CN116826618A - Computer connecting wire end peeling processing production line and application method - Google Patents

Abstract

The utility model belongs to the technical field of connecting wire peeling, in particular to a computer connecting wire end peeling processing production line and a using method thereof, aiming at the problems that in the prior art, the broken part of an insulating layer is not smooth enough, the cost is high due to the use of more equipment, and the broken phenomenon easily occurs in a circuit extending to the outside, the utility model provides the following scheme that: the workbench is characterized in that a fixing plate is fixedly connected to the top of the workbench, a vertical plate is arranged on one side of the top of the workbench, two telescopic rods are arranged above the workbench, and a through hole is formed in the workbench; the clamping structure is arranged in the vertical plate and used for clamping the connecting wire and driving the connecting wire to rotate, in the utility model, cutting and peeling of the end part of the connecting wire can be rapidly completed, the flatness and the attractiveness of the end part after cutting can be ensured in the cutting and peeling process, and the exposed inner wire can be wrapped with an external insulating layer after cutting is finished, so that the inner wire is prevented from being broken under the action of the insulating layer.

Description

Computer connecting wire end peeling processing production line and application method

Technical Field

The utility model relates to the technical field of connecting wire peeling, in particular to a computer connecting wire end peeling processing production line and a using method thereof.

Background

Wiring plays an important role in electronic products, wherein the most widely used computer is provided with a plurality of connecting wires for transmitting data, and power wires for transmitting electric energy are connected to the connectors with different functions to form a complete data transmission unit; when producing these connection lines by means of a production line, it is necessary to peel the connection lines and then to weld them in the opened terminals, resulting in connection lines with terminals.

The utility model of bulletin number CN216699055U, for example, discloses a connecting wire end peeling device, comprising a frame and a conveying belt arranged at the top of the frame, wherein a placing block for placing a connecting wire is arranged on the conveying belt, a clamping device is arranged at the top of the frame, the clamping device comprises a bracket, a mounting plate and a first air cylinder arranged at the top of the bracket, the bracket is fixed at the top of the frame, the first air cylinder penetrates through the bracket to be connected with the mounting plate, two clamping blocks and an upper heating block are connected at the bottom of the mounting plate, a second air cylinder is arranged at the bottom of the frame, and the output end of the second air cylinder penetrates through the frame to be connected with a lower heating block matched with the upper heating block; the top of the frame is provided with a peeling device; the insulating layer of connecting wire is heated through last heating block and lower heating block, makes the insulating layer of connecting wire soften the back, and rethread peeling device peels the connecting wire, has avoided the cutter to produce the damage to the wire easily at peeling in-process, cuts off the problem of wire even.

However, there are still some disadvantages in the above-mentioned techniques:

1. the connecting wire is heated through the heating plate, then the pneumatic clamping jaw and the air cylinder are used for peeling, and the insulation layer at the end part of the connecting wire is directly torn through the pneumatic clamping jaw, so that the broken part of the insulation layer is not smooth enough, the attractiveness is affected, and the connection of a later-stage circuit is affected when the broken concave-convex position is serious;

2. according to the technical scheme, the peeling work is completed through the mutual matching of the heating blocks, the cylinders and the conveyor belt, the equipment is more used, and the cost of the peeling processing production line for the end part of the connecting wire is higher;

3. after the end part peeling is completed, the internal circuit cannot be protected, and then the circuit extending to the outside in the later stage is rubbed with the insulating end part, so that the internal circuit is broken.

Aiming at the problems, the utility model provides a computer connecting wire end peeling processing production line and a using method thereof.

Disclosure of Invention

The utility model provides a computer connecting wire end peeling processing production line and a using method thereof, which solve the defects that in the prior art, the broken part of an insulating layer is not smooth enough, the cost is high due to more using equipment, and a line extending to the outside is easy to break.

The utility model provides the following technical scheme:

a computerized connecting wire end peeling production line, comprising: the workbench is characterized in that a fixing plate is fixedly connected to the top of the workbench, a vertical plate is arranged on one side of the top of the workbench, two telescopic rods are arranged above the workbench, and a through hole is formed in the workbench;

the clamping structure is arranged in the vertical plate and used for clamping the connecting wire and driving the connecting wire to rotate, so that the connecting wire can be peeled in the later period;

the cutting structure is arranged in the fixed plate and used for peeling the end part of the connecting wire penetrating through the fixed plate, and the clamping structure can drive the cutting structure;

the package structure sets up in the fixed plate for protect the connecting wire internal wire after peeling, and cutting structure can wrap up the structure with the drive.

In one possible design, the clamping structure comprises a first rotating shaft and a second rotating shaft which rotate to penetrate through a vertical plate, one ends of the first rotating shaft and the second rotating shaft, which are close to a fixed plate, are respectively and fixedly connected with a placing disc and a first gear, a circular ring is sleeved on the outer wall of the placing disc in a sliding manner, a toothed ring meshed with the first gear is sleeved on the outer wall of the circular ring, a fourth gear and a second gear are respectively and fixedly connected with the other ends of the first rotating shaft and the second rotating shaft, one side of the vertical plate, which is far away from the fixed plate, is rotationally connected with a plurality of third gears, two adjacent third gears are meshed with each other, one sides of the second gears, which are close to the fourth gears, are respectively meshed with the corresponding third gears, and one sides of the circular ring, which are close to the fixed plate, are fixedly connected with two telescopic rods; the fourth gear drives and places dish and connecting wire clockwise rotation, and the fourth gear drives the ring anticlockwise rotation through the transmission of a plurality of third gears and second gear, and the ring drives the slider through the telescopic link and anticlockwise rotates along the orbit of first ring channel and recess, and then can drive the cutting structure and cut the peeling to the connecting wire fast.

