CN220797374U - Novel numerical control cable processor - Google Patents

Abstract

The utility model relates to the technical field of cable manufacturing, in particular to a novel numerical control cable manufacturing machine. The utility model overcomes the defects of the prior art; the toothed plate is moved leftwards or rightwards, so that the rotary table is rotated clockwise or anticlockwise, other dies are enabled to correspond to the positions of the pressing heads, the limiting shaft is loosened, the limiting shaft is enabled to rebound to the original position through the first spring and is embedded into the bottom of the sliding block again, the baffle is loosened, the baffle is enabled to rebound to the original position through the second spring, and dies with different sizes can be replaced rapidly according to requirements; when the electric cylinder is started and the pressing head is driven to push downwards to the die through the pushing shaft, the pressing head can be used for crimping the cable terminal, the impact force of the pressing head during crimping can be reduced by the rubber pad, the cable terminal is prevented from being damaged, the pushing shaft can be limited in the downward moving distance when being blocked by the toothed roller, and the cable terminal is prevented from being failed in crimping due to the fact that the downward pressing distance is too large.

Description

Novel numerical control cable processor

Technical Field

The utility model relates to the technical field of cable manufacturing, in particular to a novel numerical control cable manufacturing machine.

Background

The numerical control cable making machine is equipment for manufacturing cables and mainly comprises extrusion making of cable terminals in multiple directions.

According to the chinese patent: CN216794207U is a novel terminal crimping equipment, is in including workstation, lifter and fixed connection lower mould and the support frame in workstation top middle part, fixedly connected with box on the support frame, be provided with the drive in the box the first drive arrangement of lifter motion, lifter bottom fixedly connected with first stopper and with the last mould of lower mould looks adaptation. The first sliding block is driven to move through the first driving device, then the lifting block and the upper die are driven to move downwards, the compression joint of the terminals is completed through the cooperation operation of the upper die and the lower die, and meanwhile, the moving distance of the upper die is limited through the cooperation of the first limiting block and the second limiting block, so that the compression joint depth is controlled, the device is suitable for compression joint work of cable terminals with different thicknesses, the application range of the device is improved, and the device is inconvenient to quickly replace the dies with corresponding sizes when the terminals with different sizes are compressed and is found based on the above-mentioned patent and the combination of the prior art, so that the compression joint efficiency is easy to be influenced.

Disclosure of Invention

The utility model aims to provide a novel numerical control cable making machine, which aims to solve the problem that the prior numerical control cable making in the use process is proposed in the background technology.

In order to realize the technical problems, the utility model provides the following technical scheme:

the utility model provides a novel numerical control cable processor, includes frame, line ball subassembly and mould, the line ball subassembly is located the frame top, still includes:

and the exchange assembly is positioned in the rack and used for exchanging the position of the die.

The line ball subassembly includes:

the electric cylinder is arranged at the top of the frame;

the pushing shaft is positioned in the frame, and the top end of the pushing shaft penetrates out of the top of the frame and is fixed with the power end of the electric cylinder;

the pressure head is fixed at the bottom of the pushing shaft.

The novel numerical control cable processor further comprises:

the stop block is fixed on the right side of the pushing shaft;

the tooth frame is positioned on the right side of the pushing shaft and is fixed with the frame;

the tooth roller is meshed in the tooth frame and is positioned below the stop block;

and the grab handle is fixed on the right side of the toothed roller.

The exchange assembly includes:

the rotary table is positioned below the pressure head and is rotationally connected with the rack through a rotating shaft, and the plurality of dies are uniformly fixed above the outer wall of the rotary table;

the tooth block is provided with a plurality of blocks and is uniformly fixed below the outer wall of the turntable;

the toothed plate is positioned below the turntable and is meshed with the tooth block.

The exchange assembly further includes:

the sliding block is fixed at the bottom of the toothed plate;

the sliding frame is positioned below the toothed plate, and the sliding block is connected in the sliding frame in a sliding way;

the transverse plate is positioned below the sliding frame and is fixed on the frame.

The exchange assembly further includes:

the limiting shafts are provided with a plurality of limiting shafts and uniformly penetrate through the transverse plate;

the first springs are provided with a plurality of springs and are correspondingly sleeved and fixed outside the limiting shaft;

the baffle is positioned below the transverse plate;

and the second springs are provided with a plurality of springs and are uniformly fixed between the rear part of the baffle and the inner wall of the frame.

The bottom of the sliding frame is provided with a bottom groove, the limiting shaft penetrates through the bottom groove, and one limiting shaft is embedded into the sliding block.

Rubber pads are attached to the inner walls of the molds.

