CN114640060B

CN114640060B - Full-automatic peeling device for production of connecting power lines

Info

Publication number: CN114640060B
Application number: CN202210274135.1A
Authority: CN
Inventors: 俞敏明
Original assignee: Wuxi Zhonghui Cable Co ltd
Current assignee: Wuxi Zhonghui Cable Co ltd
Priority date: 2022-03-20
Filing date: 2022-03-20
Publication date: 2023-02-03
Anticipated expiration: 2042-03-20
Also published as: CN114640060A

Abstract

A full-automatic peeling device for production of a connected power line comprises a supporting plate, wherein the upper part of the supporting plate is fixedly connected with a sliding table, one side of the sliding table is connected with an arc-shaped plate way, and one side of the arc-shaped plate way is provided with a containing groove; the utility model discloses a leather case, including the inclined board, the inclined board is used for the skin to be peeled, the supporting plate up end is connected with the backup pad, and the terminal surface is connected with pushing mechanism under this backup pad, and this leather case can be through the surface landing of the spigot surface landing of inclined board to the surface of slide ramp, and the surface direction of rethread slide ramp is advanced and is held the shell in, prevents that the leather case from dropping at will, prevents that the leather case from blocking in first cutting board and second cutting board department, and other end power cord is taken out the power cord of the completion of skinning by the light pulling of staff. The power cord peeling knife has the advantages that the power cord peeling can be prevented from falling at will, manual work is reduced, the amount of manual labor is reduced, the case is prevented from being clamped in the peeling knife, the pressure and abrasion of the peeling knife are avoided, the peeling effect is improved, and the peeling speed of core wires is improved.

Description

Full-automatic peeling device for production of connecting power lines

Technical Field

The invention relates to the technical field of power line processing, in particular to a full-automatic peeling device for production of a connecting power line.

Background

The power cord is used as a connecting wire to supply power for the electronic equipment, and the power cord mainly supplies power for the equipment and charges the battery. In the process of power line production, the power line needs to be peeled, and then a connecting port is installed, so that the power line is manufactured. In the peeling process during the manufacture of power cords, the peeling machine occupies an important position.

At present, the mechanical cutter is taken to heart yearn peeler that is used for the power cord among the prior art skins the heart yearn, very easily harm the heart yearn at the in-process of skinning, lead to heart yearn wearing and tearing break even, the electrical property of power cord has been influenced, and, the power cord skin can drop at will sometimes, need the manual work to come the arrangement, the amount of manual work has been increased, and the skin card can also appear in the skinning knife, can cause the skinning knife to increase pressure and wearing and tearing, and can not reach the effect of skinning, greatly reduced the speed of skinning of heart yearn, and power cord itself is crooked, it is inhomogeneous sometimes to skin the skinning knife, cause the power cord to fail to reach the effect of skinning completely, productivity reduction, waste rate has been increased.

In order to solve the problems, the invention provides a full-automatic peeling device for producing a connecting power line.

Disclosure of Invention

(1) Technical problem to be solved

The invention aims to overcome the problems in the prior art, adapt to practical requirements and provide a full-automatic peeling device for producing a connecting power line so as to solve the technical problems.

(2) Technical scheme

In order to realize the purpose of the invention, the technical scheme adopted by the invention is as follows: a full-automatic peeling device for production of a connected power line comprises a supporting plate, wherein the upper part of the supporting plate is fixedly connected with a sliding table, one side of the sliding table is connected with an arc-shaped plate way, and one side of the arc-shaped plate way is provided with a containing groove; the upper end surface of the supporting plate is connected with a supporting plate, and the lower end surface of the supporting plate is connected with a pushing mechanism; the two sides of the pushing mechanism are just opposite to and connected with the peeling mechanism, the lower end face of the pushing mechanism is just opposite to and provided with the meshing mechanism, the upper parts of the two side walls of the containing tank are connected with inclined plates, the lower end faces of the inclined plates are just opposite to and provided with a landslide plate, and one side of the landslide plate is connected with a containing shell.

