CN109287012B - Graphene electrothermal film connecting wire pressing device - Google Patents

Abstract

The invention relates to the technical field of connecting wire pressing devices, in particular to a graphene electric heating membrane connecting wire pressing device which comprises a conveyor, wherein a conveying plate of the conveyor is provided with a graphene electric heating membrane, two horizontal straight rods are horizontally arranged above the graphene electric heating membrane, one side and the middle of the bottom surface of each horizontal straight rod are vertically fixed with first vertical supporting legs, a control box is fixed on one horizontal straight rod, a wire pressing device and a positioning device are commonly connected between the top surfaces of the two horizontal straight rods, feeding mechanisms are arranged on the two horizontal straight rods, and the first vertical supporting legs are provided with control mechanisms. The invention can greatly improve the connection efficiency of the graphene electrothermal film and the connecting wire, simultaneously reduces the labor intensity of workers and is beneficial to the production of the graphene electrothermal film.

Description

Graphene electrothermal film connecting wire pressing device

Technical Field

The invention relates to the technical field of connecting wire pressing devices, in particular to a graphene electric heating membrane connecting wire pressing device.

Background

The manufacturing process of the graphene electrothermal membrane is characterized in that wires are required to be connected in the manufacturing process of the graphene electrothermal membrane, a worker is generally connected manually in a factory, the V-shaped connecting wire joints at two ends of the connecting wire are arranged at two ends of the graphene electrothermal membrane in the connecting process, and then the V-shaped connecting wire joints are hammered by a small hammer to be closed, so that the V-shaped connecting wire joints are fixed with the graphene electrothermal membrane, the production method is low in efficiency, the working strength of the worker is high, and production is not facilitated.

Disclosure of Invention

The invention aims to solve the defect of low working efficiency when a graphene electrothermal film is connected with a connecting wire in the prior art, and provides a graphene electrothermal film connecting wire pressing device.

In order to achieve the above purpose, the present invention adopts the following technical scheme:

the utility model provides a graphite alkene electric heat diaphragm connecting wire line ball device, includes the conveyer, shelve the graphite alkene electric heat diaphragm on the transport board of conveyer, graphite alkene electric heat diaphragm top level is equipped with two horizontal straight-bars, two horizontal straight-bar bottom surface one side and the equal vertical first vertical supporting leg that is fixed with in middle part, one of them be fixed with the control box on the horizontal straight-bar, two be connected with line ball device and positioner jointly between the horizontal straight-bar top surface, line ball device includes two first rectangular baffles, two first rectangular baffle both ends bottom surface is fixed respectively on two horizontal straight-bar top surfaces, two first rectangular baffle both ends top surface all is connected with the first square mounting panel that sets up the through-hole in the middle of, every first square mounting panel middle part all is fixed with the output shaft and passes the first cylinder of first square mounting panel through-hole, every all be fixed with round platform shape line ball stick on the first cylinder output shaft, positioner includes two second rectangular baffles, two rectangular baffle both ends bottom surfaces are fixed respectively on two horizontal straight-bar top surfaces, two rectangular baffle both ends bottom surfaces are connected with square mounting panel, every second cylinder top surface all is equipped with square output shaft, and the square mounting panel all is equipped with square through-hole.

Preferably, the feeding mechanism comprises a horizontal moving plate, the horizontal moving plate is located graphene electric heating membrane one side, the middle part of the bottom surface of the horizontal moving plate is fixed with a fixed plate, both sides of the fixed plate are respectively provided with a sliding groove fixed on the bottom surface of the horizontal moving plate, each sliding groove is internally provided with a sliding rail, each sliding rail bottom surface two ends are respectively fixed with a vertically arranged supporting rod, the four supporting rods are jointly connected with a motor mounting plate, both ends of the middle part of the top surface of the motor mounting plate are respectively fixed with a square baffle, each square baffle is respectively fixed with a bearing, the two bearings are jointly connected with a ball screw, one end of the ball screw is provided with an output shaft and a servo motor fixedly connected with the output shaft, and both sides of the top surface of the horizontal moving plate are respectively provided with a clamping mechanism.