In one possible design, the cutting structure comprises a first annular groove arranged on one side of a fixed plate, which is close to a vertical plate, two grooves communicated with the first annular groove are formed in one side of the fixed plate, two sliding blocks are arranged on one side of the fixed plate, two iron arc-shaped sliding blocks extending into the first annular groove are fixedly connected to one side of the sliding blocks, the iron arc-shaped sliding blocks are in sliding fit with the first annular groove, sliding rods are respectively penetrated in the two sliding blocks in a sliding manner, cutting knives for cutting connecting wire insulation layers are respectively and rotatably connected to one ends, which are close to each other, of the two sliding rods, a plurality of guide rods are fixedly connected to one side of each cutting knife, the guide rods are slidingly extended into the sliding rods, a plurality of tension springs are fixedly connected to one side, which is far away from the cutting knives, of the other ends of the tension springs are fixedly connected with the outer wall of the sliding rods, one side, which is close to the fixed plate, of the sliding blocks is provided with sliding grooves, iron sliding pins penetrating through the sliding grooves are fixedly connected to one side of the sliding blocks, the iron sliding pins are matched with the grooves and the first annular grooves, and the output ends of the sliding rods are fixedly connected with the sliding blocks; the ring drives the sliding block to rotate through the telescopic link, and the cooperation of iron sliding pin and recess drives the sliding rod and the cutting knife slides to the intermediate position, and then can insert the insulating layer of connecting wire with the cutting knife, and when the telescopic link drives the sliding block anticlockwise rotation, the connecting wire clockwise rotation, and both mutually support, and the sliding block rotates the round, can cut connecting wire insulating layer a week through the cutting knife, and the screw rod can control the distance of cutting knife cutting simultaneously, makes the cutting knife cut suitable degree of depth.

In one possible design, the wrapping structure comprises a second annular groove arranged on one side of the fixing plate, which is far away from the vertical plate, wherein a cylindrical block is slidably connected in the second annular groove, one end of the cylindrical block is fixedly connected with a storage box, a rotating roller is rotatably connected in the storage box, a heat shrinkage belt for protecting the end part of the connecting wire is sleeved on the outer wall of the rotating roller, and one end of the cylindrical block, which is far away from the storage box, is fixedly connected with a magnet; the magnet produces magnetic attraction to iron slide pin and iron arc slider, and the slider drives the orbit rotation of storage box along the second ring channel, and the pyrocondensation area can wrap up insulating layer tip and connecting wire internal wire, later can closely wrap up connecting wire tip and internal wire through heating the pyrocondensation area, and then protects internal wire, avoids internal wire to appear splitting.

In one possible design, a trapezoidal pin rod is slidably penetrated in the fixed plate, a right-angle triangular block is fixedly connected to one side of the trapezoidal pin rod, which is close to the storage box, a yielding groove for yielding the right-angle triangular block is formed in the fixed plate, a limiting pin rod extending into the yielding groove is slidably connected in the fixed plate, the limiting pin rod is matched with the right-angle triangular block, a pin groove is formed in one side of the storage box, which is close to the fixed plate, and an iron sliding pin is clamped with the pin groove; when the connecting wire runs through the fixed plate, the insulating outer layer of the connecting wire pushes the trapezoidal pin rod to move upwards, the right-angle triangular block and the limit pin rod are matched to brake the storage box, the storage box is prevented from rotating under the action of the sliding block, after the trapezoidal pin rod loses the blocking of the insulating layer of the connecting wire, the limit pin rod releases the braking of the storage box, and the later-stage sliding block is convenient to drive the storage box to rotate so as to protect the internal lead of the connecting wire.

In one possible design, the number of third gears is singular; and then the second gear is opposite with the rotation direction of fourth gear under the transmission effect of a plurality of third gears, and later stage cutting knife is opposite with the connecting wire rotation direction when, the cutting of later stage connecting wire tip insulating layer of being convenient for.

In one possible design, the side of the placing tray, which is close to the fixing plate, is provided with a placing groove, and a plurality of mechanical clamping jaws for clamping the outer wall of the connecting wire are arranged in the placing groove.

In one possible design, the end of the limiting pin rod, which is far away from the storage box, is provided with an inclined plane; the limiting pin rod can be matched with the inclined plane of the right-angle triangular block through the inclined plane.

In one possible design, two circular grooves are formed in one side, close to the vertical plate, of the fixing plate, a heat conducting plate in contact with the cutting knife is fixedly connected in the circular grooves, and a heating plate in the circular grooves is fixedly connected to one side of the heat conducting plate; starting the heating plate, heating the cutting knife through the cooperation of heating plate and heat-conducting plate, and then the cutting knife can be more smooth and easy to insulating layer cutting, can adjust the distance of connecting wire tip cutting through the interval of control riser and fixed plate moreover. .

The application method of the computer connecting wire end peeling processing production line comprises the following steps:

s1, extending a connecting wire into a placing groove through a fixing plate, and clamping one end of the connecting wire through a placing disc;

s2, driving a fourth gear to rotate, driving a connecting wire to rotate clockwise by the fourth gear, driving a sliding block to rotate anticlockwise by a circular ring through a telescopic rod, and cutting one circle of the insulating layer of the connecting wire through a cutting knife by mutually matching the fourth gear and the sliding block;

s3, the screw is rotated to drive the cutting knife to move, the cutting thickness of the cutting knife can be adjusted according to the thickness of the insulating layers of different connecting lines, and the cutting knife is prevented from damaging wires inside the connecting lines;

s4, pulling the connecting wire out of the environment, releasing the pushing of the limiting pin rod by the right-angle triangular block, driving the storage box to rotate for a plurality of circles by the sliding block, wrapping the end part of the insulating layer and the inner wire of the connecting wire, protecting the inner wire, and avoiding the breakage of the inner wire;

s5, when the cutting knife cuts, the cutting knife can cut the insulating layer more smoothly through the cooperation of the heating plate and the heat conducting plate.

