CN117393238B - Conductive cell twisting device for cable production and application method thereof - Google Patents

Abstract

The invention relates to the technical field of cable production, in particular to a conductive electric core twisting device for cable production and a use method thereof. According to the conductive electric core twisting device for the cable production and the application method thereof, the winding belt is tightened on the upper side of the electric core, downward pressure is applied to the electric core, so that the electric core is counteracted by the upward pulling force of the winding belt, the influence of the upward bending of the electric core on the winding compactness is avoided, compared with the existing method that the electric core is actively lowered by using the pushing block, the applied pressure is generated by the middle section process of the winding belt, the pressure is equal to the upward pulling force generated by winding the tail end, the uniform pressing of the opposite sides of the electric core is ensured, the electric core can be stably positioned at the central axis position of the flywheel, the micro-offset of the electric core is influenced by rotation to enlarge the offset, the operation stability is better, and the additional structure is less, and the electric core is mainly realized by the winding belt.

Description

Conductive cell twisting device for cable production and application method thereof

Technical Field

The invention relates to the technical field of cable production, in particular to a conductive cell twisting device for cable production and a use method thereof.

Background

The cable is typically a rope-like cable of twisted wires of several wires or groups of wires, each group being insulated from each other and often twisted around a center, covered entirely with a highly insulating coating, but which is prone to gaps with the wires when twisted, which are often filled with filling ropes. Meanwhile, in order to better protect the cable, a circle of winding tape is required to be wound on the surface of the cable in the follow-up process.

The prior patent (publication number: CN 115841895A) discloses a low-smoke halogen-free safety cable and production equipment thereof, which belong to the technical field of cables, and the production equipment is used for compacting filling ropes at gaps and pulling the cable during wrapping. The production equipment comprises: a bottom plate, a shell, a first round tube and the like; the front part of the upper side of the bottom plate is fixedly connected with a shell; the upper part of the shell is fixedly connected with a first round tube. The production equipment is used for manufacturing the safety cable, the cable body comprises a plurality of cable cores, a polytetrafluoroethylene insulating layer is wrapped outside each cable core, a plurality of cable cores are twisted with a filling rope, and a waterproof layer is wrapped outside the twisted whole cable. According to the prior art, the intermittent compaction is mainly provided for the filling rope by the pressing block, the loosening condition is easy to exist, the reverse pressure of the pushing block on the battery core and the wrapping belt is difficult to be equal, and the battery core displacement is easy to be caused to influence the operation stability.

In view of this, we propose a conductive core twisting device for cable production and a method of using the same.

Disclosure of Invention

The invention aims to provide a conductive cell twisting device for cable production and a use method thereof, which are used for solving the problems that in the prior art, intermittent compaction is provided for a filling rope by mainly using a pressing block, loosening is easy to occur, reverse pressure applied to a cell by using a pushing block and wrapping tape is difficult to be equal, and cell displacement is easy to be caused to influence operation stability. In order to achieve the above purpose, the present invention provides the following technical solutions: the utility model provides a cable manufacture is with electrically conductive electric core hank system device, includes hank system platform, the right side of hank system platform is provided with the reel that pulls the cable, and hank system platform left side is provided with around the package case, the left and right sides of package case surface all is provided with the cable mouth of wearing that the power supply cable passed, the inside rotation of package case is connected with the flywheel, and the interior bottom fixed mounting of package case has the motor, fixed mounting has the gear in the axis of rotation of motor, the fixed surface of flywheel is provided with the ring gear, and ring gear and gear intermeshing.

The flywheel is provided with an inner opening opposite to the cable penetrating openings on two sides, and a rope pressing device is arranged in the inner opening.

Preferably, the rope pressing device comprises a cable ring rotatably connected in the inner opening, a plurality of valve blocks are arranged on the inner side of the cable ring, and the valve blocks are in annular equidistant arrays.

