CN115849102A - Automatic production equipment for crosslinked polyethylene insulated power cable - Google Patents

Abstract

The invention discloses automatic production equipment for a crosslinked polyethylene insulated power cable, which comprises a workbench, a hollow rotary platform, a rotary table, a fixed frame, a winding mechanism, a packing mechanism, a film coating mechanism and a blanking mechanism, wherein the hollow rotary platform is arranged on the workbench; according to the invention, the cable is wound on the rotary jig through the winding mechanism, the wound cable is bundled and molded through the packaging mechanism, the outer part of the cable is coated through the coating mechanism, the cable is taken out of the rotary jig through the blanking mechanism and is placed into the blanking station, and the layout of the mechanisms is tightly cooperated with each other through the turntable and the fixing frame, so that the full-automatic integrated production from winding to packaging of the power cable is realized.

Description

Automatic production equipment for crosslinked polyethylene insulated power cable

Technical Field

The invention relates to the technical field of smart power grid industry, in particular to automatic production equipment for a crosslinked polyethylene insulated power cable.

Background

The cross-linked polyethylene insulated power cable is a power transmission carrier suitable for being fixedly laid in a power distribution network or an industrial device with the power frequency rated voltage of 0.6/1kV or below, the cable needs to be wound into a coil shape in the production process, bundled and coated, and prevented from being affected with damp so as to be convenient for storage and transportation.

Disclosure of Invention

Aiming at the defects in the prior art, the invention aims to provide automatic production equipment for a crosslinked polyethylene insulated power cable, so as to solve the problems in the background technology. In order to achieve the purpose, the invention adopts the following technical scheme:

this insulating power cable automated production equipment of crosslinked polyethylene, including the workstation, still include cavity rotary platform, carousel, mount, winding mechanism, packing mechanism, diolame mechanism and unloading mechanism, cavity rotary platform set up in on the workstation, the carousel set up in cavity rotary platform's work end rotates along its top surface week side partition and is provided with a plurality of rotatory tools, the mount passes cavity rotary platform set up in on the workstation, winding mechanism packing mechanism the diolame mechanism with diolame mechanism follows in proper order carousel week side set up in on the workstation, winding mechanism is used for twining the cable winding on rotatory tool, packing mechanism is used for cable plastic and ties up, diolame mechanism is used for the outside diolame of cable that will tie up, unloading mechanism is used for taking out the cable on the rotatory tool and sends into the unloading station.

Preferably, the winding mechanism comprises a wire feeding device, a wire shearing device, a jig driving device and a wire blocking device, wherein the wire feeding device corresponds to a rotary jig and is arranged on the workbench and used for fixing the end part of the cable on the rotary jig and uniformly arranging the cable on the rotary jig when the jig rotates, the wire shearing device is arranged between the rotary jig and the wire feeding device and used for shearing the cable after winding is completed, the jig driving device corresponds to the rotary jig and is arranged on the workbench below the turntable and used for driving the rotary jig to rotate, and the wire blocking device corresponds to the rotary jig and is arranged on the fixed frame and used for preventing the cable from deviating from the rotary jig.

Preferably, send traditional thread binding putting to include support frame, lead screw slip table, crane, send line gas claw, send line gyro wheel and act as go-between subassembly, the support frame set up in on the workstation, lead screw slip table set up perpendicularly in keeping away from carousel one side the support frame lateral wall, the crane slides and sets up in deviating from lead screw slip table one side on the support frame, the work end of lead screw slip table is connected the crane, send line gas claw set up in on the crane, send the line gyro wheel to have two, set up respectively in send two work ends of line gas claw, act as go-between subassembly set up in send line gas claw one side on the crane.

Preferably, the stay wire assembly comprises a first guide rail, a first cylinder, a first sliding seat and a finger cylinder, the first guide rail is arranged on the top surface of the lifting frame, the first sliding seat is arranged on the first guide rail in a sliding mode, the first cylinder is arranged on the lifting frame at one end of the first guide rail, the working end of the first cylinder is connected with the first sliding seat, the finger cylinder is arranged on the side wall of the first sliding seat, and two working ends of the finger cylinder are respectively provided with a stay wire clamping jaw.

Preferably, the trimming device includes second support frame, trimming cylinder, trimming seat, tooth post, gear, the second support frame set up in on the workstation, the trimming seat set up in on the second support frame, the tooth post run through perpendicularly and slide set up in the trimming seat, the gear has two, rotate respectively set up in the tooth post both sides in the trimming seat, two the gear top is provided with the arm lock respectively, two the gear respectively with the tooth post meshing, two the arm lock sets up relatively to mutual interlock is used for cutting the cable, the trimming cylinder set up in the tooth post bottom on the workstation, its working end is connected the tooth post.

Preferably, rotatory tool includes tool seat, rotary rod, locking lever and winding tool, the tool seat run through set up in on the carousel, tool seat lateral wall radially runs through along it and is provided with the lockhole, the rotary rod corresponds the lockhole runs through and has seted up the locking hole, the first end of locking lever slide set up in the lockhole, the other end is provided with the locking drive block, its middle part is provided with the reset seat, reset seat with be provided with reset spring on the locking lever between the tool seat, the rotary rod bottom radially runs through along it and has seted up the draw-in groove, the winding tool set up in the rotary rod top, winding tool bottom is provided with spacing dish, and its week side has radially seted up a plurality of logical grooves along it, lead to the groove and be used for the work of baling mechanism, the drum of being convenient for simultaneously breaks away from the winding tool.

Preferably, the jig driving device comprises a servo motor, a third support frame, a third air cylinder, a rotary seat, a rotary sleeve, a driving rod, a driving pin, a driving sleeve, a connecting rod and a jig locking device, the rotary seat corresponds to the rotary jig and is arranged on the workbench in a penetrating manner, the rotary sleeve is arranged in the rotary seat in a rotating manner, the driving rod is arranged in the rotary sleeve in a penetrating manner, two sliding grooves are symmetrically formed in the side wall of the rotary sleeve along the axial direction of the rotary sleeve, the driving pin is arranged on the driving rod in a penetrating manner, the two ends of the driving pin are respectively connected with the two sliding grooves in a sliding manner, the third support frame is arranged on the bottom surface of the workbench, the third air cylinder is arranged on the third support frame, the working end of the third air cylinder is connected with the driving rod in a rotating manner, the servo motor is arranged on the bottom surface of the workbench and is used for driving the rotary sleeve to rotate, the driving sleeve is vertically arranged on the top end of the driving rod, the connecting rod is horizontally arranged in the driving sleeve, the connecting rod is movably clamped with the clamping groove, and the jig locking device is arranged on the workbench on one side of the rotary seat and used for locking the rotary jig.

