CN209947534U - Double-concave wire forming device for copper-aluminum flat wire - Google Patents

Abstract

The utility model discloses a copper-aluminum flat wire double-concave wire forming device, which comprises a frame, wherein one side of the frame is provided with an unwinding wheel, the outer end of the unwinding wheel is provided with a driven wheel, the axial positions of the unwinding wheel and the driven wheel are provided with an installation shaft, and the installation shaft is installed on the frame; a winding wheel is arranged on the other side of the rack, a driving wheel is arranged at the outer end of the winding wheel, a stepping motor is arranged at the side part of the rack, a driving shaft is arranged at the front part of the stepping motor, and the driving shaft is arranged at the axial position of the winding wheel and the driving wheel; a transmission belt is wound between the driven wheel and the driving wheel; a copper-aluminum flat wire is wound between the unwinding wheel and the winding wheel; the interior bottom of frame is equipped with the frame, and the interior top of frame is equipped with double-concave line forming mechanism, and double-concave line forming mechanism includes the pneumatic cylinder, and the lower part of pneumatic cylinder is equipped with the piston rod, and the lower extreme of piston rod is equipped with the lift shell, and the interior bottom of lift shell is equipped with first electric heat metal sheet. The utility model discloses the efficiency of forming two concave lines at the top surface of copper aluminium flat wire has been improved greatly.

Description

Double-concave wire forming device for copper-aluminum flat wire

Technical Field

The utility model relates to a biconcave line forming device, in particular to copper aluminium flat wire biconcave line forming device.

Background

The bare wire is the most basic product in wire and cable products, one part of the bare wire can be used as a conducting wire of a wire and cable, the other part of the bare wire can be used as a component in equipment such as a motor, an electric appliance, a transformer and the like, the bare wire can be directly used for transmitting electric energy and information in departments of electric power, communication, transportation and the like, the bare wire has good electric conductivity and physical and mechanical properties, the bare stranded wire is divided into simple stranded wires, combined stranded wires, special stranded wires, compound stranded wires, braided sleeves and the like according to the structural form, molded wires and sections with special shapes or large cross sections are conductor wires with different shapes and not circular shapes, but products with larger length are called sections according to the application, the bare wire is divided into three types, ① is used as a large-current bus, the wire is also called a copper bus bar and an aluminum bar, the shape is mostly flat, the hollow rectangular and semi-bow-shaped, the wire is used for transmitting large-capacity current in power plants, substations, is used in switch cabinets, insulation contact nets with insulating layers, contact wires with large-wire heads, special-shaped wires, contact wires with good resistance and wear-resistant contact wires, and the use of copper wire bars for railway vehicles, contact wires of railway vehicles, and special-shaped railway vehicles with good electrical property, and special-shaped copper-shaped wires.

SUMMERY OF THE UTILITY MODEL

The utility model mainly solves the technical problems in the prior art, thereby providing a copper-aluminum flat wire which is fully electrically heated, the top surface of the copper-aluminum flat wire is pressed downwards by the concave wire forming part, and two grooves are formed on the top surface of the copper-aluminum flat wire; the double concave wire forming device of the copper-aluminum flat wire greatly improves the efficiency of forming two concave wires on the top surface of the copper-aluminum flat wire.

The above technical problem of the present invention can be solved by the following technical solutions:

a copper-aluminum flat wire double-concave wire forming device comprises a rack, wherein one side of the rack is provided with an unwinding wheel, the outer end of the unwinding wheel is provided with a driven wheel, the axial positions of the unwinding wheel and the driven wheel are provided with mounting shafts, and the mounting shafts are mounted on the rack; a winding wheel is arranged on the other side of the rack, a driving wheel is arranged at the outer end of the winding wheel, a stepping motor is arranged at the side part of the rack, a driving shaft is arranged at the front part of the stepping motor, and the driving shaft is arranged at the axial position of the winding wheel and the driving wheel; a transmission belt is wound between the driven wheel and the driving wheel; a copper-aluminum flat wire is wound between the unwinding wheel and the winding wheel; the inner bottom of the frame is provided with a frame, and a transmission belt passes through the middle position of the frame; a double-concave line forming mechanism is arranged at the inner top of the rack and comprises a hydraulic cylinder, a piston rod is arranged at the lower part of the hydraulic cylinder, a lifting shell is arranged at the lower end of the piston rod, a first electric heating metal plate is arranged at the inner bottom of the lifting shell, an electric heating wire is wound on a plate body of the first electric heating metal plate, a first temperature controller is arranged on the lifting shell, and the first temperature controller is electrically connected with the electric heating wire; the bottom of the first electric heating metal plate is provided with a pair of concave line forming parts, and the concave line forming parts are arranged above the frame.

