CN116713643A - Cable conductor joint welding equipment used in cable production process - Google Patents

Abstract

The application relates to the technical field of cable welding equipment, and provides cable conductor joint welding equipment used in a cable production process, aiming at the problem that a traditional butt welding machine cable conductor section is inconvenient to move, comprising the following steps: the butt welding machine body comprises a fixed support and a movable support; the jacking sliding mechanism comprises a plurality of main connecting blocks arranged on the fixed support and the movable support, and a conveying assembly for driving the cable conductor section to axially move along the main connecting blocks and a lifting driving piece for driving the conveying assembly to lift are arranged on the main connecting blocks. The application has the effect of facilitating the movement of the welded cable conductor segments.

Description

Cable conductor joint welding equipment used in cable production process

Technical Field

The application relates to the technical field of cable welding equipment, in particular to cable conductor joint welding equipment used in a cable production process.

Background

The cable production process typically requires a welder to weld two sets of cable conductor segments to splice them to form the finished cable conductor.

In the related art, as shown in fig. 1, a butt welding machine body 1 includes a frame 10, a fixed support 11 and a movable support 12 are provided on the frame 10, a transverse cylinder 13 for driving the movable support 12 to slide toward the fixed support 11 is further provided on the frame 10, clamping mechanisms 14 are provided on the movable support 12 and the fixed support 11, and the clamping mechanisms 14 include a lower clamp 142, an upper clamp 141, and a longitudinal cylinder 143 for driving the upper clamp 141 to move longitudinally to clamp a workpiece.

When welding cable conductor sections, the cable conductor sections to be welded are respectively clamped by the clamping mechanisms 14 on the movable support 12 and the fixed support 11, the movable support 12 is driven to move towards the fixed support 11 by the transverse cylinder 13 so as to enable two adjacent cable conductor sections to be mutually abutted, meanwhile, the butt welding machine body 1 is supplied with low voltage and high current to the cable conductor sections by the clamping mechanisms 14, and the contact surfaces of the two mutually abutted cable conductor sections are instantaneously heated, melted and fused by utilizing the resistance between the contact surfaces of the adjacent cable conductor sections.

After the welding of the cable conductor sections is finished, the welded cable conductor sections are required to be moved to the clamping assembly of the fixed support, then the cable conductor sections to be welded subsequently are placed on the clamping mechanism of the movable support, and the subsequent welding is continued. Because the welding position of the cable conductor section joint can produce a circle of welding slag in the welding process, when an operator transfers the cable conductor section, the welding slag is limited, the welded cable conductor section is required to be lifted from the lower clamp and then moved into the clamping mechanism of the fixed support, and because the whole temperature of the cable conductor section in the welding process is higher, the operator can move by wearing thick heat-insulating gloves when moving the cable conductor section, and the whole operation is inconvenient.

Disclosure of Invention

In order to make the movement of the welded cable conductor section simpler and more convenient, the application provides cable conductor joint welding equipment used in the cable production process.

The application provides a welding device for a cable conductor joint in a cable production process, which adopts the following technical scheme:

a welding apparatus for a cable conductor joint in a cable production process, comprising:

the butt welding machine body comprises a fixed support and a movable support;

the jacking sliding mechanism comprises a plurality of main connecting blocks arranged on the fixed support and the movable support, and a conveying assembly for driving the cable conductor section to axially move along the main connecting blocks and a lifting driving piece for driving the conveying assembly to lift are arranged on the main connecting blocks.

Through adopting above-mentioned technical scheme, the welding of cable conductor end is accomplished and the welding body passes through the vertical driving piece and drives the back of going up the anchor clamps, drive conveyor through the lift driving piece and shift up in order to prop the cable conductor section that is located on the anchor clamps down this moment off anchor clamps, simultaneously drive the cable conductor section that the welding was accomplished through conveying component along self axial displacement, until the cable conductor section that the welding was accomplished shifts into between last anchor clamps and the lower anchor clamps on the fixed support, the rethread lift driving piece drives conveyor down until place the cable conductor section on the lower anchor clamps of fixed support, realize the transfer of welding completion cable conductor section, compare traditional through the operating personnel wear the gloves with the cable conductor section lift the mode of removing again more simple and convenient, the follow-up welding operation of cable conductor section of being convenient for.