Preferably, the tool locking assembly comprises a locking support frame, a locking slide rail, a locking cylinder and a locking movable seat, the locking support frame is arranged on the workbench, the locking slide rail is arranged on the side wall of the locking support frame, the locking movable seat is arranged on the locking slide rail in a sliding mode, the locking cylinder is arranged on one side of the locking slide rail on the locking support frame, the working end of the locking cylinder is connected with the locking movable seat, the locking movable seat corresponds to the locking rod, a locking clamping groove is formed in the locking rod, and the locking clamping groove is matched with the locking driving block.

Preferably, the packing mechanism includes fourth support frame, fourth slide rail, fourth cylinder, packing sliding seat, ribbon machine, first guider and second guider, the fourth support frame set up in on the workstation, the fourth slide rail set up in fourth support frame top surface, the packing sliding seat slide set up in on the fourth slide rail, the fourth cylinder set up in keeping away from carousel one end on the fourth support frame, its work end is connected the packing sliding seat, ribbon machine set up in on the packing sliding seat, first guider set up in packing sliding seat top, second guider corresponds first guider set up in packing sliding seat bottom.

Preferably, diolame mechanism is including drawing membrane device, pressure membrane device and second tool drive arrangement, draw the membrane device set up in on the workstation, the die assembly corresponds draw membrane mechanism set up in on the mount, second tool drive arrangement corresponds rotatory tool set up in on the workstation, draw the membrane device include fifth support frame, fifth slide rail, draw membrane sliding seat, first straight line slip table, second straight line slip table, swing span, suction nozzle, compression roller and fifth cylinder, the fifth support frame set up in on the workstation, the fifth slide rail set up in on the fifth support frame, draw membrane sliding seat to slide set up in on the fifth slide rail, first straight line slip table set up in on the fifth support frame, its work end is connected draw membrane sliding seat, second straight line slip table set up in draw membrane sliding seat one side, the swing span rotate set up in the work end of second straight line slip table, the compression roller rotate set up in swing span one end, the suction nozzle set up in the swing span other end, the fifth cylinder set up in draw membrane sliding seat, its work end connects the swing span opposite side.

Compared with the prior art, the full-automatic integrated production device has the advantages that the cable is wound on the rotary jig through the winding mechanism, the wound cable is bundled and formed through the packing mechanism, the outer part of the cable is coated through the coating mechanism, the cable is taken out of the rotary jig through the discharging mechanism and placed into the discharging station, the layout of all the mechanisms is tightly cooperated with each other through the turntable and the fixing frame, and the full-automatic integrated production from winding to packaging of the power cable is realized.

Drawings

FIG. 1 is a schematic view of the overall assembly structure of one embodiment of the present invention;

FIG. 2 is a schematic view of the winding mechanism of the embodiment of FIG. 1 according to the present invention;

FIG. 3 is a schematic structural diagram of the wire feeding device of FIG. 1 according to the present invention;

FIG. 4 is a schematic structural diagram of the thread trimming apparatus of the embodiment of FIG. 1 according to the present invention;

FIG. 5 is a schematic view of a rotary jig according to the embodiment of FIG. 1;

fig. 6 is a schematic structural diagram of a jig driving device according to the embodiment of fig. 1 of the present invention;

fig. 7 is a schematic diagram illustrating a partially exploded structure of the jig driving device in the embodiment of fig. 1 according to the present invention;

fig. 8 is a schematic structural view of the jig locking assembly of the embodiment of fig. 1 according to the present invention;

FIG. 9 is a schematic view of the packaging mechanism of the embodiment of FIG. 1 of the present invention;

FIG. 10 is a schematic view of the capsule mechanism of the embodiment of FIG. 1 according to the present invention;

FIG. 11 is a schematic structural diagram of a film drawing apparatus according to the embodiment of FIG. 1;

FIG. 12 is a schematic view of a lamination device according to the embodiment of FIG. 1;

FIG. 13 is a schematic structural view of a blanking mechanism of the embodiment of FIG. 1 of the present invention;

the figures above show: 1. a work table; 2. a turntable; 3. a fixed mount; 4. a winding mechanism; 5. a packaging mechanism; 6. a film coating mechanism; 7. a blanking mechanism; 8. rotating the jig; 41. a wire feeding device; 42. a thread trimming device; 43. a jig driving device; 44. a wire blocking device; 4101. a support frame; 4102. a lead screw sliding table; 4103. a lifting frame; 4104. a wire feeding pneumatic claw; 4105. a wire feeding roller; 45. a pull wire assembly; 4501. a first guide rail; 4502. a first cylinder; 4503. a first slider; 4504. a finger cylinder; 4201. a second support frame; 4202. a trimming cylinder; 4203. a wire cutting seat; 4204. a tooth post; 4205. a gear; 4206. clamping arms; 801. a jig base; 802. rotating the rod; 803. a locking lever; 804. winding the jig; 805. a lock hole; 806. a locking hole; 807. locking the driving block; 808. a reset seat; 4301. a servo motor; 4302. a third support frame; 4303. a third cylinder; 4304. a rotating base; 4305. a rotating sleeve; 4306. a drive rod; 4307. a drive pin; 4308. a drive sleeve; 4309. a connecting rod; 431. a jig locking assembly; 4311. locking the support frame; 4312. locking the slide rail; 4313. locking the air cylinder; 4314. locking the movable seat; 4315. locking the clamping groove; 501. a fourth support frame; 502. a fourth slide rail; 503. a fourth cylinder; 504. packing the movable seat; 505. bundling the belt machine; 506. a first guide means; 507. a second guide means; 5061. a parallel finger cylinder; 5062. a connecting plate; 5063. a guide plate; 5064. a guide groove; 61. a film drawing device; 62. a film pressing device; 63. a second jig driving device; 6101. a fifth support frame; 6102. a fifth slide rail; 6103. pulling the film movable seat; 6104. a first linear sliding table; 6105. a second linear sliding table; 6106. a swing frame; 6107. a suction nozzle; 6108. a compression roller; 6109. a fifth cylinder; 6201. a die fixing plate; 6202. a second rotating shaft; 6203. a second swing link; 6204. a second swing arm; 6205. a third swing arm; 6206. a die pressing roller; 6207. a cylinder block; 6208. a die pressing cylinder; 701. a blanking support frame; 702. a sixth cylinder; 703. a sixth slide rail; 704. a sixth movable seat; 705. a blanking lifting frame; 706. a seventh cylinder; 707. an eighth cylinder; 708. a blanking fixing seat; 709. a second tooth post; 7010. unloading arm lock.

Detailed Description

In order to facilitate an understanding of the invention, reference will now be made in detail to the present embodiments of the invention, examples of which are illustrated in the accompanying drawings. Preferred embodiments of the present invention are shown in the drawings. This invention may, however, be embodied in many different forms and should not be construed as limited to the embodiments set forth herein. Rather, these embodiments are provided so that this disclosure will be thorough and complete.