The cable ring is characterized in that a notch corresponding to the valve block is formed in the side end face of the cable ring, a shaft rod is fixedly penetrated through the valve block, the valve block is rotatably connected in the notch through the shaft rod, a torsion spring is movably sleeved on the shaft rod, and the torsion spring pushes the valve block to rotate towards the inside of the cable ring.

The right side of the flywheel is provided with a wrapping device for processing the battery cores sent out by the plurality of valve blocks 112.

Preferably, the lapping device comprises a clamping seat fixedly arranged on the right side face of the flywheel, a lapping disc is rotatably arranged on the clamping seat, a lapping belt is arranged on the lapping disc, and the lapping belt is driven to lap on the cable when the lapping disc moves circularly.

Three supports are arranged on the right side face of the flywheel, three supports are triangular arrays, a first roller is rotatably arranged on one support close to the front side, a second roller is rotatably arranged on one support close to the rear side, and a third roller is rotatably arranged on one support located on the upper side.

The wrapping belt winds into the space between the first roller and the cable from the outer side of the first roller, passes through the upper part of the cable, winds out along the inner side of the second roller, and finally upwards bypasses the third roller to be connected to the cable.

And the bracket and the flywheel are provided with a dispersion preventer.

Preferably, the anti-scattering device comprises three sliding grooves formed in the right side face of the flywheel, and the three sliding grooves are in annular equidistant arrays along the right side face of the flywheel and correspond to the three brackets one by one.

The one end fixed mounting of support relative spout has the slide, and the support carries out sliding connection through the slide along the spout, be provided with the spring in the spout, and the spring promotes the direction removal of slide and support to keeping away from the flywheel axis.

The right ends of the three brackets are fixedly provided with plastic clips, the three plastic clips are movably provided with C-shaped hoops, and the C-shaped hoops are sleeved outside the three plastic clips after being expanded.

Preferably, a protection net matched with the reel and the cable is arranged on the right side of the twisting table.

Preferably, the front side and the rear side of the top surface of the twisting table are fixedly provided with sliding rails, and the protective net is slidably arranged on the sliding rails.

Preferably, the inner ring of the cable ring is of a two-section ladder structure, and the valve block is limited to be in a closed state by the two-section ladder structure.

The application method of the conductive cell twisting device for cable production comprises the following steps:

s1, a twisted battery cell enters a wrapping box from left to right, passes through an inner opening on a flywheel and then passes out of the wrapping box, and is finally connected with a winch wheel, the winch wheel rotates to pull the battery cell to pass in the wrapping box, in the process, a motor drives the flywheel to rotate, a wrapping disc on the flywheel performs circular motion, and wrapping tape is wrapped on the battery cell;

s2, enabling the electric core in the inner opening to penetrate through the cable ring and prop against the valve block rightwards, applying pressure to the turned valve block by the torsion spring in the process, enabling the end head of the valve block to be in compression connection with the surface of the electric core, wherein the electric core is of a rope-like structure formed by twisting a plurality of wires around a central wire, gaps between the central wire and other wires in twisting are filled by using a filling belt, along with movement of the electric core, the tip of the valve block is aligned with the gaps gradually, the filling belt is pressed into the gaps, so that the gap between the wires is compressed tightly by the filling belt, and when the electric core moves, the tip of the valve block reversely pushes the cable ring to rotate along the gaps, so that the valve block can continuously compress the filling belt;

s3, in the process of wrapping after the filling belt on the surface of the battery cell is compressed, the wrapping belt of the wrapping part is tightened on the upper side of the battery cell through the first roller and the second roller, downward pressure is applied to the battery cell, so that the force of the battery cell pulled upwards by the wrapping belt is counteracted, and the influence of the upward bending of the battery cell on wrapping compactness is avoided;

s4, under the condition that wrapping tape breaks in the wrapping process, the support loses the constraint of wrapping tape, the sliding seat and the support are pushed by the springs in the sliding grooves to move, the three supports are far away from each other, the plastic clamp on the support is limited by the C-shaped clamp to collapse, at the moment, the C-shaped clamp loses the constraint of the three plastic clamps to shrink inwards, and the clamp locks on the battery cells to compress the wrapping tape.