Preferably, the conveying assembly comprises a main support, the main support is rotatably connected with a main driving wheel, and a main driving piece for driving the main driving wheel to rotate is further arranged on the main support; the lifting driving piece is in driving connection with the main support.

Through adopting above-mentioned technical scheme, lifting unit drives vice support and moves to main drive wheel and cable conductor section butt back, drives main drive wheel through the main driving piece and rotates alright drive cable conductor section along self axial displacement, is convenient for remove the cable conductor section that the welding was accomplished to the clamping mechanism of deciding the support.

Preferably, the outer circumferences of the main driving wheels are all coaxially provided with main annular grooves, and the main annular grooves are used for embedding cable conductor sections.

Through adopting above-mentioned technical scheme, be convenient for carry out spacingly to the cable conductor section through main ring channel, be favorable to restricting main drive wheel rotation in-process, the circumstances that the cable conductor section breaks away from main drive wheel appears, can more steadily order about cable conductor section along self axial displacement when being convenient for main drive wheel rotates.

Preferably, the main driving wheels on the fixed support are provided with a plurality of groups of main poking parts, each main poking part comprises two main poking rods which are oppositely arranged, each main poking rod is connected to the periphery of the main driving wheel, and each main poking rod is respectively positioned at two sides of the opening of the main annular groove.

Through adopting above-mentioned technical scheme, when the welding slag of cable conductor section is great, main drive wheel rotates the in-process accessible two main poking rods with the welding slag jack-up back and move to the opposite side of main drive wheel, reduce the condition that the welding slag is difficult to pass through main drive wheel because of the welding slag is too big.

Preferably, the fixed support and the movable support are respectively provided with a main sliding rail, the main connecting blocks are respectively connected to the corresponding main sliding rails in a sliding manner, and the main connecting blocks are further provided with main locking pieces for limiting the sliding of the main connecting blocks.

Through adopting above-mentioned technical scheme, be convenient for adjust the concrete position of main connecting block according to the actual length of cable conductor section to follow-up drive wheel through the lift driving piece drive upwards move in order to prop cable conductor section off lower anchor clamps, be favorable to promoting the application scope of jacking sideslip mechanism.

Preferably, an auxiliary connecting block is further erected on the fixed support, the auxiliary connecting block is located above the main connecting block and is arranged in a staggered mode with the main connecting blocks, an auxiliary support is erected below the auxiliary connecting block, and the auxiliary connecting block is connected with the auxiliary support through an elastic component; the auxiliary support is rotationally connected with an auxiliary driving wheel, the auxiliary support is further provided with an auxiliary driving piece for driving the auxiliary driving wheel to rotate, the auxiliary driving wheel and the main driving wheel are axially parallel, and when the jacking and traversing mechanism jacks up the cable conductor section, the auxiliary driving wheel is in butt joint with the cable conductor section.

Through adopting above-mentioned technical scheme, on the one hand, the auxiliary drive piece drives the rotation of auxiliary drive wheel and can assist to order about cable conductor section along self axial displacement, and on the other hand can be convenient for carry out supplementary spacing to the cable conductor section that moves through auxiliary drive wheel, reduces the cable conductor section and moves the in-process because of the tip breaks away from the main drive wheel on the movable support or because of the cable conductor section stretches out and decides the longer length of support and lead to the cable conductor section to take place to incline, and then influences the condition that the cable conductor section moved.

Preferably, the main locking piece comprises a main locking bolt which is threaded on the main connecting block in a penetrating manner, and the main locking bolt is in abutting connection with the main sliding rail.

Through adopting above-mentioned technical scheme, slide the main connecting block back to appointed position, twist the main locking bolt, until main locking bolt supports tightly with main slide rail, alright restriction main connecting block removes, the spacing of main connecting block of being convenient for.

Preferably, the elastic component includes the sleeve of vertical downward setting in vice connecting block below, the sleeve bottom has pegged graft the connecting rod, the connecting rod bottom is connected with vice support, be provided with the spring in the sleeve, the spring both ends are connected respectively on connecting rod top and sleeve top inner wall.

