CN112652423B - Cable threading equipment for cable processing - Google Patents

Abstract

The invention discloses a cable threading device for cable processing, which comprises a traction device, an extrusion device and a cooling device, wherein the extrusion device, the cooling device and the traction device are sequentially and linearly arranged, a first discharge hole is formed in the extrusion device and sequentially corresponds to a second feed hole formed in the cooling device, a transition assembly is arranged between the traction device and the cooling device, and an adjustable cable threading structure is arranged on the cooling device and positioned outside the feed hole; the cable penetrating equipment for processing the cable has the advantages that the cable penetrating equipment for processing the cable consists of extrusion equipment, cooling equipment and traction equipment, an adjustable cable penetrating structure is arranged between the cooling equipment and the extrusion equipment, a structure capable of being quickly detached and replaced is adopted, the cable is formed in a transition mode, the outer skin layer is wrapped on the inner core of the cable, the cable penetrating equipment can be quickly detached, the forming effect is good, the operation is convenient, the speed of cable penetrating is greatly improved, and the cable penetrating equipment can be suitable for processing cables of different models.

Description

Cable threading equipment for cable processing

Technical Field

The invention relates to the technical field of cable processing, in particular to a cable penetrating device for cable processing.

Background

In the cable processing process, after the cable is wound, a rubber protective sleeve with a protection function is usually wrapped outside the cable, an extruder is usually adopted to produce and process the cable in a wrapping mode in the processing process, and in the existing cable processing process, a cable penetrating traction device adopted by the extruder at the position where the cable passes through is usually disc type traction equipment with power, and the equipment does not have wrapping and cooling equipment per se, so a cooling forming device is usually required to be arranged in a matched mode.

Disclosure of Invention

The invention aims to solve the problems, designs a cable penetrating device for processing cables, and solves the problems of the prior art.

The technical scheme of the invention for realizing the aim is as follows: a cable penetrating device for cable processing comprises a traction device, an extrusion device and a cooling device, wherein the extrusion device, the cooling device and the traction device are sequentially and linearly arranged, a first discharge hole is formed in the extrusion device and sequentially corresponds to a second feed hole formed in the cooling device, a transition assembly is arranged between the traction device and the cooling device, and an adjustable penetrating structure is arranged on the cooling device and positioned outside the feed hole;

the adjustable cable penetrating structure comprises: the device comprises a cooling through pipe, a threading through pipe, an adjusting groove, a fixed spring, a transition sleeve, a reducing groove, a pair of plug-in blocks and a pair of return springs;

the cooling siphunculus inlays to be adorned in cooling device, be equipped with cooling module on the cooling siphunculus, threading unit mount in cooling device's the outside, be provided with the threading siphunculus between threading subassembly and the cooling siphunculus, be equipped with the adjustment tank on the threading siphunculus, the fixed spring is equipped with in the adjustment tank interpolation, the transition cover is inserted and is adorned in the adjustment tank and be connected with fixed spring, the reducing groove has been seted up in the transition cover, the reducing groove communicates respectively between cooling siphunculus and threading siphunculus, the reducing groove is close to threading siphunculus one side internal diameter and is greater than the internal diameter that is close to cooling siphunculus one side, threading siphunculus tip and reducing groove correspond the position and are equipped with a pair of longitudinal symmetry's arc recess, and is a pair of cartridge piece cartridge is in a pair of in the arc recess, it is a pair of be equipped with a pair of reset spring in the arc recess respectively.

The threading assembly includes: the device comprises a bracket, two pairs of fixing bolts, a supporting block, a pair of fixing blocks, a pair of adjusting bolts and a pair of extrusion blocks;

the support is fixed on the outer side wall face of the cooling device through two pairs of fixing bolts, the end portion of the support is provided with a supporting block, the center of the supporting block is provided with a clamping groove of an annular structure, two sides of the clamping groove are respectively provided with a pair of threaded holes, two sides of the threading through pipe are respectively provided with a pair of fixing blocks, a pair of adjusting bolts are movably connected into the pair of threaded holes, a pair of end portions of the adjusting bolts are respectively and movably provided with a pair of extrusion blocks, and the pair of extrusion blocks are respectively clamped on two sides of the pair of fixing blocks.

The transition assembly includes: the supporting device comprises a fixing frame, two rows of supporting rods and a plurality of supporting rollers;

the fixing frame is installed on the outer side wall surface of the cooling device, two rows of support rods which are arranged in parallel are arranged on the top surface of the fixing frame, a plurality of supporting rollers are movably installed on the two rows of support rods respectively, and a through groove is formed in the center of each supporting roller.