Compared with the prior art, the invention has the beneficial effects that:

according to the invention, the filling belt is pressed into the gap through the tip of the valve block, so that the gap between the wires is pressed more tightly by the filling belt, and when the battery core moves, the tip of the valve block reversely pushes the cable ring to rotate along the gap, so that the valve block can continuously press the filling belt.

According to the invention, the winding belt is tightened on the upper side of the battery core, and downward pressure is applied to the battery core, so that the upward pulling force of the winding belt on the battery core is counteracted, the influence of the upward bending of the battery core on the winding compactness is avoided, compared with the existing method that the pushing block is used for actively downwards pressing the battery core, the applied pressure is generated by the middle section process of the winding belt, the pressure is equal to the upward pulling force generated by the tail end winding, the uniform pressure on the opposite sides of the battery core is ensured, the battery core can be stably positioned at the central axis position of the flywheel, the micro-deviation of the battery core is prevented from being influenced by rotation to enlarge the deviation amount under the condition of unbalanced pressure, the operation stability is better, and the additional structure is less, and the battery core is mainly realized by the winding belt.

According to the invention, under the condition that the wrapping belt is broken, the support loses the constraint of the wrapping belt, the spring in the sliding groove pushes the sliding seat and the support to move, the three supports are far away from each other, the plastic clamp on the support is broken due to the limitation of the C-shaped clamp, at the moment, the C-shaped clamp loses the constraint of the three plastic clamps and contracts inwards, and the clamp is locked on the battery cell to compress the wrapping belt, so that the wrapping tail end of the battery cell in the current state is fixed, the loosening of the wrapping belt of the wrapped part on the battery cell is avoided, the possibility that the loose wrapping belt is wound on the internal parts of equipment is reduced, and the battery cell is better in use safety.

Drawings

FIG. 1 is a schematic perspective view of the present invention;

FIG. 2 is a perspective view in cross-section of the left side view of the present invention;

FIG. 3 is a schematic perspective view of the flywheel and bracket of FIG. 2 according to the present invention;

FIG. 4 is a perspective view in cross section of the right side view of the present invention;

FIG. 5 is a schematic perspective view of the flywheel and bracket of FIG. 4 according to the present invention;

FIG. 6 is an enlarged view of the invention at A in FIG. 5;

FIG. 7 is a schematic view showing the structures of the first roller, the second roller, the third roller and the wrapping tape according to the present invention;

FIG. 8 is a perspective cross-sectional view of the flywheel of the present invention;

fig. 9 is a schematic view of the structure of the cable ring and the valve block of the present invention.

In the figure: 1. a twisting table; 2. a battery cell; 3. a reel; 4. a wrapping box; 5. a cable penetrating opening; 6. a flywheel; 7. a motor; 8. a gear; 9. a gear ring; 10. an inner port; 11. a rope pressing device; 111. a cable loop; 112. a petal block; 113. a notch; 114. a shaft lever; 115. a torsion spring; 116. a wrapping device; 1161. a clamping seat; 1162. a wrapping disc; 1163. wrapping the belt; 1164. a bracket; 1165. a first roller; 1166. a second drum; 1167. a third drum; 1168. an anti-scatter device; 11681. a chute; 11682. a slide; 11683. a spring; 11684. a plastic clip; 11685. c-shaped hoops.

Detailed Description

The following description of the embodiments of the present invention will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present invention, but not all embodiments. All other embodiments, which are obtained by a worker of ordinary skill in the art without creative efforts, are within the protection scope of the present invention based on the embodiments of the present invention.