Further, the concave line forming part comprises a forming part main body, a convex part is arranged at the lower part of the forming part main body, the cross section of the convex part is in a parabolic shape, and the convex part is installed above the frame.

Further, the frame is installed on the saddle, and the bottom both sides of saddle all are equipped with the installation axle, and the both ends of installation axle all are equipped with the universal wheel, and the interior bottom position in the frame is installed to the universal wheel.

Furthermore, the frame comprises a frame body, a second electric heating metal plate is arranged on the top surface of the frame body, a second temperature controller is arranged on the side part of the frame body, and the second temperature controller is electrically connected with the second electric heating metal plate; the first electric heating metal plate is arranged above the second electric heating metal plate.

Furthermore, an open cavity is formed in the middle side of the frame body, a first static removing brush is arranged at the inner top of the open cavity, the upper portion of the transmission belt penetrates between the first static removing brush and the inner top of the open cavity, a second static removing brush is arranged at the inner bottom of the open cavity, and the lower portion of the transmission belt penetrates between the second static removing brush and the inner bottom of the open cavity; a butt joint column is arranged between the first static electricity removing brush and the second static electricity removing brush, a side pipe is arranged on the side portion of the butt joint column, and the side pipe is installed on the side portion of the vehicle frame body.

Further, the first static removing brush, the second static removing brush and the butt joint column are arranged in an I shape.

Furthermore, a guide pipe is arranged at the side part of the frame body, a moving shaft is sleeved in the guide pipe, an operating ring is arranged at the outer end of the moving shaft, and the inner end of the moving shaft is connected with the side pipe.

Further, the diameter of the operating ring is larger than the pipe diameter of the guide pipe.

Furthermore, both sides of the rack are provided with positioning cylinders, and the end of the mounting shaft is mounted in the positioning cylinders.

Furthermore, a positioning pipe is arranged at the inner side of the frame, and the end part of the driving shaft is arranged in the positioning pipe.

By adopting the copper-aluminum flat wire double-concave wire forming device adopting the technical scheme, the unwinding wheel unwinds the copper-aluminum flat wire, the winding wheel winds the copper-aluminum flat wire, the stepping motor controls the winding wheel and the driving wheel to rotate through the driving shaft, and the driving wheel drives the driven wheel to rotate through the transmission belt, so that the driving wheel can wind the copper-aluminum flat wire more conveniently; the copper-aluminum flat wire passes between the first electric heating metal plate and the second electric heating metal plate, the second temperature controller controls the second electric heating metal plate to realize electric heating, the copper-aluminum flat wire can be conveniently heated by the second electric heating metal plate, particularly the bottom surface of the second electric heating metal plate is heated, the hydraulic cylinder controls the lifting shell to realize vertical lifting adjustment by the piston rod, the lifting shell descends to drive the first electric heating metal plate to descend, so that the first electric heating metal plate descends to the top surface of the copper-aluminum flat wire, the concave wire forming part of the first electric heating metal plate is tightly pressed on the top surface of the copper-aluminum flat wire, the first temperature controller controls the electric heating wire to realize electric heating, the electric heating wire electrically heats the first electric heating metal plate, the first electric heating metal plate electrically heats the top surface of the copper-aluminum flat wire, and the first electric heating metal plate and the second electric heating metal plate fully electrically heat the copper-aluminum flat wire, heating the copper-aluminum flat wire; the top surface of the copper-aluminum flat wire is pressed downwards through the concave wire forming part, and two grooves are formed on the top surface of the copper-aluminum flat wire; the stepping motor controls the driving wheel to rotate through the driving shaft, and the copper-aluminum flat wire is more conveniently wound through the driving wheel; the efficiency of forming two concave lines on the top surface of the copper-aluminum flat wire is greatly improved.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below, it is obvious that the drawings in the following description are only some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to these drawings without creative efforts.