The cooling assembly includes: the device comprises a plurality of nozzles, a lower water tank and an anti-seepage limiting groove;

the cooling through pipe is provided with a plurality of nozzles in linear array arrangement, the bottom surface of the cooling through pipe is provided with a water drainage tank, and the end part of the cooling through pipe, close to one side of the transition assembly, is provided with an anti-seepage limiting groove.

A pair of sliding blocks is symmetrically arranged on two sides of the outer wall surface of the threading through pipe, and a pair of corresponding sliding grooves is formed in the inner side of the transition sleeve.

The center of the reducing groove is provided with a conical structure, and the conical structure corresponds to the diameter of the threading through pipe.

And the end part of the transition sleeve is provided with an annular sleeve groove matched with the end part of the cooling through pipe.

The support is of a tripod structure, and the support is attached to one side of the cooling device and is vertical to the horizontal direction.

The two columns of the supporting rods are respectively of an air supporting rod structure.

The transition sleeve is sleeved with a friction sleeve.

The cable threading equipment for processing the cable, which is manufactured by the technical scheme of the invention, consists of extrusion equipment, cooling equipment and traction equipment, an adjustable cable threading structure is arranged between the cooling equipment and the extrusion equipment, a structure capable of being quickly disassembled and replaced is adopted, a cable is formed in a transition mode, an outer skin layer is wrapped on an inner core of the cable, the cable threading equipment not only can be quickly disassembled, but also has a good forming effect and is convenient to operate, the speed of cable threading is greatly improved, and the cable threading equipment can be adapted to processing cables of different models.

Drawings

Fig. 1 is a schematic front view of a cable penetrating apparatus for cable processing according to the present invention.

Fig. 2 is a schematic top view of a part of a cable penetrating apparatus for cable processing according to the present invention.

Fig. 3 is a schematic partial side view of a cable penetrating apparatus for cable processing according to the present invention.

Fig. 4 is a schematic structural diagram of a side view of a-a position of the cable penetrating device for cable processing in fig. 1.

Fig. 5 is a schematic structural diagram of a side view of a position b-b of the cable penetrating device for processing the cable shown in fig. 1.

Fig. 6 is a partially enlarged schematic structural diagram of a cable penetrating device for cable processing according to the present invention.

In the figure: 1. a pulling device; 2. an extrusion device; 3. a cooling device; 4. cooling the through pipe; 5. threading through a pipe; 6. an adjustment groove; 7. fixing the spring; 8. a transition sleeve; 9. a reducing groove; 10. inserting a block; 11. a return spring; 12. a support; 13. fixing the bolt; 14. a support block; 15. a fixed block; 16. adjusting the bolt; 17. extruding the block; 18. a fixed mount; 19. a strut; 20. a support roller; 21. a nozzle; 22. a water discharging tank; 23. an anti-seepage limiting groove; 24. a slider; 25. and (4) a friction sleeve.

Detailed Description

The following detailed description of the present invention is provided with reference to the accompanying drawings, and as shown in fig. 1 to 6, the present embodiment is characterized by including a traction device 1, an extrusion device 2, and a cooling device 3, the extrusion device 2, the cooling device 3, and the traction device 1 are sequentially and linearly arranged, a first discharge hole is formed on the extrusion device 2 and sequentially corresponds to a second feed hole formed on the cooling device 3, a transition component is arranged between the traction device 1 and the cooling device 3, and the cooling device 3 and the outer side of the feed hole are provided with an adjustable cable penetrating structure, which includes: a cooling through pipe 4, a threading through pipe 5, an adjusting groove 6, a fixed spring 7, a transition sleeve 8, a reducing groove 9, a pair of plug-in blocks 10 and a pair of reset springs 11 are embedded in the cooling device 3, the cooling through pipe 4 is provided with a cooling component, the threading component is arranged on the outer side of the cooling device 3, the threading through pipe 5 is arranged between the threading component and the cooling through pipe 4, the adjusting groove 6 is arranged on the threading through pipe 5, the fixed spring 7 is inserted in the adjusting groove 6, the transition sleeve 8 is inserted in the adjusting groove 6 and connected with the fixed spring 7, a reducing groove 9 is arranged in the transition sleeve 8, the reducing groove 9 is respectively communicated between the cooling through pipe 4 and the threading through pipe 5, the inner diameter of one side of the reducing groove 9 close to the threading through pipe 5 is larger than the inner diameter of one side close to the cooling through pipe 4, a pair of vertically symmetrical arc-shaped grooves are arranged at the end part of the threading through pipe 5 and the reducing groove 9, the pair of insertion blocks 10 are inserted into the pair of arc-shaped grooves, and a pair of return springs 11 are respectively arranged in the pair of arc-shaped grooves; this cable is worn cable equipment for cable processing comprises extrusion equipment, cooling device and pulling equipment, is equipped with adjustable cable structure of wearing between cooling device and extrusion equipment, adopts the structure that can dismantle the replacement fast, and the transition shaping cable wraps up the cortex on the cable inner core, not only can dismantle fast, and the shaping is effectual, convenient operation, very big improvement speed when wearing the cable, make the cable processing that an equipment can the different models of adaptation.