It will be understood that when an element is referred to as being "secured to" another element, it can be directly on the other element or intervening elements may also be present. When an element is referred to as being "connected" to another element, it can be directly connected to the other element or intervening elements may also be present. The terms "vertical," "horizontal," "left," "right," "front," "rear," and the like as used herein are for descriptive purposes only.

Unless defined otherwise, all technical and scientific terms used herein have the same meaning as commonly understood by one of ordinary skill in the art to which this invention belongs. The terminology used in the description of the invention herein is for the purpose of describing particular embodiments only and is not intended to be limiting of the invention.

As shown in fig. 1, an embodiment of the present invention is that the automated production equipment for the cross-linked polyethylene insulated power cable includes a workbench 1, and further includes a hollow rotary platform, a turntable 2, a fixing frame 3, a winding mechanism 4, a packing mechanism 5, a film coating mechanism 6, and a blanking mechanism 7, wherein the hollow rotary platform is disposed on the workbench 1, the turntable 2 is disposed at a working end of the hollow rotary platform, and a plurality of rotary jigs 8 are equally and rotatably disposed along a circumference of a top surface of the turntable 2, the fixing frame 3 is disposed on the workbench 1 through the hollow rotary platform, the winding mechanism 4, the packing mechanism 5, the film coating mechanism 6, and the blanking mechanism 7 are sequentially disposed on the workbench 1 along a circumference of the turntable 2, the winding mechanism 4 is configured to wind the cable on the rotary jigs 8, the packing mechanism 5 is configured to shape and bundle the cable, the film coating mechanism 6 is configured to externally coat the bundled cable, and the blanking mechanism 7 is configured to take out the cable on the rotary jigs 8 and send the cable to a station.

In this embodiment, the cavity rotary platform is installed in the middle of 1 top surface of workstation, the output at cavity rotary platform is installed to carousel 2, 1 bottom installation driving motor of workstation, driving motor drives the cavity rotary platform and rotates, mount 3 is located carousel 2 top, its bottom passes the middle part of cavity rotary platform and connects workstation 1, 2 top surfaces of carousel are provided with four rotary jig 8 along the circumference, winding mechanism 4, packing mechanism 5, capsule mechanism 6 and unloading mechanism 7 set gradually on workstation 1 around carousel 2, in operation, winding mechanism 4 twines the cable on rotary jig 8, packing mechanism 5 is used for tying up the shaping with the cable that twines, capsule mechanism 6 encapsulates the cable outside, unloading mechanism 7 takes out the cable from rotary jig 8, and put into the unloading station.

Preferably, as shown in fig. 2, the winding mechanism 4 includes a wire feeding device 41, a wire shearing device 42, a jig driving device 43, and a wire blocking device 44, the wire feeding device 41 is disposed on the workbench 1 corresponding to the rotary jig 8, and is used for fixing the end of the cable on the rotary jig 8, and uniformly arranging the cable on the rotary jig 8 when the jig rotates, the wire shearing device 42 is disposed between the rotary jig 8 and the wire feeding device 41, and is used for shearing the cable after winding, the jig driving device 43 is disposed on the workbench 1 below the turntable 2 corresponding to the rotary jig 8, and is used for driving the rotary jig 8 to rotate, and the wire blocking device 44 is disposed on the fixing frame 3 corresponding to the rotary jig 8, and is used for preventing the cable from deviating from the rotary jig 8.

Specifically, send traditional thread binding putting 41 to set up on workstation 1, tool drive arrangement 43 sets up on workstation 1 of rotatory tool 8 bottom, stop line device 44 sets up on workstation 1 at rotatory tool 8 top, trimming device 42 sets up on workstation 1 between rotatory tool 8 and send traditional thread binding putting 41, in operation, send traditional thread binding putting 41 to pull and fix the cable tip to rotatory tool 8, tool drive arrangement 43 drives rotatory tool 8 rotatory, twine the cable on rotatory tool 8, stop line device 44 presses at rotatory tool 8 top, prevent that the cable from deviating rotatory tool 8, trimming device 42 cuts the cable after the winding device work is accomplished.

Preferably, as shown in fig. 3, the wire feeding device 41 includes a support frame 4101, a lead screw sliding table 4102, a lifting frame 4103, a wire feeding pneumatic claw 4104, a wire feeding roller 4105 and a wire pulling assembly 45, the support frame 4101 is disposed on the work table 1, the lead screw sliding table 4102 is vertically disposed on the side wall of the support frame 4101 far away from one side of the turntable 2, the lifting frame 4103 is slidably disposed on the support frame 4101 far away from one side of the lead screw sliding table 4102, the working end of the lead screw sliding table 4102 is connected to the lifting frame 4103, the wire feeding pneumatic claw 4104 is disposed on the lifting frame 4103, the two wire feeding rollers 4105 are respectively disposed on the two working ends of the wire feeding pneumatic claw 4104, and the wire pulling assembly 45 is disposed on the lifting frame 4103 far away from one side of the wire feeding pneumatic claw 4104.

Specifically, the support frame 4101 is vertically arranged on the workbench 1, the lead screw sliding table 4102 is vertically arranged on the left side wall of the support frame 4101, the lifting frame 4103 is slidably arranged on the right side wall of the support frame 4101 through a sliding assembly, the working end of the lead screw sliding table 4102 is connected with the lifting frame 4103, the wire feeding air claw 4104 is arranged on the left side of the top surface of the lifting frame 4103, the two wire feeding rollers 4105 are respectively arranged at the two working ends of the wire feeding air claw 4104, the wire drawing assembly 45 is arranged on the right side of the top surface of the lifting frame 4103, during working, the lead screw sliding table 2 drives the lifting frame 4103 to move in the vertical direction and simultaneously drives the wire feeding air claw 4104 and the wire drawing assembly 45 to move vertically, the wire feeding air claw 4104 controls the distance between the two wire feeding rollers 4105, and is suitable for wire passing of cables with different thicknesses, and enables the cables to be uniformly wound on the rotary jig 8, and the end part of the wire drawing assembly 45, which is used for pulling the cable, is pulled towards the rotary jig 8 and fixed on the rotary jig 8.

Preferably, the wire drawing assembly 45 includes a first guide rail 4501, a first air cylinder 4502, a first slide 4503 and a finger air cylinder 4504, the first guide rail 4501 is disposed on the top surface of the lift 4103, the first slide 4503 is slidably disposed on the first guide rail 4501, the first air cylinder 4502 is disposed on the lift 4103 at one end of the first guide rail 4501, the working end of the first air cylinder is connected to the first slide 4503, the finger air cylinder 4504 is disposed on the side wall of the first slide 4503, and the two working ends of the first air cylinder are respectively provided with a wire drawing clamping jaw.