Referring to fig. 1 to 9, the present invention provides a technical solution: the utility model provides a cable production is with electrically conductive electric core hank system device, including hank system platform 1, the right side of hank system platform 1 is provided with the reel 3 of drawing electric core 2, and the left side of hank system platform 1 is provided with around package case 4, the left and right sides on package case 4 surface all is provided with the cable mouth 5 that power supply core 2 passed, the electric core 2 after the transposition gets into around package case 4 from left to right, wear out around package case 4 after passing the internal orifice 10 on flywheel 6, finally be connected with reel 3, reel 3 rotates and draws electric core 2 to walk in around package case 4, the inside rotation of around package case 4 is connected with flywheel 6, and the inner bottom fixed mounting of around package case 4 has motor 7, fixed mounting has gear 8 in the axis of rotation of motor 7, the fixed surface of flywheel 6 is provided with ring gear 9, and ring gear 9 and gear 8 intermeshing;

the flywheel 6 is provided with an inner opening 10 opposite to the two cable penetrating openings 5, and the inner opening 10 is provided with a rope pressing device 11.

In this embodiment, as shown in fig. 1, 2, 3, 4, and 5 to 9, the rope pressing device 11 includes a cable ring 111 rotatably connected in the inner opening 10, and a plurality of segments 112 are disposed inside the cable ring 111, and the plurality of segments 112 are in an annular equidistant array;

a gap 113 corresponding to the valve block 112 is formed in the side end face of the cable ring 111, a shaft lever 114 is fixedly penetrated through the valve block 112, the valve block 112 is rotatably connected in the gap 113 through the shaft lever 114, a torsion spring 115 is movably sleeved on the shaft lever 114, the torsion spring 115 pushes the valve block 112 to rotate towards the inside of the cable ring 111, a battery cell 2 in the inner port 10 penetrates through the cable ring 111 and supports the valve block 112 to the right, and in the process, the torsion spring 115 applies pressure to the turned valve block 112 to enable the end head of the valve block 112 to be in compression joint with the surface of the battery cell 2;

the right side of the flywheel 6 is provided with a wrapper 116 for processing the battery cells sent out from the plurality of valve blocks 112.

In this embodiment, as shown in fig. 1, 2, 3, 4, and 5 to 9, the lapping device 116 includes a clamping seat 1161 fixedly installed on the right side of the flywheel 6, a lapping disc 1162 is rotatably provided on the clamping seat 1161, a lapping tape 1163 is provided on the lapping disc 1162, when the lapping disc 1162 moves circumferentially, the lapping tape 1163 is driven to lap on the battery core 2, the motor 7 drives the flywheel 6 to rotate, the lapping disc 1162 on the flywheel 6 moves circumferentially, and the lapping tape 1163 is lapped on the battery core 2;

three supports 1164 are arranged on the right side surface of the flywheel 6, the three supports 1164 are in a triangular array, a first roller 1165 is rotatably arranged on one support 1164 close to the front side, a second roller 1166 is rotatably arranged on one support 1164 close to the rear side, and a third roller 1167 is rotatably arranged on one support 1164 on the upper side;

the wrapping tape 1163 is wound between the first roller 1165 and the battery cell 2 from the outer side of the first roller 1165, passes through the upper part of the battery cell 2, winds out along the inner side of the second roller 1166, and finally winds up around the third roller 1167 to be connected to the battery cell 2, the wrapping tape 1163 of the winding part is tightened on the upper side of the battery cell 2 through the first roller 1165 and the second roller 1166, and downward pressure is applied to the battery cell 2, so that the upward pulling force of the battery cell 2 by the wrapping tape 1163 is counteracted;

the bracket 1164 and the flywheel 6 are provided with a scatter preventer 1168.

