5, the one end activity of claw arm 10 is in on the terminal delivery track 6.

Specifically, a first bearing 33 is installed in the slider support 26, the rotation shaft of the eccentric shaft 28 passes through the first bearing 33, a second bearing 34 is installed in the lateral slider 29, and the eccentric protrusion of the eccentric shaft 28 is inserted into the second bearing 34.

When the crimping operation is carried out, the driving motor 2 controls the eccentric shaft 28 to rotate around the first bearing 33 after being decelerated by the speed reducer 27, the eccentric protrusion at the front end of the eccentric shaft 28 controls the transverse slider 29 and the vertical slider 30 to start moving, in the process of rotating and winding the eccentric protrusion, the transverse slider 29 moves along the transverse groove 31, the vertical slider 30 moves along the vertical groove 32, the die punch 5 can move back and forth in the vertical direction through linkage of the transverse slider 29 and the vertical slider, and the purpose of crimping a terminal is met.

When the front end mechanism conveys the wire rod into the crimping component, the driving motor 2 controls the die punch 5 to move downwards through the transmission of the eccentric shaft 28, the wire rod placed on the mounting frame 3 is in crimping connection with the terminal conveyed by the terminal conveying rail 6, so that the terminal and the wire rod are combined into a whole, when the die punch 5 presses downwards, due to the linkage of the swing arm 4, the mounting frame 3 and the die punch 5, the movable wheel 9 moves in the bent movable groove 7, the swing arm 4 is controlled to move the claw arm 10 backwards, when the die punch 5 finishes crimping action and ascends, the swing arm 4 can control the claw arm 10 to move forwards, one terminal is stirred to be in place forwards, and the next wire rod is waited to be crimped.

The lower extreme of mounting bracket 3 is fixed with first pressure head 11, and the lower extreme of mould drift 5 is fixed with second pressure head 12, and the middle part of second pressure head 12 is provided with the opening, and first pressure head 11 inserts the opening, and at the crimping in-process, first pressure head 11 is responsible for the support terminal, and when second pressure head 12 impressed the terminal with the wire rod, the opening also inwards drawn in the shaping with the terminal both sides.

The lower end of the swing arm 4 is provided with an adjusting block 13 and an adjusting groove 14, an adjusting screw 15 is installed on the adjusting block 13, the adjusting screw 15 penetrates through the swing arm 4 and then is in threaded connection with the adjusting block 13, the adjusting block 13 slides in the adjusting groove 14, the claw arm 10 is located on the adjusting block 13, the adjusting screw 15 is rotated according to the shape of the terminal, the adjusting block 13 is controlled to move in the adjusting groove 14, and therefore the lower end of the claw arm 10 is aligned with the terminal on the terminal conveying track 6.

The rear end of the terminal conveying track 6 is provided with an arc-shaped batten 16, the arc-shaped batten 16 covers the terminal conveying track 6, the front end of the arc-shaped batten 16 bends downwards, when the claw arm 10 moves forwards, the claw arm 10 moves to the terminal in the terminal conveying track 6 through the arc-shaped batten 16, the terminal is shifted to move forwards, and when the claw arm 10 moves backwards, the claw arm is pressed on the arc-shaped batten 16 to wait for shifting the next terminal.

The lower extreme both sides of mounting bracket 3 all are provided with first inclined plane 17, be provided with slope piece 18 on the mechanism mount 1, be provided with the second inclined plane on the slope piece 18, first inclined plane 17 and the laminating of second inclined plane, slope piece 18 locking is on mechanism mount 1, can fixed mounting bracket 3 under the slope piece 18 effect of both sides, and change mounting bracket 3 according to the crimping situation of terminal, still be connected with bolt 35 on the slope piece 18 of one side wherein, bolt 35 inserts on the mechanism mount 1.

One side of mechanism mount 1 is provided with socket 19, first material pole 20 has been inserted along vertical direction on the socket 19, first charging tray 21 is installed to the upper end of first material pole 20, one side of mechanism mount 1 is provided with adjusts seat 22, be provided with arc wall 23 on adjusting seat 22, be connected with second material pole 24 on the arc wall 23, second charging tray 25 is installed to the upper end of second material pole 24, wherein first charging tray 21 carries out the terminal pay-off to two crimping subassemblies respectively with second charging tray 25, each other does not influence.