Specifically, the first guide rail 4501 is horizontally disposed on the front side of the top surface of the lifting frame 4103 in the left-right direction, the first slide block 4503 is slidably disposed on the first guide rail 4501, the first cylinder 4502 is disposed on the lifting frame 4103 at the left end of the first guide rail 4501, the working end of the first cylinder 4503 is connected to the first slide block 4503, the finger cylinder 4504 is disposed on the side wall of the first slide block 4503, during operation, the first cylinder 4502 drives the first slide block 4503 to horizontally move along the first guide rail 4501, the finger cylinder 4504 is driven to horizontally move, and the lead screw sliding table 4102 drives the finger cylinder 4504 to vertically move through the lifting frame 4103, so as to fix the end of the cable on the rotary jig 8.

Preferably, as shown in fig. 4, the thread trimming device 42 includes a second support frame 4201, a thread trimming cylinder 4202, a thread trimming seat 4203, two toothed columns 4204 and gears 4205, the second support frame 4201 is disposed on the table 1, the thread trimming seat 4203 is disposed on the second support frame 4201, the toothed columns 4204 vertically penetrate and are slidably disposed in the thread trimming seat 4203, two of the gears 4205 are rotatably disposed in the thread trimming seat 4203 on two sides of the toothed column 4204, clamping arms 4206 are disposed on tops of the two gears 4205, the two gears 4205 are engaged with the toothed columns 4204, the two clamping arms 4206 are disposed opposite to each other and are engaged with each other for cutting a cable, the thread trimming cylinder 4202 is disposed on the table 1 at a bottom end of the toothed column 4204, and a working end thereof is connected to the toothed column 4204.

Specifically, the second support frame 4201 is disposed on the workbench 1, the trimming seat 4203 is vertically disposed on the second support frame 4201, the tooth post 4204 is vertically penetrated and slidably disposed in the trimming seat 4203, the two gears 4205 are respectively disposed on two sides of the inside of the trimming seat 4203 in an opposing and rotating manner, the tops of the two gears 4205 are respectively provided with a matching clamping arm 4206, the tooth post 4204 is respectively disposed on two sides of the two gears 4205 in an opposing manner and is engaged with the two gears 4205, the trimming cylinder 4202 is vertically disposed on the workbench 1, and its working end is connected to the bottom end of the tooth post 4204, during operation, the trimming cylinder 4202 drives the tooth post 4204 to vertically slide in the trimming seat 4203, and the tooth post 4 respectively drives the two gears 4205 to rotate, so that the two clamping arms 4206 on the tops of the two gears 4205 engage to cut off the cable, and the trimming device 42 can adapt to trimming ranges with different distances by changing the length of the tooth post 4204, thereby saving space and being adaptable to various environments.

Preferably, the wire blocking device 44 includes a wire blocking fixing plate 4401, a wire blocking cylinder 4402, a wire blocking seat 4403 and a wire blocking disc 4404, the wire blocking fixing plate 4401 is arranged on the fixing frame 3, the wire blocking cylinder 4402 corresponds to the rotary jig 8 is arranged on the wire blocking fixing plate 4401, the wire blocking seat 4403 is arranged at the working end of the wire blocking cylinder 4402, and the wire blocking disc 4404 is rotatably arranged at the bottom end of the wire blocking seat 4403.

Specifically, the line blocking fixing plate 4401 is arranged at the top of the fixing frame 3, the line blocking cylinder 4402 is vertically and downwards arranged at the front end of the line blocking fixing plate 4401, the line blocking seat 4403 is arranged at the working end of the line blocking cylinder 4402, and the line blocking disc 4404 is rotatably arranged at the bottom end of the line blocking seat 4403. During operation, the wire blocking cylinder 4402 drives the wire blocking seat 4403 to move downwards, so that the bottom end of the wire blocking disc 4404 is pressed at the top end of the rotary jig 8, the wire blocking disc 4404 rotates along with the rotation of the rotary jig 8, and the winding device is enabled to prevent the cable from running out of the rotary jig 8 during wire arrangement.

Preferably, as shown in fig. 5, the rotating jig 8 includes a jig base 801, a rotating rod 802, a locking rod 803 and a winding jig 804, the jig base 801 is disposed on the turntable 2 in a penetrating manner, a side wall of the jig base 801 is radially provided with a locking hole 805 in a penetrating manner, the rotating rod 802 is provided with a locking hole 806 corresponding to the locking hole 805 in a penetrating manner, a first end of the locking rod 803 is slidably disposed in the locking hole 805, the other end of the locking rod is provided with a locking driving block 807, a reset base 808 is disposed at the middle of the locking rod, a return spring is disposed on the locking rod 803 between the reset base 808 and the jig base 801, a bottom end of the rotating rod 802 is radially provided with a clamping groove 810 in a penetrating manner, the winding jig 804 is disposed at the top end of the rotating rod 802, a limiting disc 811 is disposed at the bottom end of the winding jig 804, a plurality of through grooves 812 are radially disposed on the periphery of the winding jig 804, the through grooves 812 are used for the work of the winding mechanism 5, and facilitate the wire coil to be separated from the winding jig 804.

Specifically, a jig base 801 vertically penetrates through and is arranged on the turntable 2, a locking hole 806 is horizontally formed in the side wall of the jig base 801, the front end of a locking rod 803 is arranged in the locking hole 806 in a sliding mode, a locking driving block 807 is arranged at the rear end of the locking rod, a reset base 808 is arranged in the middle of the locking rod, a reset spring is sleeved on the locking rod 803 between the reset base 808 and the jig base 801, the front end of the reset spring is connected with the jig base 801, a clamping groove 810 is horizontally formed in the bottom end of a rotating rod 802, a winding jig 804 is arranged at the top end of the rotating rod 802, a limiting disc 811 is arranged at the bottom end of the winding jig 804 and is used for limiting cables in cooperation with a cable blocking disc 4404, a plurality of through grooves 812 are vertically formed in the peripheral side of the winding jig 804, further, a clamping groove is horizontally formed in the position of each through groove 811 corresponding to each through groove, the clamping groove is communicated with the corresponding through groove 812, the clamping groove is used for fixing the end of the cable, the front end of the locking rod 803 and is slidably connected with a locking hole 805, when locking is locked, the locking rod 803, the front end is inserted into the locking hole 806, and the locking rod 806, and the rotating rod is prevented from rotating rod 802 from rotating, and the reset spring is used for resetting.