In this embodiment, as shown in fig. 1, 2, 3, 4, and 5 to 9, the anti-scattering device 1168 includes three sliding grooves 11681 formed on the right side of the flywheel 6, and the number of the sliding grooves 11681 is three, and the three sliding grooves 11681 are in an annular equidistant array along the right side of the flywheel 6 and are in one-to-one correspondence with the three brackets 1164;

a sliding seat 11682 is fixedly arranged at one end of the bracket 1164 opposite to the sliding groove 11681, the bracket 1164 is connected in a sliding way along the sliding groove 11681 through the sliding seat 11682, a spring 11683 is arranged in the sliding groove 11681, and the spring 11683 pushes the sliding seat 11682 and the bracket 1164 to move in a direction far away from the central axis of the flywheel 6;

the right ends of the three supports 1164 are fixedly provided with plastic clamps 11684, the three plastic clamps 11684 are movably provided with C-shaped hoops 11685, the C-shaped hoops 11685 are sleeved outside the three plastic clamps 11684 after being expanded outwards, under the condition that the wrapping tape 1163 is broken, the supports 1164 lose the constraint of the wrapping tape 1163, the springs 11683 in the sliding grooves 11681 push the sliding seat 11682 and the supports 1164 to move, the three supports 1164 are far away from each other, the plastic clamps 11684 on the supports 1164 are limited by the C-shaped hoops 11685 to collapse, and at the moment, the C-shaped hoops 11685 lose the constraint of the three plastic clamps 11684 to shrink inwards and are locked on the battery cell 2.

In this embodiment, as shown in fig. 1, 2, 3, 4, and 5 to 9, a protection net matched with the reel 3 and the battery cell 2 is disposed on the right side of the twisting table 1, and the protection net does not affect visual inspection of related equipment by an operator, and can also block when the battery cell 2 breaks, so as to avoid potential safety hazards.

In this embodiment, as shown in fig. 1, 2, 3, 4, and 5 to 9, the front and rear sides of the top surface of the twisting table 1 are both fixedly provided with sliding rails, the protection net is slidably mounted on the sliding rails, and an operator can push the protection net to move along the sliding rails to adjust the position, so that the protection net is convenient for targeted protection and blocking on one hand, and can be quickly opened by removing on the other hand.

In this embodiment, as shown in fig. 1, 2, 3, 4, and 5 to 9, the inner ring of the cable ring 111 is configured as a two-step structure, and the valve block 112 is limited to be in a closed state by the two-step structure, so as to limit the rotation angle of the valve block 112, and avoid that the extrusion tip of the valve block 112 pierces the battery core 2 forward to affect the pulling movement thereof.

The application method of the conductive cell twisting device for cable production comprises the following steps:

s1, a twisted battery cell 2 enters a wrapping box 4 from left to right, passes through an inner opening 10 on a flywheel 6, passes through the wrapping box 4, is finally connected with a reel 3, and rotates the reel 3 to pull the battery cell 2 to pass through the wrapping box 4, in the process, a motor 7 drives the flywheel 6 to rotate, a wrapping disc 1162 on the flywheel 6 performs circular motion, and a wrapping belt 1163 is wrapped on the battery cell 2;

s2, the battery cell 2 in the inner port 10 passes through the cable ring 111 and presses the valve block 112 to the right, in the process, the torsion spring 115 applies pressure to the turned valve block 112 to enable the end head of the valve block 112 to be in compression joint with the surface of the battery cell 2, the battery cell 2 is generally of a rope-like structure formed by twisting a plurality of wires around a central wire, gaps between the central wire and other wires are formed during twisting, filling belts are adopted to fill gaps, along with movement of the battery cell 2, the tip ends of the valve block 112 are gradually aligned with the gaps, and the filling belts are pressed into the gaps, so that the filling belts press the gaps between the wires more tightly, and when the battery cell 2 moves, the tip ends of the valve block 112 reversely push the cable ring 111 to rotate along the gaps, so that the valve block 112 can continuously compress the filling belts;

s3, in the process of wrapping after the filling belt on the surface of the battery cell 2 is compressed, wrapping belt 1163 of a wrapping part is tightened on the upper side of the battery cell 2 through a first roller 1165 and a second roller 1166, downward pressure is applied to the battery cell 2, so that the force of the battery cell 2 pulled upwards by the wrapping belt 1163 is counteracted, and the influence of the upward bending of the battery cell 2 on wrapping compactness is avoided;

