CN112857858A

CN112857858A - Automatic slicing machine for power cable insulation layer

Info

Publication number: CN112857858A
Application number: CN202011619277.4A
Authority: CN
Inventors: 徐红军
Original assignee: Jiangsu Xinhuifeng Plastic Co ltd
Current assignee: Jiangsu Xinhuifeng Plastic Co ltd
Priority date: 2020-12-31
Filing date: 2020-12-31
Publication date: 2021-05-28
Anticipated expiration: 2040-12-31
Also published as: CN112857858B

Abstract

The invention discloses an automatic slicing machine for a power cable insulation layer, which comprises a workbench, wherein the top of the workbench is fixedly connected with a first side plate and a second side plate respectively, the tops of the first side plate and the second side plate are fixedly connected with the same top plate, the bottom of the top plate is fixedly connected with an electric push rod, the bottom of the electric push rod is fixedly connected with a fixed plate, the bottom of the fixed plate is fixedly connected with a cutting device body, and the top of the workbench is fixedly connected with a first mounting plate and a second mounting plate respectively. According to the cable insulation cutting device, the two ends of the cable are clamped and fixed through the first fixing mechanism and the second fixing mechanism, the rotating shaft is driven to rotate through the first motor, the first bevel gear and the supporting rod are driven to rotate through the rotating shaft through the second bevel gear, so that the clamped cable rotates, the cutting device body is driven to cut a cable insulation layer through the electric push rod, and the cable insulation cutting device is simple and convenient to cut and high in efficiency.

Description

Automatic slicing machine for power cable insulation layer

Technical Field

The invention relates to the technical field of power cable equipment, in particular to an automatic slicing machine for a power cable insulating layer.

Background

During the development, production and use of the power cable, the insulation layer of the finished power cable needs to be sampled and analyzed.

The traditional power cable insulating layer slicing and sampling device is used for sampling an insulating layer of a power cable, a manual press-fitting machine is usually adopted for punching a core layer of the cable, the core layer moves relative to the insulating layer and at least partially protrudes out of the insulating layer, then the punched cable is clamped on a large-scale cable slicing machine, the cable slicing machine is started to complete slicing actions, the operation process is complex, the efficiency is low, and the cable is easy to damage or lose in the moving process.

Disclosure of Invention

The invention aims to solve the problems of complex slicing operation and low efficiency of a power cable insulating layer slicing and sampling device in the prior art, and provides an automatic slicing machine for a power cable insulating layer.

In order to achieve the purpose, the invention adopts the following technical scheme:

an automatic slicing machine for an insulating layer of a power cable comprises a workbench, wherein a first side plate and a second side plate are fixedly connected to the top of the workbench respectively, the top of the first side plate and the top of the second side plate are fixedly connected with a same top plate, an electric push rod is fixedly connected to the bottom of the top plate, a fixed plate is fixedly connected to the bottom of the electric push rod, a cutting device body is fixedly connected to the bottom of the fixed plate, a first mounting plate and a second mounting plate are fixedly connected to the top of the workbench respectively, a first rotating block and a second rotating block are rotatably connected to the outer side wall of one end, opposite to the first mounting plate and the second mounting plate respectively, a first movable opening is formed in the outer side wall of the first rotating block, a first movable block is slidably connected to the inner side wall of the first movable opening, a first fixed mechanism is arranged on, the mounting groove has been seted up at the workstation top, the mounting groove inside wall is equipped with adjusts first turning block and second turning block pivoted first adjustment mechanism, first curb plate lateral wall is equipped with the second adjustment mechanism who adjusts the removal of first moving block.

Preferably, the first fixing mechanism comprises a first fixing groove formed in the outer side wall of the first moving block, two first moving plates are slidably connected to the bottom of the first fixing groove, two first moving plates are fixedly connected to a first V-shaped plate and a first threaded rod respectively, the first moving plates are connected to a first outer side wall of one end of each first moving plate in a back-to-back mode, the first threaded rod penetrates through the first fixing groove and a first rotating block fixedly connected to the first rotating block respectively, a first penetrating hole matched with the first threaded rod is formed in the outer side wall of the first moving block, and the outer side wall of the first threaded rod is connected with the inner side wall of the first penetrating hole in a threaded mode.