All the electrical components in the present application are connected with the power supply adapted to the electrical components through the wires, and an appropriate controller should be selected according to actual conditions to meet the control requirements, and specific connection and control sequences should be obtained.

Example (b): according to the attached drawings 1-6 of the specification, the cable threading equipment for cable processing comprises a traction device 1, an extrusion device 2 and a cooling device 3, wherein the extrusion device 2, the cooling device 3 and the traction device 1 are sequentially and linearly arranged, a first discharge hole is formed in the extrusion device 2 and sequentially corresponds to a second feed hole formed in the cooling device 3, a transition component is arranged between the traction device 1 and the cooling device 3, an adjustable threading structure is arranged on the cooling device 3 and positioned outside the feed hole, in the specific implementation process, the traction device 1 pulls a cable head of the cable, the cable penetrates through the cooling device 3 and the extrusion device 2, the extrusion device 2 synchronously moves a rubber wrapping skin layer and a cable inner core, so that the rubber wrapping layer is cooled by the cooling device 3, and in the process, the adjustable threading structure is utilized to play a role in molding, synchronously cooling the rubber coating leather layer through a cooling device 3;

as can be seen from fig. 1 to 6 of the specification, the adjustable cable penetrating structure comprises: the cooling through pipe 4, the threading through pipe 5, the adjusting groove 6, the fixed spring 7, the transition sleeve 8, the reducing groove 9, the pair of plug-in blocks 10 and the pair of return springs 11 are connected and positioned as follows;

cooling siphunculus 4 inlays and adorns in cooling arrangement 3, be equipped with cooling module on the cooling siphunculus 4, threading unit mount is in the outside of cooling arrangement 3, be provided with threading siphunculus 5 between threading subassembly and the cooling siphunculus 4, be equipped with adjustment tank 6 on the threading siphunculus 5, fixed spring 7 is equipped with in the adjustment tank 6 interpolation, transition cover 8 cartridge is in adjustment tank 6 and be connected with fixed spring 7, it has reducing groove 9 to open in the transition cover 8, reducing groove 9 communicates respectively between cooling siphunculus 4 and threading siphunculus 5, reducing groove 9 is close to the internal diameter that 5 one side internal diameter of threading siphunculus is greater than the internal diameter that is close to cooling siphunculus 4 one side, threading siphunculus 5 tip and reducing groove 9 correspond the position and are equipped with a pair of up-and down symmetrical arc recess, a pair of cartridge piece 10 cartridge is in a pair of arc recess, be equipped with a pair of reset spring 11 in a pair of arc recess respectively.

In the specific implementation process, the center of the reducing groove 9 is provided with a conical structure, the conical structure corresponds to the diameter of the threading through pipe 5, the threading through pipe 5 is in butt joint with the cooling through pipe 4, the transition sleeve 8 connected between the cooling through pipe 4 and the threading through pipe 5 is used as a transition space, the reducing groove 9 is used for forming, the end part of the transition sleeve 8 is provided with an annular sleeve groove matched with the end part of the cooling through pipe 4, the two sides of the outer wall surface of the threading through pipe 5 are symmetrically provided with a pair of slide blocks 24, the inner side of the transition sleeve 8 is provided with a pair of corresponding slide grooves, the transition sleeve 8 is reversely pushed by a fixed spring 7 in the adjusting groove 6 by using the slide groove limiting slide blocks 24, the outer sleeve of the transition sleeve 8 is provided with a friction sleeve 25, so that the transition sleeve 8 is fixed between the cooling through pipe 4 and the threading through pipe 5 under the action of reverse thrust, the pair of inserting blocks 10 are pressed against the end part of the reducing groove 9 under the action of the pair of the reset springs 11, sealing and supporting are carried out, so that the transition position is smoother.