Fig. 1 is a schematic structural view of the copper-aluminum flat wire double-concave wire forming device of the present invention.

Fig. 2 is a schematic structural view of the double-concave line forming mechanism of the present invention.

Fig. 3 is a schematic structural view of the frame of the present invention.

Fig. 4 is a schematic structural view of the lifting shell of the present invention.

Fig. 5 is a schematic structural view of the concave line forming part of the present invention.

Detailed Description

The preferred embodiments of the present invention will be described in detail below with reference to the accompanying drawings, so that the advantages and features of the present invention can be more easily understood by those skilled in the art, and the scope of the present invention can be more clearly and clearly defined.

As shown in fig. 1 to 5, a copper-aluminum flat wire double-concave wire forming device comprises a frame 1, wherein one side of the frame 1 is provided with an unwinding wheel 2, the outer end of the unwinding wheel 2 is provided with a driven wheel 3, the axial positions of the unwinding wheel 2 and the driven wheel 3 are provided with a mounting shaft 4, and the mounting shaft 4 is mounted on the frame 1; a winding wheel 6 is arranged on the other side of the rack 1, a driving wheel 7 is arranged at the outer end of the winding wheel 6, a stepping motor 9 is arranged at the side part of the rack 1, a driving shaft 10 is arranged at the front part of the stepping motor 9, and the driving shaft 10 is arranged at the axial position of the winding wheel 6 and the driving wheel 7; a transmission belt 8 is wound between the driven wheel 3 and the driving wheel 7; a copper-aluminum flat wire 12 is wound between the unreeling wheel 2 and the reeling wheel 6; the inner bottom of the frame 1 is provided with a frame 15, and the transmission belt 8 passes through the middle position of the frame 15; a double concave line forming mechanism 13 is arranged at the inner top of the rack 1, the double concave line forming mechanism 13 comprises a hydraulic cylinder 19, a piston rod 20 is arranged at the lower part of the hydraulic cylinder 19, a lifting shell 18 is arranged at the lower end of the piston rod 20, a first electric heating metal plate 21 is arranged at the inner bottom of the lifting shell 18, an electric heating wire 22 is wound on the plate body of the first electric heating metal plate 21, a first temperature controller 23 is arranged on the lifting shell 18, and the first temperature controller 23 is electrically connected with the electric heating wire 22; the bottom of the first electric heating metal plate 21 is provided with a pair of concave line forming parts 35, and the concave line forming parts 35 are installed above the frame 15.

The utility model discloses two concave line forming device of copper aluminium flat wire, unreel wheel 2 and unreel copper aluminium flat wire 12, and wind-up wheel 6 rolls copper aluminium flat wire 12, and step motor 9 realizes rotating through drive shaft 10 control wind-up wheel 6 and action wheel 7, and action wheel 7 drives driven wheel 3 through driving belt 8 and realizes rotating to can make action wheel 7 roll up copper aluminium flat wire more conveniently; the copper-aluminum flat wire passes between a first electric heating metal plate 21 and a second electric heating metal plate 25, a second temperature controller 26 controls the second electric heating metal plate 25 to realize electric heating, the copper-aluminum flat wire can be conveniently heated by the second electric heating metal plate 25, particularly the bottom surface of the second electric heating metal plate 25, a hydraulic cylinder 19 controls a lifting shell 18 to realize vertical lifting adjustment by a piston rod 20, the lifting shell 18 descends to drive the first electric heating metal plate 21 to descend, so that the first electric heating metal plate 21 descends to the top surface of the copper-aluminum flat wire, a concave wire forming part 35 of the first electric heating metal plate 21 is tightly pressed on the top surface of the copper-aluminum flat wire, the first temperature controller 23 controls an electric heating wire 22 to realize electric heating, the electric heating wire 22 electrically heats the first electric heating metal plate 21, the first electric heating metal plate 21 electrically heats the top surface of the copper-aluminum flat wire, and the first electric heating metal plate 21 and the second electric heating metal plate 25 fully electrically heat the copper-aluminum flat wire, heating the copper-aluminum flat wire; the top surface of the copper-aluminum flat wire is pressed downwards through the concave wire forming part 35, and two grooves are formed on the top surface of the copper-aluminum flat wire; the stepping motor 9 controls the driving wheel 7 to rotate through the driving shaft 10, and the copper-aluminum flat wire is more conveniently wound through the driving wheel 7; the efficiency of forming two concave lines on the top surface of the copper-aluminum flat wire is greatly improved.