Preferably, the second fixed establishment includes the second fixed slot that the second turning block lateral wall was seted up, bottom sliding connection has two second movable plates, two in the second fixed slot the equal fixedly connected with second V template of the relative one end lateral wall of second movable plate, two the back of the body one end lateral wall that backs on the back of the body of second movable plate all rotates and is connected with the second threaded rod, two the second threaded rod back of the body one end lateral wall that backs on the back of the body all runs through second fixed slot and fixedly connected with second rotation block, the second that runs through the mouth with second threaded rod looks adaptation is seted up to the second turning block lateral wall, second threaded rod lateral wall and second run through a mouthful inside wall threaded connection.

Preferably, first adjustment mechanism includes and rotates the bracing piece of being connected with the mounting groove inside wall, the bracing piece is close to the first bevel gear of second curb plate one end lateral wall fixedly connected with, the first motor of second curb plate lateral wall fixedly connected with, first motor output fixedly connected with pivot, pivot bottom fixedly connected with second bevel gear, first bevel gear is connected with the second bevel gear meshing, two first gears have been cup jointed to the bracing piece lateral wall fixedly, first turning block lateral wall and second turning block lateral wall have all fixedly cup jointed the second gear, two first gear is connected with two second gear meshing that correspond respectively.

Preferably, the second adjusting mechanism includes a second motor fixedly connected with the outer side wall of the first side plate, the output end of the second motor is fixedly connected with a third threaded rod, the third threaded rod penetrates through the first side plate and is rotatably connected with the outer side wall of the first mounting plate, the outer side wall of the third threaded rod is in threaded connection with a connecting plate, a second moving block is fixedly connected with the top of the connecting plate, the second moving block is far away from the outer side wall of one end of the first side plate, penetrates through the first mounting plate and is rotatably connected with the outer side wall of the first moving block, the outer side wall of the first mounting plate is provided with a second movable opening matched with the second moving block, and the outer side wall of the second.

Preferably, the outer side wall of the second rotating block is fixedly connected with two sliding blocks with cross sections in T-shaped arrangement, and the outer side wall of the second side plate is provided with an annular sliding groove matched with the sliding blocks.

Preferably, the outer side wall of the first moving block is fixedly connected with two limiting plates which are symmetrically arranged, and the inner side wall of the first movable opening is provided with a limiting groove matched with the two limiting plates.

Preferably, the second side plate outer side wall and the second rotating block outer side wall are both provided with through openings.

The invention has the beneficial effects that:

1. carry out the centre gripping through first fixed establishment and second fixed establishment to the cable both ends and fix, the first motor of rethread drives the pivot and rotates, and the pivot drives first bevel gear and bracing piece through the second bevel gear and rotates to the messenger is rotated by the cable of centre gripping, drives the cutting device body through electric putter and cuts cable insulation layer, and cutting operation is simple and convenient and efficient.

2. The third threaded rod is driven to rotate through the second motor, the second moving block drives the first moving block to move towards the first side plate, the first moving block drives the cut insulating layer to move, the cut insulating layer sample is separated from the cable, and therefore automatic material taking is achieved.

Drawings

Fig. 1 is a schematic structural diagram of an automatic slicing machine for an insulation layer of a power cable according to the present invention;

fig. 2 is a cross-sectional view of a first mounting plate and a first rotating block in an automatic slicer for insulating layers of power cables according to the present invention;

fig. 3 is a cross-sectional view of a second mounting plate and a second rotating block in an automatic slicer for insulating layers of power cables according to the present invention;

fig. 4 is a side sectional view of a first moving block of an automatic slicer for an insulation layer of a power cable according to the present invention;

FIG. 5 is an enlarged view of the structure at A in FIG. 1;

fig. 6 is an enlarged view of the structure at B in fig. 1.

In the figure: 1. a work table; 2. a first side plate; 3. a second side plate; 4. a top plate; 5. an electric push rod; 6. a fixing plate; 7. a cutting device body; 8. a first mounting plate; 9. a second mounting plate; 10. a first rotating block; 11. a second turning block; 12. mounting grooves; 13. a first moving block; 14. a first moving plate; 15. a first threaded rod; 16. a first rotating block; 17. a second moving plate; 18. a second V-shaped plate; 19. a second threaded rod; 20. a second rotating block; 21. a support bar; 22. a first bevel gear; 23. a first motor; 24. a rotating shaft; 25. a second bevel gear; 26. a first gear; 27. a second gear; 28. a second motor; 29. a third threaded rod; 30. a connecting plate; 31. a second moving block; 32. a limiting plate; 33. a first V-shaped plate.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments.