Preferably, as shown in fig. 6-7, the jig driving device 43 includes a servo motor 4301, a third support frame 4302, a third cylinder 4303, a rotation base 4304, a rotation sleeve 4305, a driving rod 4306, a driving pin 4307, a driving sleeve 4308, a connecting rod 4309 and a jig locking assembly 431, where the rotation base 4304 corresponds to the rotation jig 8 and is disposed on the work table 1 in a penetrating manner, the rotation sleeve 4305 is rotatably disposed in the rotation base 4304, the driving rod 4306 is rotatably disposed in the rotation sleeve 4305 in a penetrating manner, two sliding slots 4310 are symmetrically disposed on a side wall of the rotation sleeve 4305 along an axial direction thereof, the driving pin 4307 is rotatably disposed on the driving rod 4306, two ends of the driving pin 4307 are slidably connected to two sliding slots 4310, the third support frame 4302 is disposed on a bottom surface of the work table 4301, the third cylinder 4303 is disposed on the third support frame 4302, a working end of the driving rod 4306 is rotatably connected to the driving rod 4306, the servo motor 4301 is disposed on a bottom surface of the work table 1 for driving the rotation of the rotation sleeve 4305, the driving rod 4308 is disposed on a vertical direction, the connection rod 4308 is disposed on the top end of the rotation base 4308, and the connection rod 4308 is disposed on the side of the rotation base 4301.

Specifically, roating seat 4304 corresponds 8 bottoms of rotatory tool and runs through and set up on workstation 1, swivel sleeve 4305 rotates and sets up in roating seat 4304, actuating lever 4306 runs through perpendicularly and rotates and set up in swivel sleeve 4305, two spout 4310 have been seted up along the vertical direction symmetry to the side wall of swivel sleeve 4305, the drive pin 4307 level runs through and sets up on actuating lever 4306, its both ends respectively with two spout 4310 sliding connection, third support frame 4302 sets up in workstation 1 bottom surface of roating seat 4304 bottom, third cylinder 4303 sets up perpendicularly upwards on third support frame 4302, its work end passes through the axle sleeve and rotates connection actuating lever 4306, servo motor 4301 sets up in workstation 1 bottom surface of third support frame 4302 one side, first synchronizing wheel is installed to its main shaft, the bottom end of swivel sleeve 4305 is provided with the second synchronizing wheel, first synchronizing wheel and second synchronizing wheel pass through the hold-in range connection, drive sleeve 4308 sets up perpendicularly in the drive lever 4306 top, connecting rod 4309 level sets up in drive sleeve draw-in the top, and with and the phase-match 810, and activity joint, tool locking device sets up in workstation 4301 one side of swivel seat 4304.

The during operation, servo motor 4301 drives swivel sleeve 4305 and rotates, swivel sleeve 4305 drives rotary rod 802 through spout 4310 and driving pin 4307 and rotates, thereby drive driving sleeve 4308 and rotate, third cylinder 4303 promotes actuating lever 4306 upward movement, driving pin 4307 then moves along spout 4310 upward, make connecting rod 4309 card on driving sleeve 4308 top go into in draw-in groove 810, thereby drive rotary rod 802 and rotate, this mechanism is in actuating lever 4306 pivoted, can the vertical motion, thereby drive the rotation of rotary rod 802, servo motor 4301 and third cylinder 4303 separate the setting, make tool drive mechanism's vertical direction length significantly reduce, adaptable different environment.

Preferably, as shown in fig. 8, the jig locking assembly 431 includes a locking support 4311, a locking slide rail 4312, a locking cylinder 4313, and a locking movable seat 4314, wherein the locking support 4311 is disposed on the workbench 1, the locking slide rail 4312 is disposed on a side wall of the locking support 4311, the locking movable seat 4314 is slidably disposed on the locking slide rail 4312, the locking cylinder 4313 is disposed on the locking support 4311 on one side of the locking slide rail 4312, a working end of the locking cylinder 4311 is connected to the locking movable seat 4314, the locking movable seat 4314 is provided with a locking slot 4315 corresponding to the locking rod 803, and the locking slot 4315 is matched with the locking driving block 807.

Specifically, the locking support 4311 is disposed on the workbench 1 below the rotating base 4304, the locking sliding rail 4312 is horizontally disposed on a side wall of the locking support 4311, the locking movable seat 4314 is slidably disposed on the locking sliding rail 4312, the locking cylinder 4313 is horizontally disposed on a side wall of the locking movable seat 4314 below the locking sliding rail 4312, a working end of the locking cylinder 4313 is connected to the locking movable seat 4314, a locking slot 4315 is disposed at a top end of the locking movable seat 4314, the locking slot 4315 is matched with the locking driving block 807, when the turntable 2 drives the rotating fixture 8 to rotate within a working range of the winding mechanism 4, the locking rod 803 is located in the locking slot 4315, the locking cylinder 4313 drives the locking movable seat 4314 to horizontally move along the locking sliding rail 4312, and pushes a front end of the locking rod 803 to be inserted into the locking hole 806, so as to fix the rotating rod 802.

Preferably, as shown in fig. 9, the packaging mechanism 5 includes a fourth support frame 501, a fourth slide rail 502, a fourth cylinder 503, a packaging movable seat 504, a belt bundling machine 505, a first guiding device 506 and a second guiding device 507, the fourth support frame 501 is disposed on the workbench 1, the fourth slide rail 502 is disposed on the top surface of the fourth support frame 501, the packaging movable seat 504 is slidably disposed on the fourth slide rail 502, the fourth cylinder 503 is disposed on the fourth support frame 501 far away from one end of the turntable 2, the working end of the fourth cylinder is connected to the packaging movable seat 504, the belt bundling machine 505 is disposed on the packaging movable seat 504, the first guiding device 506 is disposed on the top of the packaging movable seat 504, and the second guiding device corresponds to the first guiding device 506 disposed at the bottom of the packaging movable seat 504.

Specifically, fourth support frame 501 sets up on workstation 1, fourth slide rail 502 level sets up in fourth support frame 501 top surface, packing sliding seat 504 slides and sets up on fourth slide rail 502, fourth cylinder 503 sets up in fourth support frame 501 right side one end, packing sliding seat 504 is connected to its work end, it sets up on packing sliding seat 504 to prick tape unit 505, the work end that first guider 506 corresponds to prick tape unit 505 sets up in packing sliding seat 504 top, the work end that second guider 507 corresponds to prick tape unit 505 sets up in packing sliding seat 504 bottom, in operation, fourth cylinder 503 promotes packing sliding seat 504 along fourth slide rail 502 horizontal motion, first guider 506 and second guider 507 correspond the top and the below of tool seat 801 respectively, be used for to the ribbon direction.

Further, first guider 506 with second guider 507 structure is the same, first guider 506 includes parallel finger cylinder 5061, two work ends of parallel finger cylinder 5061 are provided with connecting plate 5062 respectively, two the connecting plate 5062 bottom all is provided with deflector 5063, two the opposite side of deflector 5063 is provided with assorted guide way 5064 respectively.