Preferentially, pushing mechanism includes the pneumatic cylinder, and this pneumatic cylinder one end is connected with the guide bar, and this guide bar upper portion is connected with and promotes the piece, should promote the piece both sides and all seted up first rotating groove, and this first rotating groove is connected with the gyro wheel through the rotor, and promotes the piece lower extreme and be connected with the clamp plate, has seted up first recess in the middle of this clamp plate lower extreme terminal surface.

Preferentially, the peeling mechanism comprises a fixing block, the upper end face of the fixing block is connected to the upper end face of the supporting plate, the lower end face of the fixing block is connected with a first spring body, the lower end face of the first spring body is connected with a transmission frame plate, the upper portion of the transmission frame plate is connected with a sliding portion, the sliding portion is connected with a sliding channel through the fixing plate body in a sliding mode, one side of the fixing plate body is connected to the outer surface of one side of the supporting plate, the sliding channel is arranged on one side of the fixing plate body, a second spring body is connected to one side wall of the sliding channel, one end of the second spring body is connected with a pushing plate, the lower end face of the transmission frame plate is connected with a moving block, the lower end face of the moving block is connected with a fixing column, a second groove is formed in the lower portion of the outer surface of the fixing column, the upper portion of the outer surface of the fixing column is connected with a fixing body, a second rotating groove is formed in the lower portion of the two sides of the fixing body, and a clamping plate is rotatably connected with the second rotating groove.

Preferentially, the occlusion mechanism comprises a protective shell, the upper end face of the protective shell is connected to the lower end face of the supporting plate, first rotating shafts are connected to two inner sides of the protective shell, a first rotating plate is sleeved on the outer surface of the first rotating shaft, a first cutting board is connected to the upper end face of the first rotating plate, a rotating shell is connected to one side of the first cutting board, a rotating portion is rotatably connected to the inner portion of the rotating shell, a second cutting board is connected to one side of the outer surface of the rotating portion, a second rotating board is connected to the lower end face of one side of the second cutting board, a second rotating shaft is connected to the lower end of the second rotating board, two ends of the second rotating shaft are connected to two inner side walls of the protective shell, a third spring body is connected to the upper portion of the outer surface of the first rotating plate, one end of the third spring body is connected to one side of the inner wall of the protective shell, a fourth spring body is connected to the upper portion of the outer surface of the second rotating board, and one end of the fourth spring body is connected to one side of the inner wall of the protective shell.

Preferably, the arc plate way is provided with an opening in the middle, the lower part of the opening is arranged right opposite to the outer surfaces of the first cutting board and the second cutting board, the upper part of the opening is arranged right opposite to the outer surfaces of the pressing board and the first groove, and the outer surfaces of the pressing board and the first groove are arranged right opposite to the outer surfaces of the first cutting board and the second cutting board.

Preferably, the engaging mechanism is M-shaped, the first and second rotating plates are inclined at 30 to 60 degrees, and power lines are connected to the outer surfaces of the first and second cutting plates and the outer surfaces of the circular arc plate way.

Preferably, the outer surface of the pushing block abuts against one side of the upper end of the transmission frame plate, the lower end face of the moving block faces the outer surface of the circular arc plate way, the second groove is buckled on the outer surface of the power line, and the inner surface of the clamping plate abuts against two sides of the outer surface of the power line.

(3) Has the advantages that:

A. the power line is guided into the outer surface of the arc-shaped board channel by utilizing the inclined surface of the sliding table, the middle of the power line can be contacted with the outer surfaces of the first knife board and the second knife board, a hydraulic cylinder is started, a guide rod is driven to move downwards by the power of the hydraulic cylinder, and meanwhile, a pushing block and a pressing board are driven to move downwards together;

B. after the buckle is completed, the pressure of the pressing plate is transmitted to a power line at the first groove, the power line is pressed on the outer surfaces of the first knife board and the second knife board through the pressure of the pressing plate, the rotating shell is connected with the rotating part in a rotating mode, the pressure of the power line is transmitted to the outer surfaces of the first knife board and the second knife board, the pressure applied to the first knife board and the second knife board is transmitted to the first rotating shaft and the second rotating shaft, and the first knife board and the second knife board are folded towards the opposite direction;

