阅读说明：本技术 一种用于麻花型芒刺极线的生产制造设备 (Production and manufacturing equipment for twist-type prickle polar line ) 是由 潘登 陈新华 王亮亮 李群柱 于 2020-12-10 设计创作，主要内容包括：本发明提供一种用于麻花型芒刺极线的生产制造设备,其包含平台框架组件、拧刺组件、端部调整组件、自动上丝组件和控制组件。每一个组件都属于一个独立的功能模块,可以代替人工完成一道工序或几道工序的操作,通过控制模块来协调每个部件之间的工作时序；操作工只需手动将用于极线制作的钢丝绳挂在设备的两端,装有特定规格钢丝的自动上丝组件,会将两根钢丝同时填入到拧刺部件中去,待拧刺部件将钢丝以麻花的形状拧在钢丝绳上后,平台框架组件将拧刺组件送入下一个位置,这时端部调整组件再把钢丝绳沿轴向旋转一定的角度,接着设备各组件重复填丝和拧刺着两道工序。如此不断的重复上诉操作,直至最终完成所有的工序后极线制作完成,操作工在手动取下极线。(The invention provides a production and manufacturing device for a flax-type barbed electrode wire, which comprises a platform frame assembly, a barbed assembly, an end adjusting assembly, an automatic wire feeding assembly and a control assembly. Each component belongs to an independent functional module, can replace manual work to finish the operation of one procedure or a plurality of procedures, and coordinates the working time sequence among each component through a control module; an operator only needs to manually hang the steel wire rope for polar line manufacturing at two ends of the equipment, the automatic wire feeding assembly with the steel wires of specific specifications can fill two steel wires into the twisting component at the same time, after the twisting component twists the steel wires on the steel wire rope in a twist shape, the platform frame assembly sends the twisting assembly to the next position, the end part adjusting assembly rotates the steel wire rope for a certain angle along the axial direction, and then each assembly of the equipment repeats two procedures of wire filling and twisting. And repeating the operation continuously until the polar line is manufactured after all the working procedures are finished finally, and manually taking down the polar line by an operator.)

1. A production and manufacturing device for twist type prickle polar lines is characterized by comprising a platform frame assembly (1), a prickle twisting assembly (2), an end adjusting assembly (3), an automatic wire feeding assembly (4) and a control assembly (5); the platform frame assembly is used for providing and limiting the horizontal movement of the bur screwing assembly and the automatic wire feeding assembly, and the bur screwing assembly is used for manufacturing burs on a bur polar line; the end adjusting assemblies are arranged at two ends of the platform frame part and are used for adjusting the angle position of the burr polar line; the automatic wire feeding assembly is used for providing a raw material for the sprint twisting assembly; the control assembly is used for controlling the movement tracks and directions of the platform frame assembly, the sprint screwing assembly, the end adjusting assembly and the automatic wire feeding assembly.

2. The manufacturing apparatus for twist-type barbed wire according to claim 1, wherein the twist-stab assembly and the automatic wire-feeding assembly are mounted at the middle section of the platform frame member for winding the steel wire in a twist form around the barbed wire.

3. The apparatus of claim 1, wherein the platform frame assembly is moved horizontally a distance slightly greater than the length of the barbed wire, the distance of horizontal movement of the platform frame assembly being set between 4.5 meters and 6.2 meters.

4. The manufacturing apparatus of claim 1, wherein the twisting assembly twists two cut steel wires with a predetermined length on the barbed wire in a twisted shape, and adjusts tightness of the twist steel thorn on the barbed wire.

5. The apparatus of claim 1, wherein the end adjustment assembly is configured to adjust an axial angle of the barbed wire.

6. The manufacturing equipment for twist-type pricker wire according to claim 1, wherein the automatic wire feeding assembly ejects the cut steel wire with a set length into the pricker screwing assembly through the air cylinder, and the pricker screwing assembly can return to the initial position when waiting for the pricker screwing assembly to start the pricker screwing assembly and can also return to the initial position, so that the pricker screwing assembly is ensured not to interfere with the pricker screwing assembly.