Specifically, the parallel finger cylinder 5061 is arranged at the top of the packing movable seat 504, two connecting plates 5062 are respectively arranged at two working ends of the parallel finger cylinder 5061, two connecting plates 5062 are respectively and oppositely arranged at the bottom ends of the two connecting plates 5063, inner side surfaces of the two guiding plates 5063 are respectively provided with matched guiding grooves 5064, in operation, the parallel finger cylinder 5061 drives the two guiding plates 5063 to move in a centering way through the two connecting plates 5062, the distance between the two guiding grooves 5064 is controlled, a ribbon of the ribbon binding machine 505 moves along the two guiding grooves 5064, the ribbon passes through the through groove 812 on the jig seat 801, enters and passes through the two guiding grooves 5064 of the second guiding device 507, and reaches the heat-sealing end of the ribbon binding machine 505 to form a closed loop, the cable is tightly bound, it can be understood that a packing jig driving mechanism is arranged below the packing mechanism 5 for driving the rotary jig 8 to rotate, and the structure of the packing driving mechanism is the same as that of the jig driving mechanism.

Preferably, as shown in fig. 10 to 11, the film wrapping mechanism 6 includes a film pulling device 61, a film pressing device 62 and a second jig driving device 63, the film pulling device 61 is disposed on the working platform 1, the film pressing device 62 is disposed on the fixed frame 3 corresponding to the film pulling mechanism, the second jig driving device 63 is disposed on the working platform 1 corresponding to the rotating jig 8, the film pulling device 61 includes a fifth support frame 6101, a fifth slide rail 6102, a film pulling movable seat 6103, a first linear slide table 6104, a second linear slide table 6105, a swing frame 6106, a suction nozzle 6107, a pressure roller 6108 and a fifth cylinder 6109, the fifth support frame 6101 is disposed on the working platform 1, the fifth slide rail 6102 is disposed on the fifth support frame 6101, the film pulling movable seat 6103 is slidably disposed on the fifth slide rail 6102, the first linear slide table 6104 is disposed on the fifth support frame, a working end of the fifth support frame is connected to the film pulling movable seat 6103, the second linear slide rail 6105 is disposed on one side of the swing frame 6106, and the other side of the swing frame 6106 is connected to the second swing frame 6106, and the second swing frame 6106 is connected to the swing frame 6106.

Specifically, the fifth supporting frame 6101 is disposed on the workbench 1, the fifth sliding rail 6102 is horizontally disposed on the top surface of the fifth supporting frame 6101 along the front-back direction, the membrane sliding seat 6103 is slidably disposed on the fifth sliding rail 6102, the first linear sliding table 6104 is horizontally disposed on the front side of the fifth supporting frame 6101, the working end of the first linear sliding table 6104 is connected to the membrane sliding seat 6103, the second linear sliding table 6105 is horizontally disposed on the rear side wall of the membrane sliding seat 6103, the middle portion of the swinging frame 6106 is rotatably disposed at the working end of the second linear sliding table 6105, the pressing roller 6108 is rotatably disposed at the rear end of the swinging frame 6106 close to the left side of the turntable 2, the suction nozzle 6107 is disposed at the front end of the left side of the swinging frame 6106, the fifth cylinder 6109 is horizontally disposed on the front wall of the membrane sliding seat 6103, and the working end of the fifth cylinder 6109 is connected to the swinging frame 6106.

In operation, the film drawing device 61 is used for sucking and attaching the packaging film to the cable on the fixture seat 801, the second fixture driving device 63 is used for driving the rotating fixture 8 to rotate, the die pressing device makes the packaging film and the cable be attached to the periphery, the first linear sliding table 6104 of the film drawing device 61 drives the film drawing movable seat 6103 to horizontally move along the fifth sliding rail 6102, so as to drive the second linear sliding table 6105 to move back and forth, the second linear sliding table 6105 drives the swinging frame 6106 to move left and right, the fifth cylinder 6109 drives the swinging frame 6106 to rotate, so as to drive the suction nozzle 6107 or the pressure roller 6108 to respectively approach or separate from the fixture seat 801, the suction nozzle 6107 is used for sucking the packaging film, the pressure roller 6108 is used for attaching the packaging film to the cable, it can be understood that the film supplying device is disposed on the rear side of the fifth supporting frame 6101.

Further, in order to make the moving range of the swinging rack 6106 more accurate, a second sliding slot 6111 is provided on the swinging rack 6106, a second pin is provided at the working end of the second linear sliding table 6105, the second pin is slidably connected to the second sliding slot 6111, and the second jig driving device 63 is identical to the jig driving mechanism in structure.

Preferably, as shown in fig. 12, the film pressing apparatus 62 includes a die fixing plate 6201, a second rotating shaft 6202, a second swing rod 6203, a second swing arm 6204, a third swing arm 6205, a die roller 6206, a cylinder base 6207, and a die cylinder 6208, where the die fixing plate 6201 is disposed on the fixing frame 6203, the second rotating shaft 6202 is rotatably disposed on the die fixing plate 6201, the second swing rod 6203 is disposed on the second rotating shaft 6202, the second swing arm 6204 is disposed on the second rotating shaft 6202 at a end of the die fixing plate 6201, the third swing arm 6205 is rotatably disposed on an end of the second rotating shaft 6202 away from the second swing arm 6204, the die roller 6206 is rotatably disposed on an end of the third swing arm 6205 away from the second swing arm 6204, a torsion spring is disposed between the third swing arm 6205 and the second swing arm 6204, the swing arm torsion spring is used for making an end of the third swing arm 6205, which mounts the die roller 6206, close to a side of the rotating die roller 6208 base 6203, the die fixing plate 6207 is disposed on the side of the fixing frame 6203, and the cylinder base 6207 is disposed on the fixing frame 6203, and the second swing arm 6203, and the cylinder base is abutted against the second swing arm 6203.

Specifically, the die fixing plate 6201 is horizontally disposed on the fixing frame 3, the second rotating shaft 6202 is vertically rotated and disposed at the right end of the die fixing plate 6201, the second swing rod 6203 is horizontally disposed at the middle of the second rotating shaft 6202, the second swing arm 6204 is disposed at the bottom end of the second rotating shaft 6202, the third swing arm 6205 is rotatably disposed at the outer end of the second swing arm 6204, the die roller 6206 is rotatably disposed at the outer end of the third swing arm 6205, the cylinder block 6207 is disposed on the die fixing plate 6201, the die cylinder 6208 is disposed on the cylinder block 6207, the working end of the die cylinder 6208 corresponds to the end of the second swing rod 6203, and the second swing rod 6203 is connected to the cylinder block 6207 through a spring.

During operation, the die pressing cylinder 6208 pushes the end of the second swing rod 6203 to swing, the second swing rod 6203 drives the second rotating shaft 6202 to rotate, the second rotating shaft 6202 drives the second swing arm 6204 to rotate, the second swing arm 6204 drives the third swing arm 6205 to rotate, so that the die pressing roller 6206 presses the periphery of the cable, the torsion spring enables the third swing arm 6205 to have elasticity, the distance between the die pressing roller 6206 and the periphery of the cable is adjustable, the wire coil is suitable for wire coils with different diameters, and the spring is used for resetting the second swing rod 6203.