Preferably, the concave line forming part 35 comprises a forming part main body 36, a convex part 37 is arranged at the lower part of the forming part main body 36, the cross section of the convex part 37 is in a parabolic shape, and the convex part 37 is arranged above the vehicle frame 15; the forming part body 36 performs a double-concave wire forming operation on the copper-aluminum flat wire on the top surface of the frame 15 through the convex part 37.

Preferably, the frame 15 is mounted on the seat 14, both sides of the bottom of the seat 14 are provided with mounting shafts 16, both ends of the mounting shafts 16 are provided with universal wheels 17, and the universal wheels 17 are mounted at the inner bottom position of the frame 1; the flexible movement of the carriage 15 is facilitated by the universal wheels 17.

Preferably, the frame 15 includes a frame body 24, a second electric heating metal plate 25 is disposed on the top surface of the frame body 24, a second temperature controller 26 is disposed on the side portion of the frame body 24, and the second temperature controller 26 is electrically connected to the second electric heating metal plate 25; the first electrothermal metal plate 21 is installed above the second electrothermal metal plate 25; the second temperature controller 26 controls the second electric heating metal plate 25 to realize electric heating, and the first electric heating metal plate 21 and the second electric heating metal plate 25 are used for fully heating the copper-aluminum flat wire.

Preferably, an open cavity 27 is arranged at the middle side part of the frame body 24, a first static removing brush 28 is arranged at the inner top part of the open cavity 27, the upper part of the transmission belt 8 passes through the space between the first static removing brush 28 and the inner top part of the open cavity 27, a second static removing brush 29 is arranged at the inner bottom part of the open cavity 27, and the lower part of the transmission belt 8 passes through the space between the second static removing brush 29 and the inner bottom part of the open cavity 27; a butt joint column 30 is arranged between the first static removing brush 28 and the second static removing brush 29, a side pipe 31 is arranged at the side part of the butt joint column 30, and the side pipe 31 is arranged at the side part of the frame body 24; the transmission belt 8 is subjected to static electricity removing treatment through the first static electricity removing brush 28 and the second static electricity removing brush 29, so that static electricity generated by the transmission belt 8 is prevented from influencing the copper-aluminum flat wire.

Preferably, the first destaticizing brush 28, the second destaticizing brush 29 and the docking pin 30 are arranged in an i-shape; it is convenient to arrange that the first destaticizing brush 28 is docked with the second destaticizing brush 29.

Preferably, a guide tube 32 is arranged at a side position of the frame body 24, a moving shaft 33 is sleeved in the guide tube 32, an operating ring 34 is arranged at the outer end of the moving shaft 33, and the inner end of the moving shaft 33 is connected with the side tube 31; the diameter of the operating ring 34 is larger than the pipe diameter of the guide pipe 32; the moving shaft 33 moves along the guide pipe 32, the side pipe 31 is convenient to move through the moving shaft 33, and the side pipe 31 is convenient to flexibly move and adjust the first static removing brush 28 and the second static removing brush 29 through the butt joint column 30.

Preferably, both sides of the frame 1 are provided with positioning cylinders 5, and the end of the mounting shaft 4 is mounted in the positioning cylinders 5; the end of the mounting shaft 4 is positioned and mounted by the positioning cylinder 5.

Preferably, a positioning tube 11 is arranged at the inner side position of the frame 1, and the end part of the driving shaft 10 is installed in the positioning tube 11; the end of the drive shaft 10 is positioned and mounted by a positioning tube 11.

The above description is only for the specific embodiments of the present invention, but the scope of the present invention is not limited thereto, and any changes or substitutions that are not thought of through the creative work should be covered within the scope of the present invention. Therefore, the protection scope of the present invention should be subject to the protection scope defined by the claims.