It is to be understood that both the foregoing general description and the following detailed description are exemplary and explanatory only and are not restrictive of the utility model as claimed.

According to the utility model, two grooves communicated with a first annular groove are formed in one side of the fixed plate, two sliding blocks are arranged on one side of the fixed plate, two iron arc-shaped sliding blocks which are in sliding connection with the first annular groove are fixedly connected to one side of each sliding block, a sliding rod penetrates through the sliding blocks in a sliding manner, a cutting knife is rotatably connected to one end of each sliding rod, an iron sliding pin is fixedly connected to one side of each sliding rod, and the iron sliding pins are matched with the grooves and the first annular groove; the sliding block rotates, the iron sliding pin drives the cutting knife to slide towards the middle position and is inserted into the insulating layer, the sliding block and the connecting wire rotate in opposite directions, the insulating layer of the connecting wire can be cut by the cutting knife for one circle, the cutting is smooth, the appearance is attractive, and the connection of the connecting wire at the later stage is convenient;

in the utility model, a cylindrical block is slidably connected in the second annular groove, one end of the cylindrical block is fixedly connected with a storage box, a rotating roller is rotatably connected in the storage box, a heat shrinkage belt for protecting the end part of a connecting wire is sleeved on the outer wall of the rotating roller, and one end, far away from the storage box, of the cylindrical block is fixedly connected with a magnet; the magnet generates magnetic attraction to the iron sliding pin and the iron arc-shaped sliding block, the sliding block drives the storage box to rotate along the track of the second annular groove, the thermal shrinkage belt can wrap the end part of the insulating layer and the inner wire of the connecting wire, and then the end part of the connecting wire and the inner wire can be tightly wrapped through heating the thermal shrinkage belt, so that the inner wire is protected, and breakage of the inner wire is avoided;

in the utility model, a circular ring is sleeved on the outer wall of the placing disc in a sliding way, a toothed ring meshed with a first gear is fixedly sleeved on the outer wall of the circular ring, a fourth gear and a second gear are fixedly connected to the other ends of the first rotating shaft and the second rotating shaft respectively, a plurality of third gears are rotatably connected to one side of the vertical plate far away from the fixed plate, and one side of the circular ring close to the fixed plate is fixedly connected with two telescopic rods; the fourth gear drives the placing disc and the connecting wire to rotate clockwise, the fourth gear drives the circular ring to rotate anticlockwise through the transmission of the third gears and the second gears, and the circular ring drives the sliding block to rotate anticlockwise along the track of the first annular groove and the groove through the telescopic rod, so that the cutting structure can be driven to rapidly cut and peel the connecting wire;

in the utility model, one side of the circular ring is fixedly connected with two telescopic rods, the output shaft ends of the telescopic rods are fixedly connected with sliding blocks, and one end of each cylindrical block is fixedly connected with a magnet which is used for carrying out magnetic attraction on an iron arc-shaped sliding block and an iron sliding pin at the moment; after the ring drives the sliding block to rotate to cut the insulating layer of the connecting wire through the telescopic rod, the storage box can be driven to rotate through the magnetic attraction force between the iron arc-shaped sliding block, the iron sliding pin and the magnet, and the storage box is used for driving the wrapping structure to protect the internal lead, so that the peeling task can be completed without using too much driving electric appliances, and the processing cost is reduced.

According to the utility model, the cutting and peeling of the end part of the connecting wire can be completed rapidly, the flatness and the attractiveness of the end part after cutting can be ensured in the cutting and peeling process, the exposed inner wire and the outer insulating layer can be wrapped after cutting is finished, the inner wire is prevented from being broken under the action of the insulating layer, in addition, the peeling of the end part of the connecting wire can be completed by only using one motor in the whole operation of peeling the end part of the connecting wire, and the processing cost is reduced.

Drawings

Fig. 1 is a schematic three-dimensional structure diagram of a first view angle of a computer connecting wire end peeling processing line according to an embodiment of the present utility model;

FIG. 2 is a schematic three-dimensional view of a computer connecting wire end peeling line according to a second view angle of the present utility model;

FIG. 3 is a schematic view of a three-dimensional cross-sectional structure of a computer connecting wire end peeling processing line according to an embodiment of the present utility model;

FIG. 4 is a schematic view of a three-dimensional cross-sectional structure of a portion of a fixing plate of a computer connecting wire end peeling processing line according to an embodiment of the present utility model;

FIG. 5 is a schematic view of a three-dimensional explosion structure of a fixed plate and a sliding block of a computer connecting wire end peeling processing line according to an embodiment of the present utility model;

FIG. 6 is a schematic three-dimensional diagram of a slider of a computer connecting wire end peeling line according to an embodiment of the present utility model;

FIG. 7 is a schematic view of a three-dimensional cross-sectional structure of a slider of a computerized connecting wire end peeling line according to an embodiment of the present utility model;

FIG. 8 is a schematic view of a three-dimensional sectional explosion structure of a riser and a ring of a computerized connecting wire end peeling processing line according to an embodiment of the present utility model;

FIG. 9 is a schematic diagram of a three-dimensional sectional exploded view of a storage box of a computerized connecting wire end peeling processing line according to an embodiment of the utility model;

FIG. 10 is a schematic side sectional view of a fixing plate of a computer connecting wire end peeling production line according to a second embodiment of the present utility model;

fig. 11 is an enlarged schematic view of a computer connecting wire end peeling line according to a second embodiment of the present utility model.