C. this leather sheath can be through the spigot surface landing of swash plate to the surface of slip ramp, and in the surface direction of rethread slip ramp advanced to hold the shell, prevent that the leather sheath from dropping at will, prevent that the leather sheath from blocking in first cutting board and second cutting board department, and the power cord of another end power cord is taken out the power cord of accomplishing of skinning by the light pulling of staff. The power line peeling knife is beneficial to preventing the power line husks from falling randomly, reducing manual work for sorting, reducing the amount of manual labor, preventing the husks from being clamped in the peeling knife, avoiding the increase of pressure and abrasion of the peeling knife, improving the peeling effect and improving the peeling speed of the core wires;

D. after taking out, first cutting board and second cutting board can return to original state through third spring body and fourth spring body, the in-process that the pneumatic cylinder shrink, this gyro wheel can roll upwards in the surface of transmission frame plate and roll, and the sliding part can promote the sliding part through second spring body and kickboard and slide to chute one side, drive the transmission frame plate simultaneously, let the sliding part slide to chute upper portion with first spring body, and accomplish the original state of return, be favorable to not needing the multiple program to skin, easy inspection and maintenance, and the work efficiency is improved.

Drawings

FIG. 1 is a schematic perspective view of a full-automatic peeling device for connecting power line production according to the present invention;

FIG. 2 is a schematic structural diagram of a pushing mechanism and a peeling mechanism of the full-automatic peeling device for connecting power line production according to the present invention;

FIG. 3 is a partially enlarged view of a second spring body and a pushing block of the fully automatic peeling device for connecting power cord production of the present invention;

FIG. 4 is a partially enlarged view of a second groove and a clamping plate of the fully automatic peeling device for connecting power line production of the present invention;

FIG. 5 is a partially enlarged view of an engaging mechanism of the fully automatic stripping device for connecting power lines;

fig. 6 is a schematic structural diagram of an inclined plate and an accommodating shell of the full-automatic peeling device for connecting power line production of the invention.

The reference numbers are as follows:

1-support plate, 11-sliding table, 12-circular arc raceway, 121-receiving groove, 13-support plate, 14-power line, 2-pushing mechanism, 21-hydraulic cylinder, 22-guide bar, 23-pushing block, 231-first rotating groove, 232-roller, 24-pressing plate, 25-first groove, 3-peeling mechanism, 31-fixing block, 32-first spring body, 33-transmission frame plate, 331-sliding part, 34-fixing plate body, 35-sliding groove, 341-second spring body, 352-pushing plate, 36-moving block, 37-fixing column, 371-second groove, 372-fixing body, 373-second rotating groove, 374-clamping plate, 4-meshing mechanism, 41-protective housing, 42-first rotating shaft, 43-first rotating plate, 431-third spring body, 44-first blade, 45-rotating housing, 46-rotating part, 47-second blade, 48-second rotating plate, swash plate-fourth rotating shaft, 49-fourth spring body, 481-second sliding plate, 5-sliding plate, 6-7-accommodating ramp plate housing.

Detailed Description

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

The invention will be further illustrated with reference to the following figures 1-6 and examples:

in this embodiment, as shown in fig. 1 to 6, a full-automatic peeling device for producing a connection power line includes a supporting plate 1, a sliding table 11 is fixedly connected to an upper portion of the supporting plate 1, an arc-shaped plate way 12 is connected to one side of the sliding table 11, and an accommodating groove 121 is formed in one side of the arc-shaped plate way 12; the upper end surface of the supporting plate 1 is connected with a supporting plate 13, and the lower end surface of the supporting plate 13 is connected with a pushing mechanism 2; two sides of the pushing mechanism 2 are opposite to and connected with the peeling mechanism 3, the lower end face of the pushing mechanism 2 is opposite to and provided with the meshing mechanism 4, the upper parts of the two side walls of the accommodating groove 121 are connected with inclined plates 5, the lower end face of each inclined plate 5 is opposite to and provided with a landslide plate 6, and one side of each landslide plate 6 is connected with an accommodating shell 7. This leather sheath can be through the surface landing of the spigot surface of swash plate 5 to the surface of slip ramp 6, and the surface direction of rethread slip ramp 6 is gone into and is held in the shell 7, prevents that the leather sheath from dropping at will, prevents that the leather sheath from blocking in first cutting board 44 and second cutting board 47 department, and other end power cord 14 is taken out the power cord 14 of the completion of skinning by the light pulling of staff. The power cord peeling knife has the advantages that the power cord peeling can be prevented from falling at will, manual work is reduced, the amount of manual labor is reduced, the case is prevented from being clamped in the peeling knife, the pressure and abrasion of the peeling knife are avoided, the peeling effect is improved, and the peeling speed of core wires is improved.

In this embodiment, the pushing mechanism 2 includes a hydraulic cylinder 21, one end of the hydraulic cylinder 21 is connected with a guide rod 22, the upper part of the guide rod 22 is connected with a pushing block 23, first rotating grooves 231 are respectively formed in two sides of the pushing block 23, the first rotating grooves 231 are connected with rollers 232 through rotating bodies, the lower end of the pushing block 23 is connected with a pressing plate 24, and a first groove 25 is formed in the middle of the lower end face of the pressing plate 24. First, the power cord 14 is guided into the outer surface of the circular arc lane 12 by the inclined surface of the sliding table 11, the middle of the power cord 14 contacts the outer surfaces of the first and

second blades

44, 47, the hydraulic cylinder 21 is started, the guide rod 22 is driven to move downwards by the power of the hydraulic cylinder 21, and simultaneously the pushing block 23 and the pressing plate 24 are driven to move downwards together, during the downward movement, the rollers 232 at both sides of the pushing block 23 abut against the outer surfaces of the two driving frame plates 33 on the peeling mechanisms 3, the sliding portion 331 on the driving frame plate 33 moves downwards along the upper portion of the sliding groove 35, the first spring 32 at the upper end of the driving frame plate 33 is stretched and slowly and stably moves the sliding portion 331 and the driving frame plate 33, and the pressing plate 24 abuts against the outer surface of the power cord 14 by the first groove 25, while the power cord 14 is fastened, the driving frame plate 33 can utilize the second rotating groove 373 and the pressing plate 374, the second rotating groove 373 and the pressing plate 374 can ensure that the power cord 373 and the pressing plate 14 can smoothly fasten the outer surface 373 and clamp 14 by the driving power cord 33, the power cord, the second rotating groove 373 and the pressing plate 374 can prevent the peeling mechanism 14 from being buckled, and the peeling mechanism from being smoothly, and the peeling mechanism improves the peeling efficiency of the peeling mechanism 14.