Through adopting above-mentioned technical scheme, when cable conductor section conveys to welding slag and auxiliary drive wheel contact, auxiliary drive wheel accessible spring upwards removes, and then the welding slag of the cable conductor section of being convenient for passes through auxiliary drive wheel, reduces the condition that auxiliary drive wheel restricted the welding slag of cable conductor section and passes through.

In summary, the present application includes at least one of the following beneficial technical effects:

1. after the welding of the cable conductor sections is finished, the conveying device is driven to move upwards by the main connecting blocks on the fixed support and the movable support through the lifting driving piece so as to prop the welded cable conductor sections away from the lower clamp, the conveying device is driven to move axially along the welded cable conductor sections until the welded cable conductor sections move into the clamping mechanism on the fixed support, and finally the conveying device is driven to move downwards by the lifting driving piece until the welded cable conductor sections are placed on the lower clamp of the fixed support, so that the movement of the cable conductor sections is simpler and more convenient.

2. The auxiliary connecting block is further erected on the fixed support, the auxiliary connecting block is connected with the auxiliary support through the elastic component, the auxiliary support is provided with an auxiliary driving wheel and an auxiliary driving piece for driving the auxiliary driving wheel to rotate, when the cable conductor section subjected to welding is jacked up by the jacking sliding mechanism, the auxiliary driving wheel is abutted to the cable conductor section, auxiliary limiting is carried out on the cable conductor section by the auxiliary driving wheel, and the situation that the cable conductor section is inclined due to the fact that the end part of the cable conductor section is separated from the main driving wheel of the movable support or stretches out of the fixed support for a long length is reduced.

3. The main driving wheel on the fixed support is provided with a plurality of main stirring pieces, each main stirring piece comprises two main stirring rods, each main stirring rod is connected to the periphery of the main driving wheel, the two main stirring rods are respectively located at two sides of the opening of the limiting groove, and welding slag is jacked up and stirred to the other side of the main driving wheel through the two main stirring rods in the rotation process of the main driving wheel, so that the condition that a cable conductor section cannot be transmitted due to the fact that the welding slag cannot pass through the main driving wheel is reduced.

Drawings

Fig. 1 is a schematic view for illustrating a structure of a conventional butt welding machine.

Fig. 2 is a schematic overall structure of an embodiment of the present application.

Fig. 3 is an enlarged schematic view of the portion a in fig. 2.

Reference numerals illustrate:

1. a butt welder body; 10. a frame; 11. a fixed support; 12. a movable support; 13. a transverse cylinder; 14. a clamping mechanism; 141. a clamp is arranged; 142. a lower clamp; 143. a longitudinal cylinder; 2. a main connecting block; 20. a main slide rail; 21. a main locking bolt; 22. a main support; 23. a lifting driving member; 24. a main driving wheel; 240. a main toggle rod; 25. a main driving member; 3. an auxiliary connecting block; 30. an auxiliary sliding rail; 31. an auxiliary support; 32. an auxiliary driving wheel; 320. an auxiliary toggle rod; 33. a sub-driving member; 34. a sleeve; 35. a connecting rod; 4. a cable conductor segment; 41. slag welding.

Detailed Description

The application is described in further detail below with reference to fig. 1-3.

Referring to fig. 1, the conventional butt welding machine body 1 comprises a frame 10, a fixed support 11 and a movable support 12 are arranged on the frame 10, clamping mechanisms 14 are arranged on the fixed support 11 and the movable support 12, the clamping mechanisms 14 comprise an upper clamp 141, a lower clamp 142 and a longitudinal air cylinder 143 for driving the upper clamp 141 to move towards the lower clamp 142 so as to clamp a cable conductor section 4, and the upper clamp 141 of a piston rod of the longitudinal air cylinder 143 is in driving connection; the opposite sides of the upper clamp 141 and the lower clamp 142 are provided with V-shaped grooves; the frame 10 is also provided with a transverse air cylinder 13, and the transverse air cylinder 13 is in driving connection with the movable support 12 and is used for driving the movable support 12 to move towards the fixed support 11.