Reference numerals:

1. a work table; 2. a riser; 3. a fixing plate; 4. a first rotating shaft; 5. placing a tray; 6. a placement groove; 7. mechanical clamping jaws; 8. a circular ring; 9. a toothed ring; 10. a second rotating shaft; 11. a first gear; 12. a second gear; 13. a third gear; 14. a fourth gear; 15. a first annular groove; 16. a groove; 17. a sliding block; 18. a telescopic rod; 19. an iron arc-shaped sliding block; 20. a slide bar; 21. a tension spring; 22. a screw; 23. a cutting knife; 24. a guide rod; 25. a chute; 26. an iron sliding pin; 27. a second annular groove; 28. a storage box; 29. a cylindrical block; 30. a magnet; 31. a rotating roller; 32. a heat shrinkage belt; 33. a trapezoidal pin; 34. right angle triangular blocks; 35. a relief groove; 36. a limiting pin rod; 37. a pin slot; 38. an inclined plane; 39. a through hole; 40. a circular groove; 41. a heat conductive plate; 42. and heating the sheet.

Detailed Description

Embodiments of the present utility model will be described below with reference to the accompanying drawings in the embodiments of the present utility model.

In describing embodiments of the present utility model, it should be noted that, unless explicitly stated and limited otherwise, the terms "coupled" and "mounted" should be interpreted broadly, and for example, "coupled" may or may not be detachably coupled; may be directly connected or indirectly connected through an intermediate medium. In addition, "communication" may be direct communication or may be indirect communication through an intermediary. Wherein, "fixed" means that the relative positional relationship is not changed after being connected to each other. References to orientation terms, such as "inner", "outer", "top", "bottom", etc., in the embodiments of the present utility model are merely to refer to the orientation of the drawings and, therefore, the use of orientation terms is intended to better and more clearly illustrate and understand the embodiments of the present utility model, rather than to indicate or imply that the devices or elements referred to must have a particular orientation, be constructed and operated in a particular orientation, and are therefore not to be construed as limiting the embodiments of the present utility model.

In embodiments of the present utility model, the terms "first," "second," and the like are used for descriptive purposes only and are not to be construed as indicating or implying relative importance or implicitly indicating the number of technical features indicated. Thus, a feature defining "a first" or "a second" may explicitly or implicitly include one or more such feature.

In the embodiment of the present utility model, "and/or" is merely an association relationship describing an association object, and indicates that three relationships may exist, for example, a and/or B may indicate: a exists alone, A and B exist together, and B exists alone. In addition, the character "/" herein generally indicates that the front and rear associated objects are an "or" relationship.

Reference in the specification to "one embodiment" or "some embodiments" or the like means that a particular feature, structure, or characteristic described in connection with the embodiment is included in one or more embodiments of the utility model. Thus, appearances of the phrases "in one embodiment," "in some embodiments," "in other embodiments," and the like in the specification are not necessarily all referring to the same embodiment, but mean "one or more but not all embodiments" unless expressly specified otherwise. The terms "comprising," "including," "having," and variations thereof mean "including but not limited to," unless expressly specified otherwise.

Example 1

Referring to fig. 1, 2 and 3, a computer connecting wire end peeling processing line of the present embodiment includes: the workbench 1, the top of the workbench 1 is fixedly connected with a fixed plate 3 through bolts, one side of the top of the workbench 1 is provided with a vertical plate 2, two telescopic rods 18 are arranged above the workbench 1, and a through hole 39 is formed in the workbench 1; the clamping structure is arranged in the vertical plate 2 and is used for clamping the connecting wire and driving the connecting wire to rotate so as to facilitate peeling of the connecting wire in the later period; the cutting structure is arranged in the fixed plate 3 and used for peeling the end part of the connecting wire penetrating through the fixed plate 3, and the clamping structure can drive the cutting structure; the package structure is arranged in the fixing plate 3 and used for protecting the connecting wire internal lead after peeling, and the cutting structure can be used for driving the package structure.

Referring to fig. 8, the clamping structure comprises a first rotating shaft 4 and a second rotating shaft 10 which rotate to penetrate through a vertical plate 2, one ends of the first rotating shaft 4 and the second rotating shaft 10, which are close to a fixed plate 3, are fixedly connected with a placing disc 5 and a first gear 11 through bolts respectively, an outer wall sliding sleeve of the placing disc 5 is provided with a circular ring 8, an outer wall fixing sleeve of the circular ring 8 is provided with a toothed ring 9 meshed with the first gear 11, the other ends of the first rotating shaft 4 and the second rotating shaft 10 are fixedly connected with a fourth gear 14 and a second gear 12 through bolts respectively, one sides of the vertical plate 2, which are far away from the fixed plate 3, are rotatably connected with a plurality of third gears 13, two adjacent third gears 13 are meshed with each other, one sides of the second gears 12, which are close to each other, of the fourth gears 14 are meshed with the corresponding third gears 13 respectively, and one sides of the circular ring 8, which are close to the fixed plate 3, are fixedly connected with two telescopic rods 18; the fourth gear 14 drives the placing plate 5 and the connecting line to rotate clockwise, the fourth gear 14 drives the circular ring 8 to rotate anticlockwise through the transmission of the third gears 13 and the second gears 12, the circular ring 8 drives the sliding block 17 to rotate anticlockwise along the track of the first annular groove 15 and the groove 16 through the telescopic rod 18, and then the cutting structure can be driven to rapidly cut and peel the connecting line.