In this embodiment, the peeling mechanism 3 includes a fixing block 31, an upper end surface of the fixing block 31 is connected to an upper end surface of the supporting plate 13, a lower end surface of the fixing block 31 is connected to a first spring body 32, a lower end surface of the first spring body 32 is connected to a transmission frame plate 33, an upper portion of the transmission frame plate 33 is connected to a sliding portion 331, the sliding portion 331 is connected to a sliding channel 35 through a fixing plate 34, one side of the fixing plate 34 is connected to an outer surface of one side of the supporting plate 1, the sliding channel 35 is opened at one side of the fixing plate 34, a side wall of the sliding channel 35 is connected to a second spring body 341, one end of the second spring body 341 is connected to a pushing plate 352, an end surface of the transmission frame plate 33 is connected to a moving block 36, a lower end surface of the moving block 36 is connected to a fixing column 37, a second groove 371 is opened at a lower portion of the outer surface of the fixing column 37, an upper portion of the outer surface of the fixing column 37 is connected to a fixing body 372, second rotating groove 373 is opened at a lower portion of two sides of the fixing body 372, and a clamping plate 374 is rotatably connected to the second rotating groove 373. The peeling mechanism 3 is provided with two identical mechanisms, and moves simultaneously. In the downward movement process, the rollers 232 at both sides of the pushing block 23 abut against the outer surfaces of the frame plates 33 on the two peeling mechanisms 3, so that the sliding portion 331 on the frame plate 33 moves downward along the upper portion of the sliding groove 35, the first spring body 32 at the upper end of the frame plate 33 stretches, the sliding portion 331 and the frame plate 33 slowly and stably move, the pressing plate 24 abuts against the outer surface of the power cord 14 through the first groove 25, while the power cord 14 is fastened, the frame plate 33 can utilize the second rotating groove 373 and the clamping plate 374, the second rotating groove 373 and the clamping plate 374 can utilize the driving force of the frame plate 33, the lower end of the clamping plate 374 abuts against the outer surface of the circular arc plate channel 12, the clamping plate is clamped at both sides of the outer surface of the power cord 14 by utilizing the folding of the clamping plate and the second rotating groove 373, the outer surface of the power cord 14 can be more smoothly clamped by the second groove on the fixing column 37, the clamping plate 374 and the second rotating groove 373 cooperate with the pressing force of the pressing plate 24 to jointly complete the clamping of the first groove 25 and the second groove 371, the outer surface of the power cord 14 can be prevented from being bent, the peeling knife 14, the peeling knife can be beneficial to improve the peeling efficiency, and the peeling efficiency of the peeling knife plate can be improved.

In this embodiment, the engagement mechanism 4 includes a protective housing 41, an upper end surface of the protective housing 41 is connected to a lower end surface of the support plate 1, first rotating shafts 42 are connected to both sides inside the protective housing 41, a first rotating plate 43 is sleeved on an outer surface of the first rotating shaft 42, a first blade 44 is connected to an upper end surface of the first rotating plate 43, a rotating housing 45 is connected to one side of the first blade 44, a rotating portion 46 is rotatably connected to an inside of the rotating housing 45, a second blade 47 is connected to an outer surface side of the rotating portion 46, a second rotating plate 48 is connected to a lower end surface of one side of the second blade 47, a second rotating shaft 49 is connected to a lower end of the second rotating plate 48, both ends of the second rotating shaft 49 are connected to both inner side walls of the protective housing 41, a third spring body 431 is connected to an upper portion of an outer surface of the first rotating plate 43, one end of the third spring body 431 is connected to an inner wall side of the protective housing 41, a fourth spring body 481 is connected to an upper portion of an outer surface of the second rotating plate 48, and one end of the fourth spring body is connected to an inner wall side of the protective housing 481. After the buckling is completed, the pressure of the pressing plate 24 is transmitted to the power line 14 at the first groove 25, the power line 14 is pressed on the outer surfaces of the first knife board 44 and the second knife board 47 through the pressure of the pressing plate 24, the pressure of the power line 14 is transmitted to the outer surfaces of the first knife board 44 and the second knife board 47 through the rotating connection of the rotating shell 45 and the rotating part 46, the pressure received by the first knife board 44 and the second knife board 47 is transmitted to the first rotating shaft 42 and the second rotating shaft 49, and the folding is performed in the opposite direction, in the process of the folding, a plurality of knives of the first knife board 44 and the second knife board 47 are used to cut a plurality of small openings on the outer surface of the power line 14, after the plurality of small openings are cut, the damage to the core line is prevented, the abrasion and the breakage of the core line are avoided, and the electrical property of the power line is improved.