7. The manufacturing apparatus for twist-type barbed wire according to claim 1, wherein the control assembly further comprises power management for the manufacturing apparatus for twist-type barbed wire.

8. The production and manufacturing equipment for the twist-type barbed wire according to claim 3, wherein the platform frame assembly (1) comprises a frame, a guide rail, a rack, a gear, a horizontal carrier plate, a platform frame assembly motor and a speed reducer; when the platform frame assembly motor works, the gear rotates to drive the whole horizontal carrier plate to do horizontal square and linear motion on the frame under the action of the rack, and the motion interval of the horizontal carrier plate is determined according to the different lengths of the barbed electrode wires.

9. A device for producing and manufacturing twist-type barbed wire according to claim 3, wherein the end adjustment assemblies (3) are mounted at both ends of the frame of the platform frame assembly, one end adjustment assembly being mounted at each end, the distance between the two end adjustment assemblies being set between 5.2 m and 6.7 m.

10. The end adjustment assembly of claim 9, wherein the end adjustment assembly comprises a lower base plate, a slide member, a housing base, a housing member, an end adjustment assembly motor, a turntable, and a hanging post; the sliding part is fixed on the lower bottom plate, the box seat is connected with the sliding part, the box body part is installed on the box seat, the end part adjusting assembly motor and the rotary table are respectively installed on two sides of the box body part, the hanging column is fixed on the rotary table, and the end part adjusting assembly motor drives the rotary table to rotate after rotating and being transmitted by the box body part, so that the hanging column rotates; the rotation angle is controlled between plus and minus 120 degrees.

Technical Field

The invention belongs to the field of non-standard equipment manufacturing, and relates to production and manufacturing equipment for a twist-type prickle polar line, which is suitable for production and manufacturing of the twist-type prickle polar line.

Background

In the practical engineering application and operation of the electrostatic dust and coke removing device, the dust and coke removing device forms a corona closed phenomenon due to factors such as the dust concentration of flue gas in some engineering projects, the operation environment and the like; namely, the electric field near the cathode line is reduced to the initial value of corona, so that the corona current is greatly reduced and even tends to zero, and the electrostatic dust removal decoking device loses the dust removal and decoking effects. The problem that corona sealing is an urgent problem in the industry is solved.

Measures for improving and weakening corona sealing include: the dust concentration of the flue gas can be reduced; reducing the wind speed of the electric field; the corona wire is changed into a barbed wire which is easy to capture high-concentration dust, and the like. After the project of the dust and coke removing device is built, the parameters of the device are shaped, and large-scale upgrading and reconstruction are difficult to carry out to reduce the dust concentration of the flue gas due to the limitation of a field. Even if the condition is modified, huge investment is increased, for example, a pretreatment dust collector is added, the modification construction period is long, the investment return is not proportional, the modification effect cannot be well guaranteed, and therefore the scheme is rarely accepted by the market.

In order to solve the problems in the prior art, the applicant provides a corona closed cathode wire for electrostatic dust removal and decoking, which is applied to an electrostatic dust removal decoking device, not only solves the problem of corona closing, but also is a cathode wire with high efficiency and low input for improving current density. However, in the production and manufacturing field, no non-standard equipment for manufacturing the barbed wire is provided, and if the barbed wire is manufactured by manpower, the efficiency is low and the cost is very high.

Disclosure of Invention

In order to solve the problems in the prior art, the applicant provides a production and manufacturing device for a twist-type barbed wire, which is suitable for production and manufacturing of the twist-type barbed wire. The production and manufacturing equipment for the twisted barbed polar line solves the problem of manual manufacturing, is completely finished by the production and manufacturing equipment for the twisted barbed polar line from the loading of the barbed polar line, improves the efficiency and ensures the quality of products.