The embodiment of the application discloses a welding device for a cable conductor joint in a cable production process, which comprises a butt welding machine body 1 and a jacking and traversing mechanism, wherein the jacking and traversing mechanism comprises a plurality of main connecting blocks 2 arranged on a fixed support 11 and a movable support 12 of the butt welding machine body 1, and a conveying assembly is arranged on the main connecting blocks 2 and is used for driving a welded cable conductor section 4 to axially slide along the main connecting blocks. The main connecting block 2 is also provided with a lifting driving piece 23 for driving the conveying device to lift along the vertical direction.

After the welding of the two groups of separated cable conductor sections 4 is completed by the butt welding machine body 1 and the upper clamp 141 is driven to move upwards by the longitudinal air cylinder 143, the conveying assembly is driven to move upwards by the lifting driving piece 23 so as to support the welded cable conductor sections 4 away from the lower clamp 142, and meanwhile, the welded cable conductor sections 4 are driven to move axially along the conveying assembly until the welded cable conductor ends are moved onto the clamping mechanism 14 on the fixed support 11.

In this embodiment, the number of the main connecting blocks 2 on the fixed support 11 and the movable support 12 is two, the fixed support 11 and the movable support 12 are both provided with a main sliding rail 20, limiting plates are vertically and downwardly arranged on two sides of the main connecting block 2, the main connecting block 2 and the two groups of limiting plates form a sliding groove, the main connecting block 2 is slidably connected on the main sliding rail 20 through the sliding groove, so that the position of the main connecting block 2 is conveniently adjusted according to the actual length of the cable conductor section 4, and the conveying device on the main connecting block 2 can jack up the welded cable conductor section 4 under the driving of the lifting driving piece 23 better. The main connecting block 2 is further threaded and provided with a main locking bolt 21, and the main locking bolt 21 is abutted with the sliding rail and used for limiting the displacement of the main connecting block 2 after the position of the main connecting block 2 is adjusted.

The conveying assembly comprises a main support 22 erected on the main connecting block 2, a main driving wheel 24 is rotatably connected to the main support 22, a main driving piece 25 for driving the main driving wheel 24 to rotate around the main driving wheel 24 in the axial direction is further arranged on the main support 22, and in this embodiment, the main driving piece 25 is a motor, and the motor is in driving connection with the main driving wheel 24. After the lifting driving piece 23 drives the main support 22 to move upwards and the main driving wheel 24 abuts against the welded cable conductor section 4, the main driving piece 25 drives the main driving wheel 24 to rotate, so that the cable conductor section 4 can be driven to move along the axial direction of the cable conductor section. The outer periphery of the main driving wheel 24 is also provided with a main annular groove, and the main annular groove is used for embedding the cable conductor section 4, so that the cable conductor section 4 is conveniently limited to be separated from the main driving wheel 24. In this embodiment, the lifting driving member 23 is an air cylinder, and a piston rod of the air cylinder is in driving connection with the bottom of the main support 22 to drive the main support 22 to lift.

The main driving wheels 24 on the fixed support 11 are provided with four groups of main poking pieces, the four groups of main poking pieces are uniformly distributed around the axis of the main driving wheels 24, each main poking piece comprises two main poking rods 240 which are oppositely arranged, each main poking rod 240 is connected to the periphery of the main driving wheel 24, each main poking rod 240 is respectively located at two sides of an opening of a main annular groove, and the axial direction of each main poking rod 240 is perpendicular to the axial direction of the corresponding main driving wheel 24. Through setting up the main piece of stirring, when the welding slag 41 of cable conductor section 4 welded site is great, main drive wheel 24 rotates the in-process accessible two main stirring rod 240 with welding slag 41 lift up and remove to the opposite side of main drive wheel 24, reduce because of cable conductor section 4 welding too big lead to welding slag 41 unable bypass main drive wheel 24, cause the unable condition of conveying of cable conductor section 4.