Referring to fig. 5, 6 and 7, the cutting structure comprises a first annular groove 15 arranged on one side of a fixed plate 3 close to a vertical plate 2, two grooves 16 communicated with the first annular groove 15 are formed in one side of the fixed plate 3, two sliding blocks 17 are arranged on one side of the fixed plate 3, two iron arc-shaped sliding blocks 19 extending into the first annular groove 15 are fixedly connected to one side of the sliding blocks 17 through bolts, the iron arc-shaped sliding blocks 19 are in sliding fit with the first annular groove 15, sliding rods 20 are respectively penetrated in the two sliding blocks 17 in a sliding manner, cutting knives 23 used for cutting connecting wire insulation layers are respectively connected to one ends of the two sliding rods 20, one side of each cutting knife 23 is fixedly connected with a plurality of guide rods 24 through bolts, the guide rods 24 slide and extend into the sliding rods 20, a plurality of tension springs 21 are fixedly connected to one side of the sliding blocks 17 far from the cutting knives 23, the other ends of the tension springs 21 are fixedly connected with the outer walls of the sliding rods 20, sliding grooves 25 are formed in one side of the sliding blocks 17 close to the fixed plate 3, one side of the sliding rods 20 is fixedly connected with iron sliding pins 26 penetrating through bolts and penetrating through the sliding grooves 25, one side of the sliding pins 26 is fixedly connected with the sliding pins 26, and the sliding pins 16 are matched with the first annular groove 18, and the sliding ends of the sliding rods 18 are fixedly connected with the telescopic output ends of the sliding rods 18; the ring 8 drives the sliding block 17 to rotate through the telescopic rod 18, the iron sliding pin 26 and the groove 16 are matched to drive the sliding rod 20 and the cutting knife 23 to slide to the middle position, then the cutting knife 23 can be inserted into the insulating layer of the connecting line, when the telescopic rod 18 drives the sliding block 17 to rotate anticlockwise, the connecting line rotates clockwise, the sliding block 17 rotates for one circle to enable the cutting knife 23 to cut the insulating layer of the connecting line for one circle, meanwhile, the screw 22 can control the cutting distance of the cutting knife 23, and the cutting knife 23 is enabled to cut to a proper depth.

Referring to fig. 3, 4 and 9, the wrapping structure includes a second annular groove 27 disposed at a side of the fixing plate 3 far from the riser 2, a cylindrical block 29 is slidably connected in the second annular groove 27, one end of the cylindrical block 29 is fixedly connected with a storage box 28 through a bolt, a rotating roller 31 is rotatably connected in the storage box 28, a heat shrinkage belt 32 for protecting an end of a connecting wire is sleeved on an outer wall of the rotating roller 31, and one end of the cylindrical block 29 far from the storage box 28 is fixedly connected with a magnet 30 through a bolt; magnet 30 produces magnetic attraction to iron slide pin 26 and iron arc slider 19, and the slider 17 drives the orbit rotation of storage box 28 along second ring channel 27, and insulating layer tip and connecting wire inner wire can be wrapped up to pyrocondensation area 32, later can closely wrap up connecting wire tip and inner wire through heating pyrocondensation area 32, and then protects the inner wire, avoids the inner wire to appear splitting.

Referring to fig. 4 and 9, a trapezoidal pin rod 33 is slidably inserted through the fixed plate 3, a right-angle triangular block 34 is fixedly connected to one side of the trapezoidal pin rod 33, which is close to the storage box 28, through a bolt, a yielding groove 35 for yielding the right-angle triangular block 34 is formed in the fixed plate 3, a limiting pin rod 36 extending into the yielding groove 35 is slidably connected to the fixed plate 3, the limiting pin rod 36 is matched with the right-angle triangular block 34, a pin groove 37 is formed in one side of the storage box 28, which is close to the fixed plate 3, and an iron sliding pin 26 is clamped with the pin groove 37; when the connecting wire penetrates through the fixing plate 3, the insulating outer layer of the connecting wire pushes the trapezoid pin rod 33 to move upwards, the right-angle triangular block 34 and the limiting pin rod 36 are matched to brake the storage box 28, the storage box 28 is prevented from rotating under the action of the sliding block 17, after the trapezoid pin rod 33 loses the blocking of the insulating layer of the connecting wire, the limiting pin rod 36 releases the braking of the storage box 28, the sliding block 17 drives the storage box 28 to rotate in the later period, and the internal lead of the connecting wire is protected.

Referring to fig. 8, the number of third gears 13 is singular; and then the second gear 12 is opposite to the rotation direction of the fourth gear 14 under the transmission action of the third gears 13, and the rotation direction of the later-stage cutter 23 is opposite to the rotation direction of the connecting wire, so that the insulating layer at the end part of the later-stage connecting wire can be conveniently cut.

Referring to fig. 8, a placement groove 6 is formed in one side of the placement plate 5, which is close to the fixing plate 3, and a plurality of mechanical clamping jaws 7 for clamping the outer wall of the connecting wire are arranged in the placement groove 6.

Referring to fig. 9, the end of the stop pin bar 36 remote from the bin 28 is provided with a ramp 38; the stop pin bar 36 can be mated with the inclined surface 38 of the right angle triangular block 34 by the inclined surface 38.

Example 2

Referring to fig. 1, 2 and 3, a computer connecting wire end peeling processing line of the present embodiment includes: the workbench 1, the top of the workbench 1 is fixedly connected with a fixed plate 3 through bolts, one side of the top of the workbench 1 is provided with a vertical plate 2, two telescopic rods 18 are arranged above the workbench 1, and a through hole 39 is formed in the workbench 1; the clamping structure is arranged in the vertical plate 2 and is used for clamping the connecting wire and driving the connecting wire to rotate so as to facilitate peeling of the connecting wire in the later period; the cutting structure is arranged in the fixed plate 3 and used for peeling the end part of the connecting wire penetrating through the fixed plate 3, and the clamping structure can drive the cutting structure; the package structure is arranged in the fixing plate 3 and used for protecting the connecting wire internal lead after peeling, and the cutting structure can be used for driving the package structure.