According to the technical scheme, the invention provides production and manufacturing equipment for a flax-type barbed wire, which comprises a platform frame assembly, a barbed assembly, an end adjusting assembly, an automatic wire feeding assembly and a control assembly; the platform frame assembly is used for providing and limiting horizontal movement of the bur screwing assembly and the automatic wire feeding assembly, and the bur screwing assembly is used for manufacturing burs on a bur polar line; the end adjusting assemblies are arranged at two ends of the platform frame part and are used for adjusting the angle position of the burr polar line; the automatic wire feeding assembly is used for providing a raw material for the sprint twisting assembly; the control assembly is used for controlling the movement tracks and directions of the platform frame assembly, the sprint screwing assembly, the end adjusting assembly and the automatic wire feeding assembly.

Wherein, twist thorn subassembly and automatic silk subassembly installation in platform frame part middle section for twine the steel wire on the pole line of prickle with the form of fried dough twist. The horizontal moving distance of the platform frame component is slightly longer than the length of the made prickle polar line, and the horizontal moving distance of the platform frame component is set between 4.5 meters and 6.2 meters. The twist assembly twists two cut steel wires with set length on the bur polar line in a twist shape and adjusts the tightness of the twist steel bur on the bur polar line. The end adjusting assembly is used for adjusting the axial angle of the burr pole wire. The automatic wire feeding assembly pushes the cut steel wire with the set length into the thorn screwing assembly through the air cylinder, the initial position can be returned when the thorn screwing assembly starts to screw the thorn, and interference with the thorn screwing assembly is avoided. The control assembly also includes power management for the production and manufacturing equipment of the hemp-type barbed wire. Preferably, the platform frame assembly comprises a frame, a guide rail, a rack, a gear, a horizontal carrier plate, a platform frame assembly motor and a speed reducer; when the platform frame assembly motor works, the gear rotates to drive the whole horizontal carrier plate to do horizontal square and linear motion on the frame under the action of the rack, and the motion interval of the horizontal carrier plate is determined according to the different lengths of the barbed electrode wires.

Preferably, the end adjustment assemblies are mounted at each end of the frame of the platform frame assembly, one end adjustment assembly at each end, the distance between the two end adjustment assemblies being set between 5.2 and 6.7 metres.

Furthermore, the end adjusting assembly comprises a lower bottom plate, a sliding part, a box seat, a box body part, an end adjusting assembly motor, a rotary table and a hanging column; the sliding part is fixed on the lower bottom plate, the box seat is connected with the sliding part, the box body part is installed on the box seat, the end part adjusting assembly motor and the rotary table are respectively installed on two sides of the box body part, the hanging column is fixed on the rotary table, and the end part adjusting assembly motor drives the rotary table to rotate after rotating and being transmitted by the box body part, so that the hanging column rotates; the rotation angle is controlled between plus and minus 120 degrees.

By using the production and manufacturing equipment for the twist type prickle polar line, an operator only needs to manually hang the steel wire rope for manufacturing the prickle polar line at two ends of the equipment, the automatic wire feeding assembly provided with the steel wires with specific specifications can simultaneously fill two steel wires into the prickle twisting component, after the prickle twisting component twists the steel wires on the steel wire rope in a twist shape, the platform frame component sends the prickle twisting component to the next position, the end part adjusting component rotates the steel wire rope for a certain angle along the axial direction, and then each component of the equipment repeats two processes of wire filling and prickle twisting. The operation is repeated continuously until all the procedures are finally completed, and an operator manually takes down the prickle polar line.

Compared with the prior art, the manufacturing method disclosed by the invention has the advantages that the problem from scratch is solved in the field of non-standard equipment for manufacturing the barbed polar line, and the production requirement of the barbed polar line matched with the manufacturing method can be met.

Drawings

Fig. 1 is a schematic view of a manufacturing apparatus for a barbed wire according to the present invention.

Fig. 2 is a schematic structural view of the platform frame assembly of fig. 1.

Fig. 3 is a schematic structural view of the automatic wire feeding assembly of fig. 1.

Fig. 4 is a schematic structural view of the end adjustment member in fig. 1.

Fig. 5 is a front view of the sprint assembly of fig. 1.