and S4, under the condition that the wrapping tape 1163 is broken in the wrapping process, the support 1164 loses the constraint of the wrapping tape 1163, the spring 11683 in the sliding groove 11681 pushes the sliding seat 11682 and the support 1164 to move, the three supports 1164 are far away from each other, the plastic clamp 11684 on the support 1164 is limited by the C-shaped clamp 11685 to collapse, at the moment, the C-shaped clamp 11685 loses the constraint of the three plastic clamps 11684 to shrink inwards, and the clamp locks on the battery cell 2 to compress the wrapping tape 1163.

The foregoing has shown and described the basic principles, principal features and advantages of the invention. It will be understood by those skilled in the art that the present invention is not limited to the above-described embodiments, and that the above-described embodiments and descriptions are only preferred embodiments of the present invention, and are not intended to limit the invention, and that various changes and modifications may be made therein without departing from the spirit and scope of the invention as claimed. The scope of the invention is defined by the appended claims and equivalents thereof.

Claims (6)

1. The utility model provides a cable manufacture is with electrically conductive electric core hank system device, includes hank system platform (1), the right side of hank system platform (1) is provided with the reel (3) of drawing electric core (2), and hank system platform (1) left side is provided with around package case (4), the left and right sides on package case (4) surface all is provided with cable mouth (5) that power supply core (2) passed, its characterized in that: the inner part of the wrapping box (4) is rotationally connected with a flywheel (6), a motor (7) is fixedly arranged at the inner bottom of the wrapping box (4), a gear (8) is fixedly arranged on the rotating shaft of the motor (7), a gear ring (9) is fixedly arranged on the surface of the flywheel (6), and the gear ring (9) is meshed with the gear (8);

an inner opening (10) opposite to the two cable penetrating openings (5) is formed in the flywheel (6), and a rope pressing device (11) is arranged in the inner opening (10);

the rope pressing device (11) comprises a cable ring (111) rotatably connected in the inner opening (10), a plurality of valve blocks (112) are arranged on the inner side of the cable ring (111), and the valve blocks (112) are in annular equidistant arrays;

a notch (113) corresponding to the valve block (112) is formed in the side end face of the cable ring (111), a shaft rod (114) is fixedly penetrated through the valve block (112), the valve block (112) is rotationally connected in the notch (113) through the shaft rod (114), a torsion spring (115) is movably sleeved on the shaft rod (114), and the torsion spring (115) pushes the valve block (112) to rotate towards the inside of the cable ring (111);

a wrapping device (116) for processing the battery cores sent out from the plurality of valve blocks (112) is arranged on the right side of the flywheel (6);

the wrapping device (116) comprises a clamping seat (1161) fixedly arranged on the right side face of the flywheel (6), a wrapping disc (1162) is rotatably arranged on the clamping seat (1161), wrapping belts (1163) are arranged on the wrapping disc (1162), and the wrapping belts (1163) are driven to wrap on the battery cells (2) when the wrapping disc (1162) moves circularly;

three supports (1164) are arranged on the right side surface of the flywheel (6), the three supports (1164) are in a triangular array, a first roller (1165) is rotatably arranged on one support (1164) close to the front side, a second roller (1166) is rotatably arranged on one support (1164) close to the rear side, and a third roller (1167) is rotatably arranged on one support (1164) on the upper side;

the wrapping belt (1163) is wound between the first roller (1165) and the battery cell (2) from the outer side of the first roller (1165), passes through the upper part of the battery cell (2), is wound out along the inner side of the second roller (1166), and finally is connected to the battery cell (2) by upwards bypassing the third roller (1167);

and the bracket (1164) and the flywheel (6) are provided with a diffusion preventer (1168).