In this embodiment, the arc plate way 12 has an opening in the middle, the lower portion of the opening is disposed opposite to the outer surfaces of the first knife plate 44 and the second knife plate 47, the upper portion of the opening is disposed opposite to the outer surfaces of the pressing plate 24 and the first groove 25, and the outer surfaces of the pressing plate 24 and the first groove 25 are disposed opposite to the outer surfaces of the first knife plate 44 and the second knife plate 47. After the buckling is completed, the pressure of the pressing plate 24 is transmitted to the power line 14 at the first groove 25, the power line 14 is pressed on the outer surfaces of the first knife board 44 and the second knife board 47 through the pressure of the pressing plate 24, the pressure of the power line 14 is transmitted to the outer surfaces of the first knife board 44 and the second knife board 47 through the rotating connection of the rotating shell 45 and the rotating part 46, the pressure received by the first knife board 44 and the second knife board 47 is transmitted to the first rotating shaft 42 and the second rotating shaft 49, and the folding is performed in the opposite direction, in the process of the folding, a plurality of knives of the first knife board 44 and the second knife board 47 are used to make a plurality of small openings on the outer surface of the power line 14, after the plurality of small openings are made, the damage to the core wire is prevented, the abrasion and the breakage of the core wire are avoided, and the electrical property of the power line is improved.

In this embodiment, the interior of the engaging mechanism 4 is M-shaped, the first rotating plate 43 and the second rotating plate 48 are inclined at an angle of 30 to 60 degrees, the power cord 14 is connected to the outer surfaces of the first knife plate 44 and the second knife plate 47, and the power cord 14 is connected to the outer surface of the circular arc plate 12. After the buckling is completed, the pressure of the pressing plate 24 is transmitted to the power line 14 at the first groove 25, the power line 14 is pressed on the outer surfaces of the first knife board 44 and the second knife board 47 through the pressure of the pressing plate 24, the pressure of the power line 14 is transmitted to the outer surfaces of the first knife board 44 and the second knife board 47 through the rotating connection of the rotating shell 45 and the rotating part 46, the pressure received by the first knife board 44 and the second knife board 47 is transmitted to the first rotating shaft 42 and the second rotating shaft 49, and the folding is performed in the opposite direction, in the process of the folding, a plurality of knives of the first knife board 44 and the second knife board 47 are used to make a plurality of small openings on the outer surface of the power line 14, after the plurality of small openings are made, the damage to the core wire is prevented, the abrasion and the breakage of the core wire are avoided, and the electrical property of the power line is improved.

In this embodiment, the outer surface of the pushing block 23 abuts against one side of the upper end of the transmission frame plate 33, the lower end surface of the moving block 36 faces the outer surface of the circular arc track 12, the second groove 371 is fastened on the outer surface of the power cord 14, and the inner surface of the clamping plate 374 abuts against two sides of the outer surface of the power cord 14. The pressing plate 24 can be fastened to the outer surface of the power cord 14 through the first groove 25, while the power cord 14 is fastened, the second rotating groove 373 and the clamping plate 374 can be utilized by the transmission frame plate 33, the lower end of the clamping plate 374 can abut against the outer surface of the circular arc lane 12 through the power transmitted by the transmission frame plate 33 through the second rotating groove 373 and the clamping plate 374, the clamping plate 374 and the second rotating groove 373 are clamped to two sides of the outer surface of the power cord 14 through the folding of the clamping plate 374 and the second rotating groove 373, the second groove 371 on the fixing column 37 can be fastened to the outer surface of the power cord 14 more smoothly, the clamping plate 374 and the second rotating groove 373 are matched with the pressing force of the pressing plate 24 to jointly complete the fastening of the first groove 25 and the second groove 371 on the outer surface of the power cord 14, the power cord 14 is prevented from being fastened due to bending, the power cord 14 is ensured to be on the outer surfaces of the first knife plate 44 and the second knife plate 47, the bent power cord can be peeled uniformly, the effect of the peeling of the power cord is improved, the peeling efficiency is improved, and the peeling rate is avoided.