The embodiment of the utility model provides a novel numerical control cable making machine, which has the following beneficial effects:

1. the toothed plate moves leftwards or rightwards along the sliding frame through the sliding block, the rotary table rotates clockwise or anticlockwise, other dies are enabled to correspond to the positions of the pressing heads, the sliding block can correspond to the positions of other limiting shafts, the limiting shafts are loosened, the limiting shafts are enabled to rebound to the original position through the first spring and are embedded into the bottom of the sliding block again, the baffle is loosened, the baffle is enabled to rebound to the original position through the second spring, the rotary table can be fixed, the dies with different sizes can be replaced quickly according to requirements, and crimping efficiency cannot be affected.

2. When the electric cylinder is started and the pressing head is driven to push downwards to the die through the pushing shaft, the pressing head can be used for crimping the cable terminal, the impact force of the pressing head during crimping can be reduced by the rubber pad, the cable terminal is prevented from being damaged, the pushing shaft can be limited in the downward moving process and is blocked by the toothed roller, and the phenomenon that the cable terminal is failed in crimping due to the fact that the downward pressing distance is too large is avoided.

Drawings

The accompanying drawings are included to provide a further understanding of the utility model and are incorporated in and constitute a part of this specification, illustrate the utility model and together with the embodiments of the utility model, serve to explain the utility model. In the drawings:

FIG. 1 is a schematic top view of the overall utility model;

FIG. 2 is a schematic top view of a baffle of the present utility model;

FIG. 3 is a bottom schematic view of the slide frame of the present utility model;

fig. 4 is a schematic side view of the inventive die.

In the figure: 1. a frame; 2. an electric cylinder; 3. pushing the shaft; 4. a pressure head; 5. a stop block; 6. a tooth frame; 7. a grab handle; 8. a tooth roller; 9. a turntable; 10. a mold; 11. tooth blocks; 12. a toothed plate; 13. a sliding frame; 14. a slide block; 15. a limiting shaft; 16. a first spring; 17. a cross plate; 18. a baffle; 19. a second spring; 20. a bottom groove; 21. and a rubber pad.

Detailed Description

The preferred embodiments of the present utility model will be described below with reference to the accompanying drawings, it being understood that the preferred embodiments described herein are for illustration and explanation of the present utility model only, and are not intended to limit the present utility model.

Examples: as shown in fig. 1, by arranging the toothed frame 6, the toothed roller 8 and the grab handle 7, when the cable terminal is crimped, the grab handle 7 can be held and the toothed roller 8 is driven to move rightwards to be removed from the toothed frame 6, and then the toothed roller 8 is adjusted and inserted into the corresponding position in the toothed frame 6 according to the distance required to be pressed down by the pressure head 4;

as shown in fig. 1, by arranging a wire pressing assembly, a cable terminal to be pressed is placed into a die 10 corresponding to the position of a pressing head 4, an electric cylinder 2 is externally connected to a power supply and started, when the electric cylinder 2 is started and the pressing head 4 is driven to push down to the die 10 by a pushing shaft 3, the pressing head 4 can be used for pressing the cable terminal, the impact force of the pressing head 4 during pressing can be reduced by using a rubber pad 21, the cable terminal is prevented from being damaged, and when the pushing shaft 3 moves downwards and is blocked by a toothed roller 8, the downward moving distance of the pressing head 4 is limited, so that the condition that the pressing distance is overlarge and the cable terminal is not qualified in pressing is prevented;

as shown in fig. 1-4, by arranging the exchange assembly, the mold 10 can be set to different sizes, when the mold 10 needs to be exchanged, the transverse plate 17 can be pushed backwards and press the second spring 19, so that the first spring 16 is not blocked, the second spring 15 can be pushed downwards, the first spring 16 is forced and then unfolded, the second spring 15 can be moved out of the slide block 14, the toothed plate 12 can be moved leftwards or rightwards along the slide frame 13 through the slide block 14, the rotary disk 9 can be rotated clockwise or anticlockwise together, the other molds 10 can correspond to the positions of the pressing heads 4, the slide block 14 can correspond to the positions of the other limiting shafts 15, the first spring 16 is loosened, the limiting shaft 15 is rebounded to the original position and is embedded into the bottom of the slide block 14 again, the baffle 18 is loosened, the second spring 19 is rebounded to the original position, the rotary disk 9 can be fixed, and the molds 10 with different sizes can be replaced quickly according to the needs, and the pressing efficiency cannot be affected.