Fig. 6 is a side view of the structure of the sprint assembly of fig. 1.

The reference numbers in the drawings are as follows: the wire guide device comprises a platform frame assembly 1, a twisting assembly 2, an end adjusting assembly 3, an automatic wire feeding assembly 4, a control assembly 5, a frame 6, a guide rail 7, a rack 8, a gear 9, a horizontal carrier plate 10, a platform frame assembly motor 11, a speed reducer 12, a base 13, a wire guide cylinder seat 14, a wire box base 15, a cylinder 16, a wire pushing component 17, a wire box 18, a wire feeding sliding component 19, an automatic wire feeding assembly motor 20, a lower bottom plate 21, a sliding component 22, a box seat 23, a box body component 24, an end adjusting component motor 25, a turntable 26, a hanging column 27, a lower plate 28, a side plate 29, a guide rod 30, a left support plate 31, a right support plate 32, a driving gear 33, a driven gear 34, an end cover 35, a fixing pin 36, a pull rod 37, a middle support plate 38, a twisting assembly motor 39, a rotating block 40, a rotating pin 41, a.

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, not all embodiments. All other embodiments obtained by a person skilled in the art based on the embodiments in the patent of the invention without any inventive work belong to the protection scope of the patent of the invention.

The invention provides a production and manufacturing device for a flax-type barbed electrode wire, which comprises a platform frame assembly, a barbed assembly, an end adjusting assembly, an automatic wire feeding assembly and a control assembly. Each component belongs to an independent functional module, can replace manual work to finish the operation of one procedure or a plurality of procedures, and coordinates the working time sequence among each component through a control module; an operator only needs to manually hang the steel wire rope for polar line manufacturing at two ends of the equipment, the automatic wire feeding assembly with the steel wires of specific specifications can fill two steel wires into the twisting component at the same time, after the twisting component twists the steel wires on the steel wire rope in a twist shape, the platform frame assembly sends the twisting assembly to the next position, the end part adjusting assembly rotates the steel wire rope for a certain angle along the axial direction, and then each assembly of the equipment repeats two procedures of wire filling and twisting. And repeating the operation continuously until the polar line is manufactured after all the working procedures are finished finally, and manually taking down the polar line by an operator.

Furthermore, the production and manufacturing equipment for the twist-type prickle polar line comprises a platform frame assembly, a prickle screwing assembly, an end adjusting assembly, an automatic wire feeding assembly and a control assembly; the functions and purposes of the components are as follows: the platform frame assembly is used for providing and limiting horizontal movement of the bur screwing assembly and the automatic wire feeding assembly, and the bur screwing assembly is used for manufacturing burs on a bur polar line; the end adjusting assemblies are arranged at two ends of the platform frame part and are used for adjusting the angle position of the burr polar line; the automatic wire feeding assembly is used for providing a raw material for the sprint twisting assembly; the control assembly is used for controlling the movement tracks and directions of the platform frame assembly, the sprint screwing assembly, the end adjusting assembly and the automatic wire feeding assembly.

Wherein, twist thorn subassembly and automatic silk subassembly installation in platform frame part middle section for twine the steel wire on the pole line of prickle with the form of fried dough twist. The horizontal moving distance of the platform frame component is slightly longer than the length of the made prickle polar line, and the horizontal moving distance of the platform frame component is set between 4.5 meters and 6.2 meters. The twist assembly twists two cut steel wires with set length on the bur polar line in a twist shape and adjusts the tightness of the twist steel bur on the bur polar line. The end adjusting assembly is used for adjusting the axial angle of the burr pole wire. The automatic wire feeding assembly pushes the cut steel wire with the set length into the thorn screwing assembly through the air cylinder, the initial position can be returned when the thorn screwing assembly starts to screw the thorn, and interference with the thorn screwing assembly is avoided. The control assembly also includes power management for the production and manufacturing equipment of the hemp-type barbed wire. Preferably, the platform frame assembly comprises a frame, a guide rail, a rack, a gear, a horizontal carrier plate, a platform frame assembly motor and a speed reducer; when the platform frame assembly motor works, the gear rotates to drive the whole horizontal carrier plate to do horizontal square and linear motion on the frame under the action of the rack, and the motion interval of the horizontal carrier plate is determined according to the different lengths of the barbed electrode wires.