The invention has the beneficial effects that:

first, the power cord 14 is guided into the outer surface of the circular arc lane 12 by the inclined surface of the sliding table 11, the middle of the power cord 14 contacts the outer surfaces of the first and

second blades

After the buckling is completed, the pressure of the pressing plate 24 is transmitted to the power line 14 at the first groove 25, the power line 14 is pressed onto the outer surfaces of the first knife board 44 and the second knife board 47 by the pressure of the pressing plate 24, the pressure of the power line 14 is transmitted to the outer surfaces of the first knife board 44 and the second knife board 47 by the rotation connection of the rotating shell 45 and the rotating part 46, the pressure received by the first knife board 44 and the second knife board 47 is transmitted to the first rotating shaft 42 and the second rotating shaft 49 and is folded in the opposite direction, during the folding process, the outer surfaces of the power line 14 are divided into a plurality of small openings by the plurality of knives of the first knife board 44 and the second knife board 47, after the plurality of small openings are divided, the sliding part 331 slides to the lower part of the sliding channel groove 35, the roller 232 rolls on the outer surface of the transmission frame plate 33, the sliding part 331 slides to one side along the sliding channel 35 and is pressed on the outer surfaces of the second spring body 341 and the pushing plate 352, and simultaneously drives the two moving

blocks

36 and 36 on the two sides of the second spring body 352 to pull the moving block to prevent the core wires 374 and the core wires 14 from being damaged, thereby preventing the damage of the moving block 14 and the electrical property of the moving block from being broken.

This leather sheath can be through the surface landing of the spigot surface of swash plate 5 to the surface of slip ramp 6, and the surface direction of rethread slip ramp 6 is gone into and is held in the shell 7, prevents that the leather sheath from dropping at will, prevents that the leather sheath from blocking in first cutting board 44 and second cutting board 47 department, and other end power cord 14 is taken out the power cord 14 of the completion of skinning by the light pulling of staff. The power cord peeling knife has the advantages that the power cord peeling can be prevented from falling at will, manual work is reduced, the amount of manual labor is reduced, the case is prevented from being clamped in the peeling knife, the pressure and abrasion of the peeling knife are avoided, the peeling effect is improved, and the peeling speed of core wires is improved.

After the knife blade is taken out, the first knife blade 44 and the second knife blade 47 return to the original state through the third spring body 431 and the fourth spring body 481, in the process that the hydraulic cylinder 21 contracts, the roller 232 rolls on the outer surface of the transmission frame plate 33 to roll upwards, the sliding part 331 pushes the sliding part 331 to slide towards one side of the sliding channel 35 through the second spring body 341 and the pushing plate 352, the transmission frame plate 33 is driven at the same time, the sliding part 331 slides towards the upper part of the sliding channel 35 through the first spring body 32, and the return to the original state is completed, so that the multi-program peeling is not needed, the inspection and maintenance are easy, and the working efficiency is improved.

The working principle is as follows:

second blades

blocks

36 and 36 on the two sides of the second spring body 352 to pull the moving block to prevent the core wires 374 and the core wires 14 from being damaged, thereby preventing the damage of the moving block 14 and the electrical property of the moving block 14 from being broken.

The embodiments of the present invention are disclosed as the preferred embodiments, but not limited thereto, and those skilled in the art can easily understand the spirit of the present invention and make various extensions and changes without departing from the spirit of the present invention.

Claims

1. A full-automatic peeling device for production of a connected power line comprises a supporting plate (1) and is characterized in that the upper part of the supporting plate (1) is fixedly connected with a sliding table (11), one side of the sliding table (11) is connected with an arc-shaped plate way (12), and one side of the arc-shaped plate way (12) is provided with an accommodating groove (121); the upper end surface of the supporting plate (1) is connected with a supporting plate (13), and the lower end surface of the supporting plate (13) is connected with a pushing mechanism (2); the two sides of the pushing mechanism (2) are connected with the peeling mechanism (3) in an opposite mode, the lower end face of the pushing mechanism (2) is provided with the meshing mechanism (4) in an opposite mode, the upper portions of the two side walls of the accommodating groove (121) are connected with inclined plates (5), the lower end face of each inclined plate (5) is provided with a landslide plate (6) in an opposite mode, and one side of each landslide plate (6) is connected with an accommodating shell (7); peeling mechanism (3) are including fixed block (31), the up end at backup pad (13) is connected to this fixed block (31) up end, and end connection is connected with first spring body (32) under fixed block (31), end connection is connected with transmission frame plate (33) under this first spring body (32), this transmission frame plate (33) upper portion is connected with sliding part (331), this sliding part (331) have slide groove (35) through fixed plate body (34) sliding connection, this fixed plate body (34) one side is connected on one side surface of backup pad (1), and slide groove (35) are seted up in one side of fixed plate body (34), and slide groove (35) a lateral wall is connected with second spring body (341), this second spring body (341) one end is connected with pushing plate (352), end connection is connected with movable block (36) under transmission frame plate (33), end connection is connected with fixed column (37) under this movable block (36), second recess (371) have been seted up to this fixed column (37) surface lower part, and fixed column (37) surface upper portion is connected with fixed body (372), this second clamp plate (373) both sides are connected with second rotation groove (373).