Referring to fig. 8, the clamping structure comprises a first rotating shaft 4 and a second rotating shaft 10 which rotate to penetrate through a vertical plate 2, one ends of the first rotating shaft 4 and the second rotating shaft 10, which are close to a fixed plate 3, are fixedly connected with a placing disc 5 and a first gear 11 through bolts respectively, an outer wall sliding sleeve of the placing disc 5 is provided with a circular ring 8, an outer wall fixing sleeve of the circular ring 8 is provided with a toothed ring 9 meshed with the first gear 11, the other ends of the first rotating shaft 4 and the second rotating shaft 10 are fixedly connected with a fourth gear 14 and a second gear 12 through bolts respectively, one sides of the vertical plate 2, which are far away from the fixed plate 3, are rotatably connected with a plurality of third gears 13, two adjacent third gears 13 are meshed with each other, one sides of the second gears 12, which are close to each other, of the fourth gears 14 are meshed with the corresponding third gears 13 respectively, and one sides of the circular ring 8, which are close to the fixed plate 3, are fixedly connected with two telescopic rods 18; the fourth gear 14 drives the placing plate 5 and the connecting line to rotate clockwise, the fourth gear 14 drives the circular ring 8 to rotate anticlockwise through the transmission of the third gears 13 and the second gears 12, the circular ring 8 drives the sliding block 17 to rotate anticlockwise along the track of the first annular groove 15 and the groove 16 through the telescopic rod 18, and then the cutting structure can be driven to rapidly cut and peel the connecting line.

Referring to fig. 5, 6 and 7, the cutting structure comprises a first annular groove 15 arranged on one side of a fixed plate 3 close to a vertical plate 2, two grooves 16 communicated with the first annular groove 15 are formed in one side of the fixed plate 3, two sliding blocks 17 are arranged on one side of the fixed plate 3, two iron arc-shaped sliding blocks 19 extending into the first annular groove 15 are fixedly connected to one side of the sliding blocks 17 through bolts, the iron arc-shaped sliding blocks 19 are in sliding fit with the first annular groove 15, sliding rods 20 are respectively penetrated in the two sliding blocks 17 in a sliding manner, cutting knives 23 used for cutting connecting wire insulation layers are respectively connected to one ends of the two sliding rods 20, one side of each cutting knife 23 is fixedly connected with a plurality of guide rods 24 through bolts, the guide rods 24 slide and extend into the sliding rods 20, a plurality of tension springs 21 are fixedly connected to one side of the sliding blocks 17 far from the cutting knives 23, the other ends of the tension springs 21 are fixedly connected with the outer walls of the sliding rods 20, sliding grooves 25 are formed in one side of the sliding blocks 17 close to the fixed plate 3, one side of the sliding rods 20 is fixedly connected with iron sliding pins 26 penetrating through bolts and penetrating through the sliding grooves 25, one side of the sliding pins 26 is fixedly connected with the sliding pins 26, and the sliding pins 16 are matched with the first annular groove 18, and the sliding ends of the sliding rods 18 are fixedly connected with the telescopic output ends of the sliding rods 18; the ring 8 drives the sliding block 17 to rotate through the telescopic rod 18, the iron sliding pin 26 and the groove 16 are matched to drive the sliding rod 20 and the cutting knife 23 to slide to the middle position, then the cutting knife 23 can be inserted into the insulating layer of the connecting line, when the telescopic rod 18 drives the sliding block 17 to rotate anticlockwise, the connecting line rotates clockwise, the sliding block 17 rotates for one circle to enable the cutting knife 23 to cut the insulating layer of the connecting line for one circle, meanwhile, the screw 22 can control the cutting distance of the cutting knife 23, and the cutting knife 23 is enabled to cut to a proper depth.

Referring to fig. 3, 4 and 9, the wrapping structure includes a second annular groove 27 disposed at a side of the fixing plate 3 far from the riser 2, a cylindrical block 29 is slidably connected in the second annular groove 27, one end of the cylindrical block 29 is fixedly connected with a storage box 28 through a bolt, a rotating roller 31 is rotatably connected in the storage box 28, a heat shrinkage belt 32 for protecting an end of a connecting wire is sleeved on an outer wall of the rotating roller 31, and one end of the cylindrical block 29 far from the storage box 28 is fixedly connected with a magnet 30 through a bolt; magnet 30 produces magnetic attraction to iron slide pin 26 and iron arc slider 19, and the slider 17 drives the orbit rotation of storage box 28 along second ring channel 27, and insulating layer tip and connecting wire inner wire can be wrapped up to pyrocondensation area 32, later can closely wrap up connecting wire tip and inner wire through heating pyrocondensation area 32, and then protects the inner wire, avoids the inner wire to appear splitting.

Referring to fig. 4 and 9, a trapezoidal pin rod 33 is slidably inserted through the fixed plate 3, a right-angle triangular block 34 is fixedly connected to one side of the trapezoidal pin rod 33, which is close to the storage box 28, through a bolt, a yielding groove 35 for yielding the right-angle triangular block 34 is formed in the fixed plate 3, a limiting pin rod 36 extending into the yielding groove 35 is slidably connected to the fixed plate 3, the limiting pin rod 36 is matched with the right-angle triangular block 34, a pin groove 37 is formed in one side of the storage box 28, which is close to the fixed plate 3, and an iron sliding pin 26 is clamped with the pin groove 37; when the connecting wire penetrates through the fixing plate 3, the insulating outer layer of the connecting wire pushes the trapezoid pin rod 33 to move upwards, the right-angle triangular block 34 and the limiting pin rod 36 are matched to brake the storage box 28, the storage box 28 is prevented from rotating under the action of the sliding block 17, after the trapezoid pin rod 33 loses the blocking of the insulating layer of the connecting wire, the limiting pin rod 36 releases the braking of the storage box 28, the sliding block 17 drives the storage box 28 to rotate in the later period, and the internal lead of the connecting wire is protected.

Referring to fig. 8, the number of third gears 13 is singular; and then the second gear 12 is opposite to the rotation direction of the fourth gear 14 under the transmission action of the third gears 13, and the rotation direction of the later-stage cutter 23 is opposite to the rotation direction of the connecting wire, so that the insulating layer at the end part of the later-stage connecting wire can be conveniently cut.