In the description of the present invention, it is to be understood that the terms "upper", "lower", "front", "rear", "left", "right", "top", "bottom", "inner", "outer", and the like, indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, are merely for convenience in describing the present invention and simplifying the description, and do not indicate or imply that the device or element being referred to must have a particular orientation, be constructed and operated in a particular orientation, and thus, should not be construed as limiting the present invention.

Referring to fig. 1-6, a power cable insulating layer automatic slicer, including workstation 1, workstation 1 top difference fixedly connected with first curb plate 2 and second curb plate 3, the same roof 4 of

first curb plate

2 and 3 top fixedly connected with of second curb plate, roof 4 bottom fixedly connected with electric putter 5, electric putter 5 and cutting device body 7 are prior art, do not redundantly here, electric putter 5 bottom fixedly connected with fixed plate 6, fixed plate 6 bottom fixedly connected with cutting device body 7, electric putter 5 and cutting device body 7 are prior art, do not redundantly here.

The top of the workbench 1 is fixedly connected with a first mounting plate 8 and a second mounting plate 9 respectively, the relative one end outer side wall of the first mounting plate 8 and the second mounting plate 9 is connected with a first rotating block 10 and a second rotating block 11 respectively in a rotating mode, two transversal sliders which are arranged in a T shape are fixedly connected with the outer side wall of the second rotating block 11, an annular chute matched with the sliders is formed in the outer side wall of the second side plate 3, a first movable opening is formed in the outer side wall of the first rotating block 10, a first movable block 13 is connected to the inner side wall of the first movable block 13 in a sliding mode, two limiting plates 32 which are symmetrically arranged are fixedly connected to the outer side wall of the first movable block 13, limiting grooves matched with the two limiting plates 32 are formed in the inner side wall of the first movable opening, the first rotating block 10 is clamped with the limiting plates 32, the first movable block 13 is driven.

Wherein, first fixed establishment includes the first fixed slot that first movable block 13 lateral wall was seted up, bottom sliding connection has two first movable plates 14 in the first fixed slot, two first movable plates 14 are the first V template 33 of the equal fixedly connected with of one end lateral wall opposite to, two first movable plates 14 are carried on the back mutually one end lateral wall and all are rotated and are connected with first threaded rod 15, two first threaded rod 15 are carried on the back mutually one end lateral wall and all run through first fixed slot and the first rotatory piece 16 of fixedly connected with, first through-hole with 15 looks adaptations of first threaded rod is seted up to first movable block 13 lateral wall, 15 lateral walls of first threaded rod and first through-hole inside wall threaded connection.

11 inside walls of second turning block are equipped with second fixed establishment, second fixed establishment includes the second fixed slot that 11 lateral walls of second turning block were seted up, bottom sliding connection has two second movable plates 17 in the second fixed slot, the equal fixedly connected with second V template 18 of the relative one end lateral wall of two second movable plates 17, two second movable plates 17 all rotate with second threaded rod 19 back to back on the body one end lateral wall, two second threaded rod 19 all run through second fixed slot and fixedly connected with second rotation block 20 back to back on the body one end lateral wall, the second that 19 looks adaptations of second threaded rod are seted up to 11 lateral walls of second turning block runs through the mouth, 19 lateral walls of second threaded rod run through mouthful inside wall threaded connection with the second, the equal fixedly connected with antiskid rubber pad of

first V template

33 and 18 lateral wall of second V template, increase the frictional force between

first V template

33 and 18 of second V template and the cable.

The top of the workbench 1 is provided with a mounting groove 12, and the inner side wall of the mounting groove 12 is provided with a first adjusting mechanism for adjusting the rotation of the first rotating block 10 and the second rotating block 11.

Wherein, first adjustment mechanism includes the bracing piece 21 of being connected with the 12 inside walls rotation of mounting groove, bracing piece 21 is close to the first bevel gear 22 of 3 one end lateral walls fixedly connected with of second lateral plate, the first motor 23 of 3 lateral walls fixedly connected with of second lateral plate, first motor 23 is prior art, do not do here any more, first motor 23 output end fixedly connected with

pivot

24, 24 bottom fixedly connected with second bevel gears 25 of pivot, first bevel gear 22 is connected with the meshing of second bevel gears 25, bracing piece 21 lateral wall is fixed to have cup jointed two first gears 26, first turning block 10 lateral walls and 11 lateral walls of second turning block all fixedly connect with second gear 27, two first gears 26 are connected with two second gears 27 meshing that correspond respectively.