2. The full-automatic peeling device for producing the connecting power line as claimed in claim 1, wherein: push mechanism (2) include pneumatic cylinder (21), and this pneumatic cylinder (21) one end is connected with guide bar (22), and this guide bar (22) upper portion is connected with promotes piece (23), should promote piece (23) both sides and all seted up first rotating groove (231), and this first rotating groove (231) are connected with gyro wheel (232) through the rotor, and promote piece (23) lower extreme and be connected with clamp plate (24), have seted up first recess (25) in the middle of this clamp plate (24) lower terminal surface.

3. The full-automatic peeling device for producing the connecting power line as claimed in claim 2, wherein: the occlusion mechanism (4) comprises a protective shell (41), the upper end face of the protective shell (41) is connected to the lower end face of the support plate (1), first rotating shafts (42) are connected to two sides of the inside of the protective shell (41), a first rotating plate (43) is sleeved on the outer surface of the first rotating shaft (42), a first knife board (44) is connected to the upper end face of the first rotating plate (43), a rotating shell (45) is connected to one side of the first knife board (44), a rotating part (46) is rotatably connected to the inside of the rotating shell (45), a second knife board (47) is connected to one side of the outer surface of the rotating part (46), a second rotating board (48) is connected to the lower end face of one side of the second knife board (47), a second rotating board (48) is connected to the lower end of the second rotating shaft (49), two ends of the second rotating shaft (49) are connected to the inside of the protective shell (41), a third spring body (431) is connected to the upper portion of the outer surface of the first rotating plate (43), one end of one side wall of the third spring body (431) is connected to one side of the inner wall of the protective shell (41), a fourth spring body (481) is connected to the upper portion of the outer surface of the second rotating board (48), and one side of the fourth spring body (481) is connected to one side of the inner wall (481.

4. The full-automatic peeling device for producing the connecting power line as claimed in claim 3, wherein: the middle of the circular arc plate way (12) is provided with an opening, the lower part of the opening is arranged right opposite to the outer surfaces of the first knife board (44) and the second knife board (47), the upper part of the opening is arranged right opposite to the outer surfaces of the pressing board (24) and the first groove (25), and the outer surfaces of the pressing board (24) and the first groove (25) are arranged right opposite to the outer surfaces of the first knife board (44) and the second knife board (47).

5. The full-automatic peeling device for producing the connecting power line as claimed in claim 4, wherein: the inside of the occlusion mechanism (4) is M-shaped, the first rotating plate (43) and the second rotating plate (48) are inclined by 30-60 degrees, the outer surfaces of the first cutting plate (44) and the second cutting plate (47) are connected with a power line (14), and the power line (14) is connected to the outer surface of the circular arc plate way (12).

6. The full-automatic peeling device for connecting the power line as claimed in claim 5, wherein: the outer surface of the pushing block (23) abuts against one side of the upper end of the transmission frame plate (33), the lower end face of the moving block (36) is right opposite to the outer surface of the circular arc track (12), the second groove (371) is buckled on the outer surface of the power line (14), and the inner surface of the clamping plate (374) abuts against two sides of the outer surface of the power line (14).