Claims (10)

1. A copper-aluminum flat wire double-concave wire forming device comprises a rack, wherein one side of the rack is provided with an unwinding wheel, the outer end of the unwinding wheel is provided with a driven wheel, the axial positions of the unwinding wheel and the driven wheel are provided with mounting shafts, and the mounting shafts are mounted on the rack; a winding wheel is arranged on the other side of the rack, a driving wheel is arranged at the outer end of the winding wheel, a stepping motor is arranged at the side part of the rack, a driving shaft is arranged at the front part of the stepping motor, and the driving shaft is arranged at the axial position of the winding wheel and the driving wheel; a transmission belt is wound between the driven wheel and the driving wheel; a copper-aluminum flat wire is wound between the unwinding wheel and the winding wheel;

the inner bottom of the frame is provided with a frame, and a transmission belt passes through the middle position of the frame; the method is characterized in that: a double-concave line forming mechanism is arranged at the inner top of the rack and comprises a hydraulic cylinder, a piston rod is arranged at the lower part of the hydraulic cylinder, a lifting shell is arranged at the lower end of the piston rod, a first electric heating metal plate is arranged at the inner bottom of the lifting shell, an electric heating wire is wound on a plate body of the first electric heating metal plate, a first temperature controller is arranged on the lifting shell, and the first temperature controller is electrically connected with the electric heating wire; the bottom of the first electric heating metal plate is provided with a pair of concave line forming parts, and the concave line forming parts are arranged above the frame.

2. The copper-aluminum flat wire double-concave wire forming device as claimed in claim 1, characterized in that: the concave line forming part comprises a forming part main body, a convex part is arranged at the lower part of the forming part main body, the cross section of the convex part is in a parabolic shape, and the convex part is arranged above the frame.

3. The copper-aluminum flat wire double-concave wire forming device as claimed in claim 1, characterized in that: the frame is installed on the saddle, and the bottom both sides of saddle all are equipped with the installation axle, and the both ends of installation axle all are equipped with the universal wheel, and the interior bottom position in the frame is installed to the universal wheel.

4. The copper-aluminum flat wire double-concave wire forming device as claimed in claim 1, characterized in that: the frame comprises a frame body, a second electric heating metal plate is arranged on the top surface of the frame body, a second temperature controller is arranged on the side part of the frame body, and the second temperature controller is electrically connected with the second electric heating metal plate; the first electric heating metal plate is arranged above the second electric heating metal plate.

5. The copper-aluminum flat wire double-concave wire forming device according to claim 4, characterized in that: an open cavity is formed in the middle side portion of the frame body, a first static removing brush is arranged at the inner top of the open cavity, the upper portion of the transmission belt penetrates between the first static removing brush and the inner top of the open cavity, a second static removing brush is arranged at the inner bottom of the open cavity, and the lower portion of the transmission belt penetrates between the second static removing brush and the inner bottom of the open cavity; a butt joint column is arranged between the first static electricity removing brush and the second static electricity removing brush, a side pipe is arranged on the side portion of the butt joint column, and the side pipe is installed on the side portion of the vehicle frame body.

6. The double-concave wire forming device for the copper-aluminum flat wire as claimed in claim 5, characterized in that: the first static removing brush, the second static removing brush and the butt joint column are arranged in an I shape.

7. The double-concave wire forming device for the copper-aluminum flat wire as claimed in claim 5, characterized in that: the lateral part position of frame body is equipped with the stand pipe, and the stand pipe endotheca is equipped with the removal axle, and the outer end of removal axle is equipped with the operating ring, and the inner of removal axle is connected with the side pipe.

8. The double-concave wire forming device for the copper-aluminum flat wire as claimed in claim 7, characterized in that: the diameter of the operating ring is larger than the pipe diameter of the guide pipe.

9. The copper-aluminum flat wire double-concave wire forming device as claimed in claim 1, characterized in that: both sides of the frame are provided with positioning cylinders, and the end part of the mounting shaft is arranged in the positioning cylinders.

10. The copper-aluminum flat wire double-concave wire forming device as claimed in claim 1, characterized in that: the inner side position of the frame is provided with a positioning pipe, and the end part of the driving shaft is arranged in the positioning pipe.

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