Preferably, the end adjustment assemblies are mounted at each end of the frame of the platform frame assembly, one end adjustment assembly at each end, the distance between the two end adjustment assemblies being set between 5.2 and 6.7 metres.

Furthermore, the end adjusting assembly comprises a lower bottom plate, a sliding part, a box seat, a box body part, an end adjusting assembly motor, a rotary table and a hanging column; the sliding part is fixed on the lower bottom plate, the box seat is connected with the sliding part, the box body part is installed on the box seat, the end part adjusting assembly motor and the rotary table are respectively installed on two sides of the box body part, the hanging column is fixed on the rotary table, and the end part adjusting assembly motor drives the rotary table to rotate after rotating and being transmitted by the box body part, so that the hanging column rotates; the rotation angle is controlled between plus and minus 120 degrees.

Furthermore, the thorn twisting assembly comprises a lower plate, side plates are fixed at two ends of the lower plate, two guide rods are arranged between the two side plates, a left support plate and a right support plate are arranged on the guide rods and can axially slide along the guide rods, a driving gear and a driven gear are respectively arranged at corresponding positions of the left support plate and the right support plate and are pressed tightly by end covers, a fixing pin is arranged on the driving gear, and one end of a pull rod is sleeved on the fixing pin. The middle support plate is fixed on the lower plate, the motor is installed on the middle support plate, the rotating block is installed at the output end of the motor, rotating pins are sleeved at two ends of the rotating block and are respectively inserted into the left support plate and the right support plate, the motor rotates back and forth to drive the rotating block to rotate back and forth, and the left support plate and the right support plate are driven to move in an opening and closing mode by taking the motor shaft as the center under the action of the rotating pins. The cylinder is installed on well extension board, and the ejector pad is installed to the cylinder output, and the cover has horizontal pull rod on the ejector pad, and the one end of two pull rods overlaps respectively at the both ends of horizontal pull rod, and the cylinder work drives horizontal pull rod work, drives the driving gear through the effect of pull rod and rotates, because the position longitudinal symmetry of two driving gear erection fixed pins, so two driving gears rotate to two opposite directions respectively when the pull rod pulling, and two passive teeth with driving gear complex also rotate to opposite direction.

In the invention, each component in the production and manufacturing equipment for the twist-type prickle polar wire belongs to an independent functional module, so that the operation of one or more processes can be replaced, and the working time sequence of each component can be coordinated through a control module. An operator only needs to manually hang the steel wire rope for manufacturing the bur polar line at two ends of the equipment, the automatic wire feeding assembly with the steel wires of specific specifications can fill two steel wires into the bur twisting component at the same time, after the bur twisting component twists the steel wires on the steel wire rope in a twist shape, the platform frame component sends the bur twisting assembly into the next position, the end part adjusting assembly rotates the steel wire rope for a certain angle along the axial direction at the moment, and then each component of the equipment repeats two procedures of wire filling and bur twisting. The operation is repeated continuously until all the procedures are finally completed, and an operator manually takes down the prickle polar line.

The following describes the production and manufacturing equipment for twist-type barbed wire according to the present invention in further detail with reference to the accompanying drawings.

As shown in fig. 1, the production and manufacturing equipment for the bur polar line comprises a platform frame component 1, a bur twisting component 2, an end part adjusting component 3, an automatic wire feeding component 4 and a control component 5, wherein the end part adjusting component 3 is arranged at two ends of the platform frame component 1 and is used for adjusting the angle position of the bur polar line; the bur twisting component 2 and the automatic wire feeding component 4 are arranged at the middle section of the platform frame component and are used for winding steel wires on the bur polar line in a twist form. The control assembly 5 is installed at the left end of the platform frame assembly 1, is connected with other assemblies (the platform frame assembly 1, the thorn twisting assembly 2, the end adjusting assembly 3 and the automatic wire feeding assembly 4) through a power cable and a signal cable, is used for controlling the actions of the other assemblies (the platform frame assembly 1, the thorn twisting assembly 2, the end adjusting assembly 3 and the automatic wire feeding assembly 4) and is used for power management of the whole production and manufacturing equipment for twist type prickle polar wires.