Referring to fig. 8, a placement groove 6 is formed in one side of the placement plate 5, which is close to the fixing plate 3, and a plurality of mechanical clamping jaws 7 for clamping the outer wall of the connecting wire are arranged in the placement groove 6.

Referring to fig. 9, the end of the stop pin bar 36 remote from the bin 28 is provided with a ramp 38; the stop pin bar 36 can be mated with the inclined surface 38 of the right angle triangular block 34 by the inclined surface 38.

Referring to fig. 4, two circular grooves 40 are formed in one side of the fixing plate 3, which is close to the vertical plate 2, a heat conducting plate 41 which is in contact with the cutting knife 23 is fixedly connected in the circular grooves 40 through bolts, and a heating plate 42 which is positioned in the circular grooves 40 is fixedly connected to one side of the heat conducting plate 41 through bolts; the heating plate 42 is started, the heating plate 42 heats the cutting knife 23 through the matching of the heating plate 42 and the heat conducting plate 41, the cutting knife 23 can cut the insulating layer more smoothly, and the distance of cutting the end part of the connecting line can be adjusted by controlling the distance between the vertical plate 2 and the fixed plate 3.

The application method of the computer connecting wire end peeling production line comprises the following steps:

s1, a connecting wire penetrates through a fixed plate 3 and extends into a placing groove 6, one end of the connecting wire is clamped through a placing disc 5, in addition, when the connecting wire penetrates through the fixed plate 3, an insulating outer layer of the connecting wire pushes a trapezoid pin rod 33 to move upwards, and a right-angle triangular block 34 and a limiting pin rod 36 are matched to brake a storage box 28;

s2, driving a fourth gear 14 to rotate through a motor, enabling the fourth gear 14 to drive a placing disc 5 and a connecting wire to rotate clockwise, enabling the fourth gear 14 to drive a circular ring 8 to rotate anticlockwise through transmission of a plurality of third gears 13 and second gears 12, enabling the circular ring 8 to drive a sliding block 17 to rotate anticlockwise along the track of a first annular groove 15 and a groove 16 through a telescopic rod 18, enabling an iron sliding pin 26 and the groove 16 to be matched to drive a sliding rod 20 and a cutting knife 23 to slide towards the middle position when the sliding block 17 rotates, further enabling the cutting knife 23 to be inserted into an insulating layer of the connecting wire, enabling the connecting wire to rotate clockwise when the telescopic rod 18 drives the sliding block 17 to rotate anticlockwise, enabling the connecting wire to rotate clockwise, enabling the sliding block 17 to rotate one circle, and enabling the cutting knife 23 to cut one circle of the insulating layer of the connecting wire;

s3, in addition, as the thickness of the insulating layers of the connecting lines is different, the cutting knife 23 is driven to move by the rotating screw 22, the cutting thickness of the cutting knife 23 can be adjusted according to the condition of different thicknesses of the insulating layers of the connecting lines, and the cutting knife 23 is prevented from damaging wires inside the connecting lines;

s4, after the end insulation layer of the connecting wire is cut, the connecting wire is pulled out to the outside, the cut insulation layer is clamped by the mechanical clamping jaw 7, when the connecting wire extends to the right side of the fixed plate 3, the trapezoidal pin rod 33 loses the pushing and falling of the insulation layer, the right-angle triangular block 34 releases the pushing of the limiting pin rod 36, the thermal shrinkage belt 32 is attached to the end of the insulation layer of the connecting wire, the sliding block 17 continues to rotate at the moment, the magnet 30 generates magnetic attraction force on the iron sliding pin 26 and the iron arc-shaped sliding block 19, the sliding block 17 drives the storage box 28 to rotate for a plurality of circles along the track of the second annular groove 27, the thermal shrinkage belt 32 can wrap the end of the insulation layer and the inner lead of the connecting wire, and then the end of the connecting wire and the inner lead can be tightly wrapped through heating the thermal shrinkage belt 32, so that the inner lead is protected from being broken;

s5, after the connecting wire is taken out, the clamping of the mechanical clamping jaw 7 is released, the cut insulating layer falls down through the through hole 39 to be collected, in addition, when the cutting knife 23 is used for cutting, the heating plate 42 and the heat conducting plate 41 are matched to heat the cutting knife 23, the cutting knife 23 can cut the insulating layer more smoothly, and the distance of cutting of the end part of the connecting wire can be adjusted by controlling the distance between the vertical plate 2 and the fixed plate 3.

However, as is well known to those skilled in the art, the working principle and wiring method of the heating plate 42 are well known, and all of them are conventional or common in the art, and will not be described herein in detail, and any choice may be made by those skilled in the art according to their needs or convenience.

The present utility model is not limited to the above embodiments, and any person skilled in the art can easily think about the changes or substitutions within the technical scope of the present utility model, and the changes or substitutions are intended to be covered by the scope of the present utility model; embodiments of the utility model and features of the embodiments may be combined with each other without conflict. Therefore, the protection scope of the utility model is subject to the protection scope of the claims.

Claims (10)

1. A computer connecting wire tip peeling process line, which is characterized by comprising:

the workbench (1), the top of the workbench (1) is fixedly connected with a fixed plate (3), one side of the top of the workbench (1) is provided with a vertical plate (2), two telescopic rods (18) are arranged above the workbench (1), and a through hole (39) is formed in the workbench (1);

the clamping structure is arranged in the vertical plate (2) and is used for clamping the connecting wire and driving the connecting wire to rotate so as to facilitate peeling of the connecting wire in the later period;

the cutting structure is arranged in the fixed plate (3) and used for peeling the end part of a connecting wire penetrating through the fixed plate (3), and the clamping structure can drive the cutting structure;

the package structure is arranged in the fixing plate (3) and used for protecting the connecting wire internal lead after peeling, and the cutting structure can be used for driving the package structure.