The outer side wall of the first side plate 2 is provided with a second adjusting mechanism for adjusting the movement of the first moving block 13, the second adjusting mechanism comprises a second motor 28 fixedly connected with the outer side wall of the first side plate 2, the second motor 28 is a servo motor, and is the prior art, not repeated here, the output end of the second motor 28 is fixedly connected with a third threaded rod 29, the third threaded rod 29 penetrates through the first side plate 2 and is connected with the outer side wall of the first mounting plate 8 in a rotating manner, the outer side wall of the third threaded rod 29 is connected with a connecting plate 30 in a threaded manner, a second moving block 31 is fixedly connected to the top of the connecting plate 30, the second moving block 31 is far away from the outer side wall of one end of the first side plate 2, penetrates through the first mounting plate 8 and is connected with the outer side wall of the first moving block 13 in a rotating manner, a second movable opening matched with the second moving block 31 is formed in the outer side wall of the first mounting plate 8.

The opening has all been seted up to 3 lateral walls of second curb plate and 11 lateral walls of second turning block, and two openings are located same horizontal position and the opening centre of a circle and first fixed slot and the second fixed slot centre of a circle and are located same straight line, make things convenient for the cable to rotate.

According to the invention, a cable to be sampled passes through the upper openings of the second side plate 3 and the second rotating block 11, then passes through the second fixing groove and is inserted into the first fixing groove, the two first rotating blocks 16 and the two second rotating blocks 20 are sequentially rotated clockwise, so that the two first threaded rods 15 and the two second threaded rods 19 are respectively screwed into the first fixing groove and the second fixing groove, and thus the two first moving plates 14 and the two second moving plates 17 are moved towards opposite directions, and the two first V-shaped plates 33 and the two second V-shaped plates 18 clamp and fix the two ends of the cable.

Start first motor 23, first motor 23 drives pivot 24 and rotates, through first bevel gear 22 and the meshing of second bevel gear 25, thereby make bracing piece 21 rotate, bracing piece 21 drives two first gears 26 and rotates, first gear 26 drives second gear 27 and rotates, and then make first turning block 10 and second turning block 11 drive the cable and rotate, start electric putter 5, electric putter 5 drives cutting device body 7 and is close to the cable, cut the insulating layer on the cable in the pairing rotation.

After cutting, the electric push rod 5 is started to enable the cutting device body 7 to be far away from the cable, the first motor 23 is turned off, the second motor 28 is started to rotate forwards, the second motor 28 drives the connecting plate 30 to move towards the direction close to the first side plate 2, the connecting plate 30 drives the first moving block 13 to move towards the direction close to the first side plate 2 through the second moving block 31, so that the first moving block 13 drives the clamped and fixed cable insulation layer to be separated from the cable, thereby realizing automatic material taking, turning off the second motor 28, rotating the two first rotating blocks 16 and the two second rotating blocks 20 counterclockwise, so that the two first V-shaped plates 33 and the two second V-shaped plates 18 loosen the clamping and fixing of the cable insulating layer and the cable, the cut cable insulating layer and the cut cable are taken out, the second motor 28 is started to rotate reversely, the first moving block 13 is reset, and the cutting and sampling work is completed.

The above description is only for the preferred embodiment of the present invention, but the scope of the present invention is not limited thereto, and any person skilled in the art should be considered to be within the technical scope of the present invention, and the technical solutions and the inventive concepts thereof according to the present invention should be equivalent or changed within the scope of the present invention.

Claims

1. The automatic slicing machine for the power cable insulation layer comprises a workbench (1) and is characterized in that the top of the workbench (1) is fixedly connected with a first side plate (2) and a second side plate (3) respectively, the tops of the first side plate (2) and the second side plate (3) are fixedly connected with a same top plate (4), the bottom of the top plate (4) is fixedly connected with an electric push rod (5), the bottom of the electric push rod (5) is fixedly connected with a fixed plate (6), the bottom of the fixed plate (6) is fixedly connected with a cutting device body (7), the top of the workbench (1) is fixedly connected with a first mounting plate (8) and a second mounting plate (9) respectively, the outer side wall of one end, opposite to the first mounting plate (8) and the second mounting plate (9), of the first mounting plate (10) is rotatably connected with a first rotating block (10) and a second rotating block (11) respectively, and the outer, the movable opening is characterized in that a first movable block (13) is connected to the inner side wall of the first movable opening in a sliding mode, a first fixing mechanism is arranged on the inner side wall of the first movable block (13), a second fixing mechanism is arranged on the inner side wall of the second rotating block (11), a mounting groove (12) is formed in the top of the workbench (1), a first adjusting mechanism for adjusting the rotation of the first rotating block (10) and the second rotating block (11) is arranged on the inner side wall of the mounting groove (12), and a second adjusting mechanism for adjusting the movement of the first movable block (13) is arranged on the outer side wall of the first side plate (2).