Fig. 2 is a schematic structural diagram of the platform frame assembly in fig. 1, the platform frame assembly in fig. 2 includes a frame 6, guide rails 7, a rack 8, a gear 9, a horizontal carrier plate 10, a platform frame assembly motor 11, and a speed reducer 12, the frame 6 is formed by connecting a plurality of aluminum profiles through corner pieces, the rack 8 and the guide rails 7 are installed on the frame 6, the rack 8 is located between the two guide rails 7, the horizontal carrier plate 10 is connected with the guide rails 7 through sliders, the platform frame assembly motor 11 equipped with the speed reducer 12 is fixed on the horizontal carrier plate 10, and the gear 9 is installed at the output end of a motor shaft and is meshed with the rack 8. When the platform frame component motor 11 works, the gear 9 rotates, the whole horizontal carrier plate 10 is driven to do linear motion in the horizontal direction under the action of the rack 8, and the motion interval of the horizontal carrier plate 10 is determined according to the different lengths of the barbed wire, and is generally controlled to be between 4.5 meters and 6.2 meters.

Fig. 3 is a schematic structural view of the automatic wire feeding assembly in fig. 1, the automatic wire feeding assembly in fig. 3 is mounted on the horizontal carrier plate 10 in fig. 2, the automatic wire feeding assembly includes a base 13, a wire guide cylinder seat 14 and a wire box base 15 are mounted on the upper surface of the base 13, a cylinder 16 and a wire pushing component 17 are fixed on the wire guide cylinder seat 14, a wire box 18 is mounted on the wire box base 15, and the wire pushing component 17 can push out a steel wire for screw-stabbing in the wire box 18; the lower surface of the base 13 is provided with a wire feeding sliding part 19, one end of the wire feeding sliding part 19 is provided with an automatic wire feeding assembly motor 20, the sliding part 19 drives the base 13 and all parts arranged on the base to do linear motion when the automatic wire feeding assembly motor 20 works, and when a wire box 18 on the base moves to a specified position, the air cylinder 16 starts to drive the wire pushing part 17 to push and fill wires in the wire box 18 into the wire twisting assembly 2. When a motor in the automatic wire feeding assembly moves a wire box to a designated position, the air cylinder pushes the wire pushing component to push and fill two steel wires in the wire box into the wire twisting assembly at the same time, and the pushing stroke is generally required to be controlled between 20 mm and 70 mm.

FIG. 4 is a schematic view of the end adjustment assembly of FIG. 1, with the end adjustment assemblies of FIG. 4 mounted at opposite ends of the frame 6 of FIG. 2, one end adjustment assembly at each end of the frame 6; the positions of the end parts on the two ends of the frame can be properly adjusted according to the length of the manufactured barbed polar line; preferably, the spacing between the two end adjustment members is controlled to be between 5.2 and 6.7 meters. The end adjusting component comprises a lower bottom plate 21, a sliding component 22, a box seat 23, a box body component 24, an end adjusting component motor 25, a rotary table 26 and a hanging column 27; the sliding part 22 is fixed on the lower bottom plate 21, the box base 23 is connected with the sliding part 22, the box body part 24 is installed on the box base 23, the end adjusting part motor 25 and the rotary table 26 are respectively installed on two sides of the box body part 24, the hanging column 27 is fixed on the rotary table 26, the end adjusting part motor 25 rotates and drives the rotary table 26 to rotate after being transmitted by the box body part 24, and therefore the hanging column 27 rotates; the rotation angle is controlled between plus and minus 120 degrees.