The fixed support 11 is further provided with an auxiliary connecting block 3, the auxiliary connecting block 3 is located on the two groups of main connecting blocks 2 and is staggered with the two groups of main connecting blocks 2, the auxiliary connecting block 3 is connected with an auxiliary support 31 through an elastic component, the auxiliary support 31 is rotationally connected with an auxiliary driving wheel 32, the auxiliary driving wheel 32 and the main driving wheel 24 are axially arranged in parallel, the auxiliary support 31 is further provided with an auxiliary driving piece 33 for driving the auxiliary driving wheel 32 to rotate, in the embodiment, the auxiliary driving piece 33 is a motor, and the motor is coaxially connected with the auxiliary driving wheel 32 to drive the auxiliary driving wheel 32 to rotate. When the jacking and traversing mechanism jacks up the welded cable conductor section 4, the auxiliary driving wheel 32 is in abutting connection with the cable conductor section 4, so that auxiliary limiting is conveniently carried out on the cable conductor section 4 through the auxiliary driving wheel 32, inclination caused by that the end part of the welded cable conductor section 4 is separated from the main driving wheel 24 on the movable support 12 or extends out of the fixed support 11 for a long length in the conveying process is reduced, and the situation that the conveying device drives the welded cable conductor section 4 to move is influenced; at the same time, the auxiliary driving piece 33 drives the auxiliary driving wheel 32 to rotate, and the cable conductor section 4 after welding can be driven to move axially along the auxiliary driving wheel. The outer periphery of the secondary driving wheel 32 is also provided with a secondary annular groove for embedding the cable conductor section 4.

The elastic component includes the sleeve 34 of vertical connection in vice connecting plate below, and sleeve 34 bottom coaxial grafting has connecting rod 35, and connecting rod 35 is connected with vice support 31, still is connected with the spring between connecting rod 35 and the sleeve 34, and sleeve 34 top inner wall and connecting rod 35 top are connected respectively at the spring both ends, and the spring is used for driving connecting rod 35 to stretch out sleeve 34 bottom, through above setting, in the cable conductor section 4 conveying process, the auxiliary drive wheel 32 is upwards moved with the welding contact time accessible spring, the welding slag 41 on the cable conductor section 4 of being convenient for passes through auxiliary drive wheel 32.

Four groups of auxiliary poking pieces are arranged on the auxiliary driving wheel 32 and uniformly distributed around the axial direction of the auxiliary driving wheel 32, each auxiliary poking piece comprises two auxiliary poking rods 320 which are oppositely arranged, each auxiliary poking rod 320 is axially and vertically arranged with the auxiliary driving wheel 32, each auxiliary poking rod 320 is connected to the periphery of the auxiliary driving wheel 32, and each auxiliary poking rod 320 is respectively located at two sides of an opening of each auxiliary annular groove. When the welding slag 41 at the welding position of the cable conductor section 4 is larger, the two pairs of poking rods 320 poke the larger welding slag 41 on the cable conductor section 4 to the other side of the auxiliary driving wheel 32 in the rotation process of the auxiliary driving wheel 32, so that the situation that the welding slag 41 cannot pass through the auxiliary driving wheel 32 due to the fact that the welding slag 41 at the end of the cable conductor is larger is reduced.

The fixed support 11 is also provided with an auxiliary slide rail 30, the auxiliary slide rail 30 is arranged in parallel with the main slide rail 20, the auxiliary slide rail 30 is positioned above the main slide rail 20, and one end of the auxiliary slide rail 30 is connected to the upper clamp 141 of the fixed support 11. The auxiliary connecting block 3 is slidably connected to the auxiliary sliding rail 30, and through the arrangement, the positions of the auxiliary connecting block 3 and the auxiliary driving wheel 32 can be adjusted according to actual needs, so that the auxiliary driving wheel 32 can be conveniently and well abutted to the cable conductor section 4. The auxiliary locking bolt is further threaded on the lower surface of the auxiliary connecting block 3 and abuts against the auxiliary sliding rail 30, so that the auxiliary connecting block 3 is limited.

The implementation principle of the embodiment of the application is as follows: the butt welding machine body 1 welds two independent cable conductor sections 4 into a whole and drives the upper clamp 141 to move upwards through the longitudinal air cylinder 143; then the main support 22 and the main driving wheel 24 are driven to move upwards by the lifting driving piece on the main connecting block 2, the welding-completed cable conductor section 4 is supported off the surface of the lower clamp 142 by the lifting driving piece 24, meanwhile, the main driving piece 25 and the auxiliary driving piece 33 drive the main driving piece 24 and the auxiliary driving piece 32 to rotate respectively, the rotating main driving piece 24 and the auxiliary driving piece 32 drive the welding-completed cable conductor section 4 to move upwards towards the clamping mechanism 14 on the fixed support 11 until the welding-completed cable conductor section 4 completely moves between the upper clamp 141 and the lower clamp 142 of the fixed support 11, finally, the main support 22 is driven to move downwards by the lifting driving piece 23 until the welding-completed cable conductor section 4 is placed on the V-shaped groove of the lower clamp 142 of the fixed support 11, and the welding-completed cable conductor section 4 is moved without manually wearing a heat insulation glove, so that the movement of the cable conductor section 4 is simpler and more convenient.