Preferably, as shown in fig. 13, the blanking mechanism 7 includes a blanking support frame 701, a sixth cylinder 702, a sixth slide rail 703, a sixth movable seat 704, a blanking crane 705, a seventh cylinder 706, an eighth cylinder 707, a blanking fixing seat 708, a second rack 709, and a blanking clamp arm 7010, the blanking support frame 701 is disposed on the fixing frame 3, the sixth slide rail 703 is disposed on the blanking support frame 701, the sixth movable seat 704 is slidably disposed on the sixth slide rail 703, the sixth cylinder 702 is disposed at one end of the sixth slide rail 703 on the blanking support frame 701, a working end of the blanking support frame is connected to the sixth movable seat 704, the blanking crane 705 is slidably disposed on the sixth movable seat 704, the seventh cylinder 706 is disposed on the sixth movable seat 704, a working end of the blanking crane 705 is connected to the blanking crane, the eighth cylinder 707 is disposed at a working end of the eighth cylinder 707, and is slidably connected to the blanking fixing seat 704, the blanking crane 7010 is disposed at one end of each of the blanking clamp arm 7011, and each of the blanking clamp arm 7011 is engaged with each of the blanking clamp arm 7011, and each of the blanking clamp arm 7011 is disposed in each of the blanking crane 7011.

Specifically, the blanking support frame 701 is disposed on the fixed frame 3, the sixth slide rail 703 is horizontally disposed on the top surface of the blanking support frame 701, the sixth movable seat 704 is slidably disposed on the sixth slide rail 703, the sixth air cylinder 702 is disposed on the blanking support frame 701 at one end of the inner side of the sixth slide rail 703, the working end of the sixth air cylinder is connected to the sixth movable seat 704, the blanking crane 705 is vertically slidably disposed in the sixth movable seat 704, the seventh air cylinder 706 is vertically disposed at the top of the sixth movable seat 704, the working end of the seventh air cylinder is connected to the blanking crane 705, the eighth air cylinder 707 is vertically disposed at the bottom end of the blanking crane 705, the blanking fixing seat 708 is disposed at the bottom end of the eighth air cylinder 707, the second tooth post 709 is disposed at the working end of the eighth air cylinder 707, there are four blanking clamp arms 7010, the top of each blanking clamp arm 7010 is provided with a clamp arm gear 7011, the four clamp arm gears 7011 are respectively rotatably disposed in four directions around the inner side of the blanking fixing seat 708, the four clamp arm gears 7011 are respectively engaged with the second tooth post 709, and it can be understood that the second tooth clamp arm gears 7011 are respectively disposed corresponding to the four clamp arms.

During operation, the sixth air cylinder 702 pushes the sixth movable seat 704 to slide horizontally along the sixth slide rail 703, the seventh air cylinder 706 pushes the blanking lifting frame 705 to move vertically, the eighth air cylinder 707 pushes the second tooth 709 to move vertically along the blanking fixing seat 708, and the four blanking clamping arms 7010 are respectively driven by the four clamping arm gears 7011 to clamp or unclamp internally by the human tooth 4204.

The above features are combined with each other to form various embodiments not listed above, and all of them are regarded as the scope of the present invention described in the specification; also, modifications and variations may be suggested to those skilled in the art in light of the above teachings, and it is intended to cover all such modifications and variations as fall within the true spirit and scope of the invention as defined by the appended claims.

Claims (10)

1. The utility model provides an insulating power cable automated production equipment of crosslinked polyethylene, includes workstation (1), its characterized in that still includes cavity rotary platform, carousel (2), mount (3), winding mechanism (4), packagine machine construct (5), diolame mechanism (6) and unloading mechanism (7), cavity rotary platform set up in on workstation (1), carousel (2) set up in cavity rotary platform's work end rotates equally along its top surface week side and is provided with a plurality of rotary jig (8), mount (3) pass cavity rotary platform set up in on workstation (1), winding mechanism (4), packaging mechanism (5) diolame mechanism (6) with unloading mechanism (7) are followed in proper order carousel (2) week side set up in on workstation (1), winding mechanism (4) are used for twineing the cable on rotary jig (8), baling mechanism (5) are used for cable plastic and tie up, diolame mechanism (6) are used for tying up the good cable outside diolame mechanism (7), baiting mechanism (7) are used for taking out rotary jig (8) on the unloading and sending into the station.

2. The automatic production equipment of the crosslinked polyethylene insulated power cable according to claim 1, wherein the winding mechanism (4) comprises a wire feeding device (41), a wire shearing device (42), a jig driving device (43) and a wire blocking device (44), the wire feeding device (41) is arranged on the workbench (1) corresponding to the rotary jig (8) and used for fixing the end of the cable on the rotary jig (8) and uniformly arranging the cable on the rotary jig (8) when the jig rotates, the wire shearing device (42) is arranged between the rotary jig (8) and the wire feeding device (41) and used for shearing the cable after the winding is completed, the jig driving device (43) is arranged on the workbench (1) below the turntable (2) corresponding to the rotary jig (8) and used for driving the rotary jig (8) to rotate, and the wire blocking device (44) is arranged on the fixing frame (3) corresponding to the rotary jig (8) and used for preventing the cable from deviating from the rotary jig (8).

3. The automated production equipment for the crosslinked polyethylene insulated power cable according to claim 2, wherein the wire feeding device (41) comprises a support frame (4101), a lead screw sliding table (4102), a lifting frame (4103), wire feeding air claws (4104), wire feeding rollers (4105) and wire pulling assemblies (45), the support frame (4101) is arranged on the workbench (1), the lead screw sliding table (4102) is vertically arranged on the side wall of the support frame (4101) far away from one side of the turntable (2), the lifting frame (4103) is arranged on the support frame (4101) far away from one side of the lead screw sliding table (4102) in a sliding manner, the working end of the lead screw sliding table (4102) is connected with the lifting frame (4103), the wire feeding air claws (4104) are arranged on the lifting frame (4103), the wire feeding rollers (4105) are provided with two working ends which are respectively arranged on the wire feeding air claws (4104), and the wire pulling assemblies (45) are arranged on the lifting frame (4103) far away from one side of the wire feeding air claws (4104).

4. The automated production equipment of the crosslinked polyethylene insulated power cable according to claim 3, wherein the pulling wire assembly (45) comprises a first guide rail (4501), a first cylinder (4502), a first slide (4503) and a finger cylinder (4504), the first guide rail (4501) is arranged on the top surface of the lifting frame (4103), the first slide (4503) is arranged on the first guide rail (4501) in a sliding manner, the first cylinder (4502) is arranged on the lifting frame (4103) at one end of the first guide rail (4501), the working end of the first cylinder is connected with the first slide (4503), the finger cylinder (4504) is arranged on the side wall of the first slide (4503), and the two working ends of the first cylinder are respectively provided with a pulling wire clamping jaw.