2. An automatic slicer for insulation layer of power cable according to claim 1, the first fixing mechanism comprises a first fixing groove arranged on the outer side wall of the first moving block (13), the bottom in the first fixed groove is connected with two first movable plates (14) in a sliding manner, the outer side walls of the opposite ends of the two first movable plates (14) are fixedly connected with first V-shaped plates (33), the outer side walls of the opposite ends of the two first movable plates (14) are rotatably connected with first threaded rods (15), the outer side walls of the opposite ends of the two first threaded rods (15) penetrate through the first fixed groove and are fixedly connected with first rotating blocks (16), the outer side wall of the first moving block (13) is provided with a first through hole matched with the first threaded rod (15), the outer side wall of the first threaded rod (15) is in threaded connection with the inner side wall of the first through opening.

3. An automatic slicer for insulation layer of power cable according to claim 1, the second fixing mechanism comprises a second fixing groove arranged on the outer side wall of the second rotating block (11), two second movable plates (17) are slidably connected to the bottom in the second fixed groove, the outer side wall of one end, opposite to each other, of each second movable plate (17) is fixedly connected with a second V-shaped plate (18), the outer side wall of the other end, opposite to each other, of each second movable plate (17) is rotatably connected with a second threaded rod (19), the outer side wall of the other end, opposite to each other, of each second threaded rod (19) penetrates through the second fixed groove and is fixedly connected with a second rotating block (20), the outer side wall of the second rotating block (11) is provided with a second through hole matched with the second threaded rod (19), the outer side wall of the second threaded rod (19) is in threaded connection with the inner side wall of the second through hole.

4. The automatic slicer for power cable insulation layer according to claim 1, wherein the first adjusting mechanism comprises a supporting rod (21) rotatably connected with the inner side wall of the mounting groove (12), the outer side wall of the supporting rod (21) near one end of the second side plate (3) is fixedly connected with a first bevel gear (22), the outer side wall of the second side plate (3) is fixedly connected with a first motor (23), the output end of the first motor (23) is fixedly connected with a rotating shaft (24), the bottom of the rotating shaft (24) is fixedly connected with a second bevel gear (25), the first bevel gear (22) is engaged with the second bevel gear (25), the outer side wall of the supporting rod (21) is fixedly connected with two first gears (26), the outer side wall of the first rotating block (10) and the outer side wall of the second rotating block (11) are fixedly connected with second gears (27), the two first gears (26) are respectively in meshed connection with the two corresponding second gears (27).

5. The automatic slicer for power cable insulation layers according to claim 1, wherein the second adjusting mechanism comprises a second motor (28) fixedly connected with the outer side wall of the first side plate (2), a third threaded rod (29) is fixedly connected with the output end of the second motor (28), the third threaded rod (29) penetrates through the first side plate (2) and is rotatably connected with the outer side wall of the first mounting plate (8), a connecting plate (30) is threadedly connected with the outer side wall of the third threaded rod (29), a second moving block (31) is fixedly connected with the top of the connecting plate (30), the outer side wall of one end, away from the first side plate (2), of the second moving block (31) penetrates through the first mounting plate (8) and is rotatably connected with the outer side wall of the first moving block (13), a second movable opening matched with the second moving block (31) is formed in the outer side wall of the first mounting plate (8), the outer side wall of the second moving block (31) is connected with the inner side wall of the second moving opening in a sliding mode.

6. The automatic slicing machine for the power cable insulation layer according to claim 1, wherein two sliding blocks with T-shaped cross sections are fixedly connected to the outer side wall of the second rotating block (11), and an annular sliding groove matched with the sliding blocks is formed in the outer side wall of the second side plate (3).

7. The automatic slicer of power cable insulation layer according to any one of claims 1-6, wherein the outer side wall of the first moving block (13) is fixedly connected with two limiting plates (32) which are symmetrically arranged, and the inner side wall of the first movable opening is provided with a limiting groove matched with the two limiting plates (32).

8. An automatic slicer for insulation layer of power cable according to any of claims 1-7, characterized in that the outer side wall of the second side plate (3) and the outer side wall of the second turning block (11) are opened with through holes.