Working principle: when the cable terminal is crimped, the grab handle 7 can be held and the toothed roller 8 is driven to move rightwards to move out of the toothed frame 6, then the toothed roller 8 is adjusted and inserted into the corresponding position in the toothed frame 6 according to the distance required to be pressed down by the pressure head 4, the cable terminal to be crimped is put into the die 10 corresponding to the position of the pressure head 4, the electric cylinder 2 is externally connected to a power supply and started, when the electric cylinder 2 is started and the pressure head 4 is driven to push downwards to the die 10 by the push shaft 3, the cable terminal can be crimped by the pressure head 4, the impact force of the pressure head 4 during crimping can be reduced by the rubber pad 21, the cable terminal is prevented from being damaged, the distance required to be moved downwards by the pressure head 4 can be limited when the push shaft 3 is moved downwards and blocked by the toothed roller 8, the cable terminal is prevented from being failed in crimping due to overlarge pressing distance, when the die 10 is required to be exchanged, the transverse plate 17 can be pushed backwards and extrudes the second spring 19 so that the first limiting shaft 15 is not blocked, the first limiting shaft 15 can be pushed downwards, the first spring 16 is stretched after being stressed, the limiting shaft 15 can be moved out of the sliding block 14, the toothed plate 12 can be moved leftwards or rightwards along the sliding frame 13 through the sliding block 14, the rotary table 9 can be rotated clockwise or anticlockwise, other dies 10 can be corresponding to the positions of the pressing head 4, the sliding block 14 can correspond to the positions of the other limiting shafts 15, the limiting shaft 15 is loosened so that the first spring 16 is rebounded to the original position and is embedded into the bottom of the sliding block 14 again, the baffle 18 is loosened so that the second spring 19 is rebounded to the original position, the rotary table 9 can be fixed, and the dies 10 with different sizes can be quickly replaced according to requirements by a user without affecting the crimping efficiency.

Although the present utility model has been described with reference to the foregoing embodiments, it will be apparent to those skilled in the art that modifications may be made to the embodiments described, or equivalents may be substituted for elements thereof, and any modifications, equivalents, improvements and changes may be made without departing from the spirit and principles of the present utility model.

Claims (8)

1. The utility model provides a novel numerical control cable processor, includes frame (1), line ball subassembly and mould (10), line ball subassembly is located frame (1) top, its characterized in that still includes:

and the exchange assembly is positioned in the frame (1) and used for exchanging the position of the die (10).

2. The novel numerically controlled cable making machine of claim 1, wherein the wire pressing assembly comprises:

the electric cylinder (2) is arranged at the top of the frame (1);

the pushing shaft (3) is positioned in the frame (1), and the top end of the pushing shaft (3) penetrates out of the top of the frame (1) and is fixed with the power end of the electric cylinder (2);

the pressure head (4), pressure head (4) are fixed in pushing away axle (3) bottom.

3. The novel numerically-controlled cable maker of claim 2, further comprising:

the stop block (5) is fixed on the right side of the pushing shaft (3);

the tooth frame (6), the said tooth frame (6) locates at the right side of pushing the axle (3) and is fixed with stander (1);

the tooth roller (8) is meshed in the tooth frame (6) and is positioned below the stop block (5);

and the grab handle (7), wherein the grab handle (7) is fixed on the right side of the toothed roller (8).

4. The novel numerically controlled cable machine of claim 2, wherein the exchange assembly comprises:

the rotary table (9), the rotary table (9) is positioned below the pressure head (4) and is rotationally connected with the frame (1) through a rotating shaft, and the die (10) is provided with a plurality of dies and is uniformly fixed above the outer wall of the rotary table (9);

the tooth blocks (11) are arranged, and the tooth blocks (11) are uniformly fixed below the outer wall of the turntable (9);

the toothed plate (12), toothed plate (12) are located carousel (9) below and with tooth piece (11) tooth.

5. The novel numerically controlled cable machine of claim 4, wherein the exchange assembly further comprises:

the sliding block (14), the said sliding block (14) is fixed to the bottom of the toothed plate (12);

the sliding frame (13), the sliding frame (13) is positioned below the toothed plate (12), and the sliding block (14) is connected in the sliding frame (13) in a sliding way;

the transverse plate (17) is positioned below the sliding frame (13) and is fixed on the frame (1).

6. The novel numerically controlled cable machine of claim 5, wherein the exchange assembly further comprises:

the limiting shafts (15) are arranged, and the limiting shafts (15) are uniformly and penetratingly arranged in the transverse plate (17);

the first springs (16) are provided with a plurality of springs (16) and are correspondingly sleeved and fixed outside the limiting shaft (15);

a baffle (18), the baffle (18) being located below the cross plate (17);

the second springs (19) are arranged, and the second springs (19) are uniformly fixed between the rear of the baffle plate (18) and the inner wall of the frame (1).

7. The novel numerical control cable maker of claim 6, wherein a bottom groove (20) is formed in the bottom of the sliding frame (13), the limiting shaft (15) penetrates through the bottom groove (20), and one limiting shaft (15) is embedded into the sliding block (14).

8. The novel numerical control cable maker according to claim 1, wherein rubber pads (21) are attached to inner walls of the mold (10).