5. The apparatus for automatically producing an insulated crosslinked polyethylene power cable according to claim 2, wherein the trimming device (42) comprises a second supporting frame (4201), a trimming cylinder (4202), a trimming socket (4203), a tooth post (4204) and a gear (4205), the second supporting frame (4201) is disposed on the worktable (1), the trimming socket (4203) is disposed on the second supporting frame (4201), the tooth post (4204) is vertically penetrated and slidably disposed in the trimming socket (4203), the gear (4205) has two arms (4206) rotatably disposed in the trimming socket (4203) on both sides of the tooth post (4204), the two gear (4205) is disposed on top of the two arms (4206), the two gears (4205) are respectively engaged with the tooth post (4204), the two arms (6) are disposed opposite to each other and engaged with each other for trimming the cable, the trimming cylinder (4202) is disposed on the bottom end of the trimming socket (4204) of the worktable (4204), and the wire (4204) is connected to the worktable (4204).

6. The automated production equipment for the crosslinked polyethylene insulated power cable according to claim 2, wherein the rotating jig (8) comprises a jig base (801), a rotating rod (802), a locking rod (803) and a winding jig (804), the jig base (801) is disposed on the rotating disc (2) in a penetrating manner, a locking hole (805) is disposed on a side wall of the jig base (801) in a penetrating manner along a radial direction of the jig base, a locking hole (806) is disposed on a side wall of the rotating rod (802) corresponding to the locking hole (805) in a penetrating manner, a first end of the locking rod (803) is slidably disposed in the locking hole (805), a locking driving block (807) is disposed at the other end of the locking rod, a resetting base (808) is disposed in a middle portion of the locking rod (803), a resetting spring is disposed on the locking rod (803) between the resetting base (808) and the jig base (801), a clamping groove is disposed on a bottom end of the rotating rod (802) in a penetrating manner along a radial direction of the rotating rod (802), a winding jig (804) is disposed on a bottom end of the winding jig (804), a limiting disc is disposed on a plurality of through grooves are disposed along a radial direction of the winding jig base, the winding jig (804), the through groove is used for wrapping mechanism (5) and facilitating separation of the winding jig from the winding coil (804).

7. The automatic production equipment of the cross-linked polyethylene insulated power cable according to claim 6, wherein the jig driving device (43) comprises a servo motor (4301), a third support frame (4302), a third cylinder (4303), a rotating base (4304), a rotating sleeve (4305), a driving rod (4306), a driving pin (4307), a driving sleeve (4308), a connecting rod (4309) and a jig locking device, wherein the rotating base (4304) is arranged on the working table (1) in a penetrating manner corresponding to the rotating jig (8), the rotating sleeve (4305) is rotatably arranged in the rotating base (4304), the driving rod (4306) is rotatably arranged in the rotating sleeve (4305), two sliding grooves are symmetrically arranged on the side wall of the rotating sleeve (4305) along the axial direction of the side wall, the driving pin (4307) is arranged on the driving rod (4306) in a penetrating manner, two ends of the driving rod are respectively connected with the two sliding grooves, the third support frame (4302) is arranged on the bottom surface of the working table (1), the third cylinder (4303) is arranged on the third cylinder (4302), the driving pin (4306) is arranged on the top end of the driving rod (4306) and is vertically connected to the driving rod (4306) for driving the rotating motor (4301), the driving rod (4306), and the driving rod (4306) is arranged on the top end of the rotating sleeve (4301), connecting rod (4309) level set up in drive sleeve (4308), connecting rod (4309) with draw-in groove activity joint, tool locking device set up in workstation (1) on one side of roating seat (4304) for lock rotatory tool (8).

8. The automatic production equipment of the cross-linked polyethylene insulated power cable according to claim 7, wherein the jig locking assembly (431) comprises a locking support frame (4311), a locking slide rail (4312), a locking cylinder (4313) and a locking movable seat (4314), the locking support frame (4311) is disposed on the workbench (1), the locking slide rail (4312) is disposed on a side wall of the locking support frame (4311), the locking movable seat (4314) is slidably disposed on the locking slide rail (4312), the locking cylinder (4313) is disposed on the locking support frame (4311) on one side of the locking slide rail (4312), a working end of the locking cylinder is connected to the locking movable seat (4314), the locking movable seat (4314) is provided with a locking slot (4315) corresponding to the locking rod (803), and the locking slot (4315) is matched with the locking driving block (807).

9. The automatic production equipment of the crosslinked polyethylene insulated power cable according to claim 1, wherein the packing mechanism (5) comprises a fourth support frame (501), a fourth slide rail (502), a fourth cylinder (503), a packing movable seat (504), a belt bundling machine (505), a first guide device (506) and a second guide device (507), the fourth support frame (501) is arranged on the workbench (1), the fourth slide rail (502) is arranged on the top surface of the fourth support frame (501), the packing movable seat (504) is arranged on the fourth slide rail (502) in a sliding manner, the fourth cylinder (503) is arranged on the fourth support frame (501) far away from one end of the turntable (2), the working end of the fourth cylinder is connected with the packing movable seat (504), the belt bundling machine (505) is arranged on the packing movable seat (504), the first guide device (506) is arranged on the top of the movable packing seat (504), and the second guide device (507) is arranged at the bottom of the packing movable seat (504) corresponding to the first guide device (506).

10. The automated production equipment for the cross-linked polyethylene insulated power cable according to claim 1, wherein the film wrapping mechanism (6) comprises a film pulling device (61), a film pressing device (62) and a second jig driving device (63), the film pulling device (61) is disposed on the workbench (1), the film pressing device is disposed on the fixed frame (3) corresponding to the film pulling mechanism, the second jig driving device (63) is disposed on the workbench (1) corresponding to the rotating jig (8), the film pulling device (61) comprises a fifth support frame (6101), a fifth slide rail (6102), a film pulling movable seat (6103), a first linear slide table (6104), a second linear slide table (6105), a swinging frame (6106), a suction nozzle (6107), a pressure roller (6108) and a fifth air cylinder (6109), the fifth support frame (6101) is disposed on the workbench (1), the fifth support frame (6102) is disposed on the fifth support frame (6101), the film pulling movable slide rail (6103) is disposed on one side of the second linear slide table (6105), the second slide table (6103) is disposed on one side of the second slide rail (6103), and the second slide rail (6103) is connected to the second slide table (6104), the swing frame (6106) is rotatably arranged at the working end of the second linear sliding table (6105), the pressure roller (6108) is rotatably arranged at one end of the swing frame (6106), the suction nozzle (6107) is arranged at the other end of the swing frame (6106), the fifth cylinder (6109) is arranged at the other side of the membrane pulling movable seat (6103), and the working end of the fifth cylinder is connected with the swing frame (6106).

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