It should be noted that the above embodiments are only preferred embodiments of the present invention and the technical principles applied, and any changes or substitutions which can be easily conceived by those skilled in the art within the technical scope of the present invention are covered by the protection scope of the present invention.

Claims (9)

1. A double-mold pressure dividing mechanism of a terminal machine is characterized by comprising a mechanism fixing frame and two groups of crimping components, a slide block support is fixed in front of the upper end of the mechanism fixing frame, the crimping component comprises a driving motor, a speed reducer, an eccentric shaft, a transverse slide block, a vertical slide block, a mounting frame, a swing arm, a die punch and a terminal conveying track, the driving motor is fixed at the upper end of the mechanism fixing frame, the speed reducer is connected between the driving motor and the eccentric shaft, the transverse sliding block is arranged at the front end of the eccentric shaft, a transverse groove is arranged on the vertical sliding block along the transverse direction, the transverse sliding block slides in the transverse groove, a vertical groove is arranged on the sliding block support along the vertical direction, the vertical sliding block slides in the vertical groove, and the upper end of the die punch is connected with the lower end of the vertical sliding block.

2. The dual-mold voltage dividing mechanism of a terminal machine according to claim 1, wherein a first bearing is installed in the slider holder, a rotation shaft of the eccentric shaft passes through the first bearing, a second bearing is installed in the lateral slider, and an eccentric protrusion of the eccentric shaft is inserted into the second bearing.

3. The dual-mold pressure dividing mechanism of the terminal machine according to claim 1, wherein the upper end of the swing arm is hinged to the rear end of the mounting frame, a bent movable groove is formed in the middle of the swing arm, a movable shaft is arranged at the rear end of the mold punch, a movable wheel is mounted at one end of the movable shaft, the movable wheel moves in the bent movable groove, a claw arm is hinged to the lower end of the swing arm, the front end of the terminal conveying track is located below the mold punch, and one end of the claw arm moves on the terminal conveying track.

4. The double-mold voltage dividing mechanism of the terminal machine as claimed in claim 1, wherein a first pressure head is fixed at a lower end of the mounting frame, a second pressure head is fixed at a lower end of the mold punch, an opening is provided in a middle portion of the second pressure head, and the first pressure head is inserted into the opening.

5. The dual-mold voltage dividing mechanism of the terminal machine according to claim 3, wherein a lower end of the swing arm is provided with an adjusting block and an adjusting groove, an adjusting screw is mounted on the adjusting block, the adjusting screw penetrates through the swing arm and then is connected to the adjusting block in a threaded manner, the adjusting block slides in the adjusting groove, and the claw arm is located on the adjusting block.

6. The dual-mold voltage dividing mechanism of the terminal machine according to claim 1, wherein an arc-shaped strip is arranged at the rear end of the terminal conveying track, the arc-shaped strip covers the terminal conveying track, and the front end of the arc-shaped strip bends downward.

7. The dual-mold voltage dividing mechanism of the terminal machine as claimed in claim 1, wherein both sides of the lower end of the mounting frame are provided with first inclined planes, the mechanism fixing frame is provided with an inclined block, the inclined block is provided with a second inclined plane, the first inclined planes are attached to the second inclined planes, and the inclined block is locked on the mechanism fixing frame.

8. The dual-mold voltage dividing mechanism of the terminal machine according to claim 1, wherein a socket is disposed on one side of the mechanism fixing frame, a first material rod is inserted into the socket along a vertical direction, and a first material tray is mounted at an upper end of the first material rod.

9. The dual-mold voltage dividing mechanism of the terminal machine according to claim 1, wherein an adjusting seat is disposed on one side of the mechanism fixing frame, an arc-shaped groove is disposed on the adjusting seat, a second material rod is connected to the arc-shaped groove, and a second material tray is mounted at an upper end of the second material rod.

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