The above embodiments are not intended to limit the scope of the present application, so: all equivalent changes in structure, shape and principle of the application should be covered in the scope of protection of the application.

Claims (8)

1. A cable conductor joint welding equipment used in the cable production process is characterized in that: comprising the following steps:

the butt welding machine comprises a butt welding machine body (1), wherein the butt welding machine body comprises a fixed support (11) and a movable support (12);

the jacking sliding mechanism comprises a plurality of main connecting blocks (2) arranged on a fixed support (11) and a movable support (12), and a conveying assembly for driving the cable conductor section (4) to axially move along the main connecting blocks (2) and a lifting driving piece (23) for driving the conveying assembly to lift are arranged on the main connecting blocks.

2. A cable conductor tab welding apparatus for use in a cable production process according to claim 1, wherein: the conveying assembly comprises a main support (22), the main support (22) is rotationally connected with a main driving wheel (24), and a main driving piece (25) for driving the main driving wheel (24) to rotate is further arranged on the main support (22); the lifting driving piece (23) is in driving connection with the main support (22).

3. A cable conductor tab welding apparatus for use in a cable production process according to claim 2, wherein: the outer circumferences of the main driving wheels (24) are all coaxially provided with main annular grooves (241), and the main annular grooves (241) are used for embedding the cable conductor sections (4).

4. A cable conductor tab welding apparatus for use in a cable production process according to claim 2, wherein: the main driving wheels (24) located on the fixed support (11) are provided with a plurality of groups of main poking parts, each main poking part comprises two groups of main poking rods (240) which are oppositely arranged, the two groups of main poking rods (240) are connected to the periphery of the main driving wheels (24), and the two groups of main poking rods (240) are respectively located at two sides of an opening of the main annular groove (241).

5. A cable conductor tab welding apparatus for use in a cable production process according to claim 2, wherein: the fixed support (11) and the movable support (12) are respectively provided with a main sliding rail (20), the main connecting blocks (2) are respectively connected to the corresponding main sliding rails (20) in a sliding mode, and the main connecting blocks (2) are also provided with main locking pieces for limiting self sliding.

6. A cable conductor tab welding apparatus for use in a cable production process according to claim 2, wherein: an auxiliary connecting block (3) is further erected on the fixed support (11), the auxiliary connecting block (3) is located above the main connecting block (2) and is arranged in a staggered mode with the main connecting blocks (2), an auxiliary support (31) is erected below the auxiliary connecting block (3), and the auxiliary connecting block (3) is connected with the auxiliary support (31) through an elastic component; the auxiliary support (31) is rotationally connected with an auxiliary driving wheel (32), the auxiliary support (31) is further provided with an auxiliary driving piece (33) for driving the auxiliary driving wheel (32) to rotate, the auxiliary driving wheel (32) and the main driving wheel (24) are axially parallel, and when the jacking and traversing mechanism jacks up the cable conductor section (4), the auxiliary driving wheel (32) is in butt connection with the cable conductor section (4).

7. A cable conductor tab welding apparatus for use in a cable production process according to claim 5, wherein: the main locking piece comprises a main locking bolt (21) which is threaded on the main connecting block (2), and the main locking bolt (21) is in butt joint with the main sliding rail (20).

8. A cable conductor tab welding apparatus for use in a cable production process according to claim 6, wherein: the elastic component includes sleeve (34) of vertical downward setting in vice connecting block (3) below, peg graft in sleeve (34) bottom has connecting rod (35), connecting rod (35) bottom and vice support (31) are connected, be provided with the spring in sleeve (34), the spring both ends are connected respectively at connecting rod (35) top and sleeve (34) top inner wall.