As can be seen from fig. 1-6 of the specification, the threading assembly comprises: the device comprises a bracket 12, two pairs of fixing bolts 13, a supporting block 14, a pair of fixing blocks 15, a pair of adjusting bolts 16 and a pair of squeezing blocks 17, wherein the connection relationship and the position relationship are as follows;

the support 12 is fixed on the outer side wall surface of the cooling device 3 through two pairs of fixing bolts 13, a supporting block 14 is arranged at the end part of the support 12, a clamping groove of an annular structure is formed in the center of the supporting block 14, a pair of threaded holes are formed in two sides of the clamping groove respectively, a pair of fixing blocks 15 are arranged on two sides of the threading through pipe 5 respectively, a pair of adjusting bolts 16 are movably connected in the pair of threaded holes, a pair of extrusion blocks 17 are movably mounted at the end parts of the pair of adjusting bolts 16 respectively, and the pair of extrusion blocks 17 are clamped on two sides of the pair of fixing blocks 15 respectively;

in the specific implementation process, the support 12 is in a tripod structure, the support 12 is attached to one side of the cooling device 3 and is perpendicular to the horizontal direction, two pairs of fixing bolts 13 are arranged on the support 12 to connect the support 12 with the cooling device 3, a pair of adjusting bolts 16 are arranged on two sides of the supporting block 14, the adjusting bolts 16 are used for relative adjustment, a pair of extrusion blocks 17 are used for clamping a pair of fixing blocks 15, and the threading through pipe 5 is further fixed.

As can be seen from fig. 1-6 of the specification, the transition assembly comprises: the fixing frame 18, two rows of supporting rods 19 and a plurality of supporting rollers 20 are connected and positioned as follows;

the fixed frame 18 is arranged on the outer side wall surface of the cooling device 3, two rows of support rods 19 which are arranged in parallel are arranged on the top surface of the fixed frame 18, a plurality of support rollers 20 are respectively and movably arranged on the two rows of support rods 19, and a through groove is formed in the center of each support roller 20;

in the specific implementation process, the supporting rollers 20 are supported by the supporting rods 19 on two sides of the fixing frame 18, the supporting rollers 20 are used for supporting cables when the cables pass through, and the two columns of supporting rods 19 are respectively of an air supporting rod structure and used for supporting the cables.

As can be seen from fig. 1-6 of the specification, the cooling assembly comprises: a plurality of nozzles 21, a lower water tank 22 and an anti-leakage limiting groove 23, the connection relationship and the position relationship of which are as follows;

a plurality of nozzles 21 are arranged on the cooling through pipe 4 in a linear array manner, a water drainage tank 22 is arranged on the bottom surface of the cooling through pipe 4, and an anti-seepage limiting groove 23 is arranged at the end part of one side, close to the transition component, of the cooling through pipe 4;

in the concrete implementation process, the cooling water is sprayed out of the outer rubber skin layer of the wrapped cable through the plurality of nozzles 21, the cooled water is guided out by the water discharge groove 22, and meanwhile, the water level is limited by the anti-seepage limiting groove 23, so that the water is prevented from flowing out from one side of the discharge part.

To sum up the totality can know, this cable is worn to cable equipment for cable processing comprises extrusion equipment 2, cooling device 3 and pulling equipment 1, is equipped with adjustable cable structure of wearing between cooling device 3 and extrusion equipment 2, adopts the structure that can dismantle the replacement fast, and the transition shaping cable wraps up the cortex on the cable inner core, not only can dismantle fast, and the shaping is effectual, and convenient operation, very big improvement speed when wearing the cable, make the cable processing that a equipment can the different models of adaptation.

The technical solutions described above only represent the preferred technical solutions of the present invention, and some possible modifications to some parts of the technical solutions by those skilled in the art all represent the principles of the present invention, and fall within the protection scope of the present invention.