2. The computer connecting wire tip peeling processing production line according to claim 1, characterized in that, the clamping structure is including rotating first pivot (4) and second pivot (10) in running through riser (2), one end that first pivot (4) and second pivot (10) are close to fixed plate (3) is fixedly connected with respectively and is placed dish (5) and first gear (11), the outer wall slip cap of placing dish (5) is equipped with ring (8), the outer wall fixed cap of ring (8) is equipped with toothed ring (9) with first gear (11) engaged with, the other end of first pivot (4) and second pivot (10) is fixedly connected with fourth gear (14) and second gear (12) respectively, one side that riser (2) kept away from fixed plate (3) rotates and is connected with a plurality of third gears (13), and two adjacent third gears (13) intermesh, one side that second gear (12) and fourth gear (14) are close to each other respectively with corresponding third gear (13), two sides that are close to each other with ring (8) are close to fixed plate (18) and are connected with telescopic link (18).

3. The computer connecting wire end peeling production line according to claim 1, wherein the cutting structure comprises a first annular groove (15) arranged on one side of a fixed plate (3) close to a vertical plate (2), two grooves (16) communicated with the first annular groove (15) are arranged on one side of the fixed plate (3), two sliding blocks (17) are arranged on one side of the fixed plate (3), two iron arc-shaped sliding blocks (19) extending into the first annular groove (15) are fixedly connected to one side of the sliding blocks (17), the iron arc-shaped sliding blocks (19) are in sliding fit with the first annular groove (15), sliding rods (20) are respectively and slidably penetrated into the two sliding blocks (17), cutting knives (23) for cutting connecting wire insulation layers are respectively and rotatably connected to one ends of the two sliding rods (20) close to each other, a plurality of guide rods (24) are fixedly connected to one side of the cutting knives (23), the guide rods (24) are slidably extended into the sliding rods (20), one side of the sliding blocks (17) is fixedly connected with tension springs (21) which are far away from one side of the sliding blocks (23), the sliding blocks (21) are fixedly connected with the other side of the sliding blocks (21) close to the other side of the fixed sliding blocks (25), one side of the sliding rod (20) is fixedly connected with an iron sliding pin (26) penetrating through the sliding groove (25), the iron sliding pin (26) is matched with the groove (16) and the first annular groove (15), and the output end of the telescopic rod (18) is fixedly connected with the sliding block (17).

4. The computer connecting wire end peeling production line according to claim 1, wherein the wrapping structure comprises a second annular groove (27) arranged on one side, far away from the vertical plate (2), of the fixed plate (3), a cylindrical block (29) is connected in a sliding manner in the second annular groove (27), one end of the cylindrical block (29) is fixedly connected with a storage box (28), a rotating roller (31) is connected in the storage box (28) in a rotating manner, a heat-shrinkable belt (32) for protecting the connecting wire end is sleeved on the outer wall of the rotating roller (31), and one end, far away from the storage box (28), of the cylindrical block (29) is fixedly connected with a magnet (30).

5. The computer connecting wire end peeling processing production line according to claim 4, wherein a trapezoid pin rod (33) is penetrated in the fixed plate (3) in a sliding manner, a right-angle triangular block (34) is fixedly connected to one side, close to the storage box (28), of the trapezoid pin rod (33), a yielding groove (35) for yielding the right-angle triangular block (34) is formed in the fixed plate (3), a limiting pin rod (36) extending into the yielding groove (35) is connected in the fixed plate (3) in a sliding manner, the limiting pin rod (36) is matched with the right-angle triangular block (34), a pin groove (37) is formed in one side, close to the fixed plate (3), of the storage box (28), and an iron sliding pin (26) is clamped with the pin groove (37).

6. A computerized connecting wire end peeling line according to claim 2, characterized in that the number of the third gears (13) is singular.

7. A computerized connecting wire end peeling production line according to claim 2, characterized in that a placing groove (6) is arranged on one side of the placing disc (5) close to the fixed plate (3), and a plurality of mechanical clamping jaws (7) for clamping the outer wall of the connecting wire are arranged in the placing groove (6).

8. A computerized wire end peeling line according to claim 5, wherein the end of the stop pin (36) remote from the storage box (28) is provided with a bevel (38).

9. The computerized connecting wire end peeling production line according to claim 1, wherein two circular grooves (40) are formed in one side, close to the vertical plate (2), of the fixing plate (3), a heat conducting plate (41) in contact with the cutting knife (23) is fixedly connected in the circular grooves (40), and a heating plate (42) located in the circular grooves (40) is fixedly connected to one side of the heat conducting plate (41).

10. A method of using a computerized link line end skinning process line according to any one of claims 1 to 9, comprising the steps of:

s1, a connecting wire penetrates through a fixing plate (3) to extend into a placing groove (6), and one end of the connecting wire is clamped through a placing disc (5);

s2, driving a fourth gear (14) to rotate, driving a connecting wire to rotate clockwise by the fourth gear (14), driving a sliding block (17) to rotate anticlockwise by a circular ring (8) through a telescopic rod (18), and mutually matching the sliding block and the sliding block to cut one circle of the insulating layer of the connecting wire through a cutting knife (23);

s3, the screw (22) is rotated to drive the cutting knife (23) to move, the cutting thickness of the cutting knife (23) can be adjusted according to the thickness of insulating layers of different connecting wires, and the cutting knife (23) is prevented from damaging wires inside the connecting wires;

s4, pulling the connecting line out of the environment, pushing the limiting pin rod (36) by the right-angle triangular block (34) is removed, and the sliding block (17) drives the storage box (28) to rotate for a plurality of circles, so that the end part of the insulating layer and the inner wire of the connecting line are wrapped, the inner wire is protected, and the inner wire is prevented from being broken;

s5, when the cutting knife (23) performs cutting, the insulating layer can be cut more smoothly by the cutting knife (23) through the cooperation of the heating piece (42) and the heat conducting plate (41).