Fig. 5 is a front view of the sprint assembly of fig. 1, fig. 6 is a side view of the structure of the sprint assembly of fig. 1, as shown in fig. 5 and 6, the sprint assembly is mounted on the horizontal carrier plate of fig. 4, the sprint assembly includes a lower plate 28, side plates 29 are fixed on both ends of the lower plate 28, two guide rods 30 are mounted between the two side plates 29, a left support plate 31 and a right support plate 32 are mounted on the guide rods 30 and can slide axially along the guide rods 30, a driving gear 33 and a driven gear 34 are respectively mounted on the corresponding positions of the left support plate and the right support plate, the two gears are pressed by an end cap 35, a fixing pin 36 is mounted on the driving gear 33, and one end of a pull. The middle support plate 38 is fixed on the lower plate 28, the thorn twisting component motor 39 is installed on the middle support plate 38, the rotating block 40 is installed at the output end of the thorn twisting component motor, rotating pins 41 are sleeved at two ends of the rotating block 40, the rotating pins 41 are respectively inserted into the left support plate 31 and the right support plate 32, the thorn twisting component motor 39 rotates back and forth to drive the rotating block 40 to rotate back and forth, and the left support plate 31 and the right support plate 32 are driven to move open and close by taking a thorn twisting component motor shaft as a center under the action of the rotating pins 41. The air cylinder 42 is installed on the middle support plate 38, the push block 42 is installed at the output end of the air cylinder, the transverse pull rod 43 is sleeved on the push block 42, the pull rod 37 is respectively sleeved at each of two ends of the transverse pull rod 43, the air cylinder 42 works to drive the transverse pull rod 43 to work, the driving gears are driven to rotate under the action of the pull rods, and the positions of the two driving gear installation fixing pins are vertically symmetrical, so that the two driving gears 33 respectively rotate in two opposite directions when the pull rods 37 are pulled, and the two driven gears 34 matched with the driving gears 33 also rotate in the opposite directions. In actual work, two steel wires are simultaneously inserted into the driven gear 34, when the two driven gears move in opposite directions, the two steel wires are twisted into a twisted shape and locked on the steel wire rope, and then the thorn twisting assembly motor 39 opens the left support plate 31 and the right support plate 32, so that the twisted steel wires are separated from the current position.

The invention discloses a production device of a burr polar line, which comprises the following working steps:

step S1, adjusting the position of the end component on the frame component according to the length of the produced prickle polar line;

step S2, hanging the barbed wires on the hanging columns of the two end assemblies;

step S3, starting the thorn twisting work, firstly moving the horizontal carrier plate in the platform frame component to the starting point position, then starting the work of the automatic wire feeding component motor, moving the wire box to the designated position, starting the cylinder to drive the wire pushing component, and simultaneously pushing and filling two steel wires in the wire box into the wire twisting component;

step S4, when two steel wires enter the process of the thorn twisting component, the two steel wires penetrate into the left driven gear and the right driven gear and are left in the driven gears, then the air cylinder in the thorn twisting component starts to work to drive the two driving gears to rotate oppositely, the driven gears matched with the driving gears also rotate oppositely, and therefore the steel wires inserted into the driven gears are twisted into a twist shape;

step S5, the motor of the thorn twisting component starts working, and the left and right support plates are opened along the horizontal direction;

step S6, starting the operation of the platform frame component motor to drive the horizontal carrier plate to move to the next position;

step S7, then the motor of the thorn twisting component rotates reversely to fold the left and right support plates along the horizontal direction;

step S8, the motor of the end adjusting assembly rotates 90 degrees at the moment, and drives the turntable to rotate the hanging column 90 degrees;

and step S9, completing a twist thorn action cycle until the step, and repeating the operations in the following steps, namely repeating the steps S1-S8 until the prickle needed by the whole prickle polar line is finished.

In summary, the above description is only a preferred embodiment of the present invention, and is not intended to limit the scope of the present invention. Any modification, equivalent replacement, or improvement made within the spirit and principle of the present invention should be included in the protection scope of the present invention.