Claims (10)

1. The cable penetrating device for the cable processing comprises a traction device (1), an extrusion device (2) and a cooling device (3), wherein the extrusion device (2), the cooling device (3) and the traction device (1) are sequentially and linearly arranged, a first discharge hole is formed in the extrusion device (2) and sequentially corresponds to a second feed hole formed in the cooling device (3), the cable penetrating device is characterized in that a transition assembly is arranged between the traction device (1) and the cooling device (3), and an adjustable penetrating structure is arranged on the cooling device (3) and located outside the feed hole;

the adjustable cable penetrating structure comprises: the device comprises a cooling through pipe (4), a threading through pipe (5), an adjusting groove (6), a fixed spring (7), a transition sleeve (8), a reducing groove (9), a pair of plug-in blocks (10) and a pair of reset springs (11);

the cooling through pipe (4) is embedded in the cooling equipment (3), a cooling assembly is arranged on the cooling through pipe (4), a threading assembly is installed on the outer side of the cooling equipment (3), the threading assembly is correspondingly provided with a threading through pipe (5) with the cooling through pipe (4), an adjusting groove (6) is arranged on the threading through pipe (5), a fixing spring (7) is inserted in the adjusting groove (6), a transition sleeve (8) is inserted in the adjusting groove (6) and connected with the fixing spring (7), a reducing groove (9) is formed in the transition sleeve (8), the reducing groove (9) is respectively communicated between the cooling through pipe (4) and the threading through pipe (5), the inner diameter of one side of the reducing groove (9) close to the threading through pipe (5) is larger than the inner diameter of one side of the cooling through pipe (4), and a pair of arc-shaped grooves which are symmetrical up and down is arranged at the corresponding positions of the end part of the threading through pipe (5) and the reducing groove (9), the pair of insertion blocks (10) are inserted into the pair of arc-shaped grooves, a pair of return springs (11) are arranged in the pair of arc-shaped grooves respectively, and the pair of insertion blocks (10) are propped against the end parts of the reducing grooves (9) under the action of the pair of return springs (11).

2. A cable transit apparatus for cable processing according to claim 1, wherein the transit assembly comprises: the device comprises a bracket (12), two pairs of fixing bolts (13), a supporting block (14), a pair of fixing blocks (15), a pair of adjusting bolts (16) and a pair of squeezing blocks (17);

the support (12) is fixed on the outer side wall face of the cooling device (3) through two pairs of fixing bolts (13), the end portion of the support (12) is provided with a supporting block (14), the center of the supporting block (14) is provided with a clamping groove of an annular structure, two sides of the clamping groove are respectively provided with a pair of threaded holes, two sides of the threading through pipe (5) are respectively provided with a pair of fixing blocks (15), one pair of adjusting bolts (16) are movably connected into the pair of threaded holes, one pair of end portions of the adjusting bolts (16) are respectively and movably provided with a pair of extrusion blocks (17), and one pair of extrusion blocks (17) are respectively clamped on two sides of the fixing blocks (15).

3. A cable transit apparatus for cable processing according to claim 1, wherein the transition assembly comprises: a fixed frame (18), two rows of support rods (19) and a plurality of support rollers (20);

the fixing frame (18) is installed on the outer side wall face of the cooling device (3), two rows of support rods (19) which are arranged in parallel are arranged on the top face of the fixing frame (18), a plurality of supporting rollers (20) are movably installed on the support rods (19) respectively, and a through groove is formed in the center of each supporting roller (20).

4. A cable transit apparatus for cable processing according to claim 1, wherein the cooling assembly comprises: a plurality of nozzles (21), a lower water tank (22) and an anti-leakage limiting groove (23);

a plurality of nozzles (21) are arranged on the cooling through pipe (4) in a linear array mode, a water discharging groove (22) is formed in the bottom surface of the cooling through pipe (4), and an anti-leakage limiting groove (23) is formed in the end portion, close to one side of the transition assembly, of the cooling through pipe (4).

5. The cable threading device for processing the cable according to claim 1, wherein a pair of sliding blocks (24) are symmetrically arranged on two sides of the outer wall surface of the threading through pipe (5), and a pair of corresponding sliding grooves are formed in the inner side of the transition sleeve (8).

6. A cable transit apparatus for cable processing according to claim 1, characterised in that the centre of the reducer groove (9) is provided with a conical structure corresponding to the diameter of the transit tube (5).

7. The cable penetrating device for cable processing according to claim 1, wherein the end of the transition sleeve (8) is provided with an annular sleeve groove matched with the end of the cooling through pipe (4).

8. The cable reeving device for cable processing according to claim 2, wherein the support (12) is of a tripod structure, the support (12) being attached to the cooling device (3) on one side thereof and being vertical to the horizontal.

9. A cable transit apparatus for cable processing according to claim 3, wherein said two rows of said struts (19) are each of a gas strut configuration.

10. A cable transit apparatus for cable processing according to claim 1, characterised in that the transition sleeve (8) is externally sheathed with a friction sleeve (25).

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