2. The conductive cell twisting device for cable production according to claim 1, wherein: the anti-scattering device (1168) comprises three sliding grooves (11681) formed in the right side face of the flywheel (6), and the three sliding grooves (11681) are in annular equidistant arrays along the right side face of the flywheel (6) and correspond to the three supports (1164) one by one;

one end of the support (1164) opposite to the sliding groove (11681) is fixedly provided with a sliding seat (11682), the support (1164) is connected in a sliding mode along the sliding groove (11681) through the sliding seat (11682), a spring (11683) is arranged in the sliding groove (11681), and the spring (11683) pushes the sliding seat (11682) and the support (1164) to move in a direction away from the central axis of the flywheel (6);

the right ends of the three supports (1164) are fixedly provided with plastic clips (11684), the three plastic clips (11684) are movably provided with C-shaped hoops (11685), and the C-shaped hoops (11685) are sleeved outside the three plastic clips (11684) after being expanded outwards.

3. The conductive cell twisting device for cable production according to claim 2, wherein: the right side of the twisting table (1) is provided with a protection net matched with the twisting wheel (3) and the battery cell (2).

4. A conductive core twisting device for cable manufacture according to claim 3, wherein: the front side and the rear side of the top surface of the twisting table (1) are fixedly provided with sliding rails, and the protective net is slidably arranged on the sliding rails.

5. The conductive cell twisting device for cable production according to claim 4, wherein: the inner ring of the cable ring (111) is of a two-section ladder structure, and the valve block (112) is limited to be in a closed state by the two-section ladder structure.

6. The method of using a conductive core twisting device for cable manufacture according to claim 5, comprising the steps of:

s1, a twisted battery cell (2) enters a wrapping box (4) from left to right, passes through an inner opening (10) on a flywheel (6) and then passes out of the wrapping box (4), and is finally connected with a reel (3), the reel (3) rotates to pull the battery cell (2) to pass through the wrapping box (4), in the process, a motor (7) drives the flywheel (6) to rotate, a wrapping disc (1162) on the flywheel (6) performs circular motion, and wrapping belts (1163) are wrapped on the battery cell (2);

s2, a battery cell (2) in the inner port (10) passes through a cable ring (111) and presses a valve block (112) rightwards, in the process, a torsion spring (115) applies pressure to the turned valve block (112) to enable the end head of the valve block (112) to be in compression joint with the surface of the battery cell (2), the battery cell (2) is a rope structure formed by twisting a plurality of wires around a central wire, gaps between the central wire and the other wires are filled by filling belts, along with movement of the battery cell (2), the tip of the valve block (112) is gradually aligned with the gaps, the filling belts are pressed into the gaps, so that the gaps between the wires are compressed tightly by the filling belts, and when the battery cell (2) moves, the tip of the valve block (112) reversely pushes the cable ring (111) along the gaps to rotate, so that the valve block (112) can continuously compress the filling belts;

s3, in the process of wrapping after the filling belt on the surface of the battery cell (2) is compressed, the wrapping belt (1163) of the wrapping part is tightened on the upper side of the battery cell (2) through the first roller (1165) and the second roller (1166), downward pressure is applied to the battery cell (2), so that the force of the upward pulling of the battery cell (2) by the wrapping belt (1163) is counteracted, and the influence of the upward bending of the battery cell (2) on wrapping compactness is avoided;

s4, under the condition that wrapping tape (1163) breaks in the wrapping process, the support (1164) loses the constraint of wrapping tape (1163), the springs (11683) in the sliding grooves (11681) push the sliding seat (11682) and the support (1164) to move, the three supports (1164) are far away from each other, the plastic clamp (11684) on the support (1164) is limited by the C-shaped clamp (11685) to collapse, and at the moment, the C-shaped clamp (11685) loses the constraint of the three plastic clamps (11684) to shrink inwards, and the clamp locks compact the wrapping tape (1163) on the battery cell (2).