Preferably, the control mechanism comprises a distribution box, the distribution box is fixed on a first vertical supporting leg, a first PLC controller, a second PLC controller and a third PLC controller are arranged in the distribution box, and the first PLC controller, the second PLC controller and the third PLC controller are respectively connected with the first cylinder, the second cylinder and the servo motor through wires.

Preferably, the control box is provided with three-gear switches, and the three-gear switches are respectively connected with the first cylinder, the second cylinder and the servo motor through wires.

Preferably, a first reinforcing rod is fixed between the two first vertical supporting legs on the same side.

Preferably, a second reinforcing rod is fixed between each supporting rod and the first vertical supporting leg.

Preferably, the clamping mechanism comprises a square positioning plate, a bayonet is arranged on the side face of the square positioning plate, an elastic rubber layer is adhered to the inner wall of the bayonet, and a connecting wire joint is clamped on the elastic rubber layer.

The invention provides a line pressing device for a connecting line of a graphene electrothermal film, which has the beneficial effects that: the graphene electrothermal film raw materials can be continuously conveyed through the conveyor, the control box can control the feeding mechanism to realize reciprocating motion, connecting wire joints in the clamping machine on the horizontal moving plate in the feeding mechanism can be conveyed to two sides of the graphene electrothermal film, the graphene electrothermal film can be connected with the connecting wire joints through the wire pressing device and the positioning device, and therefore the working efficiency is greatly improved in the semi-automatic process, and the working strength of workers is also reduced.

Drawings

Fig. 1 is a right side view of a wire pressing device for connecting wires of a graphene electrothermal film;

fig. 2 is a front view of a wire pressing device for connecting wires of a graphene electrothermal film;

fig. 3 is a schematic structural diagram of a distribution box in a graphene electrothermal film connecting wire pressing device according to the present invention;

fig. 4 is a top view of a control box in a graphene electrothermal film connecting wire pressing device according to the present invention;

fig. 5 is a front view of a holding device in a graphene electrothermal film connecting wire pressing device.

In the figure: conveyor 1, graphene electrothermal film 2, horizontal straight rod 3, first vertical supporting leg 4, control box 5, first rectangular baffle 6, first square mounting plate 7, first cylinder 8, round platform shape line ball stick 9, second rectangular baffle 10, second square mounting plate 11, second cylinder 12, cylindrical clamp plate stick 13, horizontal movable plate 14, fixed plate 15, spout 16, slide rail 17, bracing piece 18, motor mounting plate 19, square baffle 20, bearing 21, ball screw 22, servo motor 23, block terminal 24, first PLC controller 25, second PLC controller 26, third PLC controller 27, third gear switch 28, square locating plate 29, bayonet 30, elastic rubber layer 31, connecting wire joint 32, first stiffener 33, second stiffener 34.

Description of the embodiments

The following description of the embodiments of the present invention will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present invention, but not all embodiments.

Referring to fig. 1-5, a graphene electric heating membrane connecting wire pressing device, including conveyer 1, shelve graphene electric heating membrane 2 on the transport board of conveyer 1, graphene electric heating membrane 2 top level is equipped with two horizontal straight-bars 3, two horizontal straight-bars 3 bottom surface one side and middle part are all vertically fixed with first vertical supporting leg 4, be fixed with first stiffener 33 between two first vertical supporting legs 4 of homonymy, be fixed with control box 5 on one horizontal straight-bars 3, be equipped with three third gear switch 28 on the control box 5, three third gear switch 28 respectively through wire and first cylinder 8, second cylinder 12 and servo motor 23 are connected, be connected with wire pressing device and positioner jointly between two horizontal straight-bars 3 top surfaces, wire pressing device includes two first rectangular baffles 6, two first rectangular baffles 6 both ends bottom surface are fixed respectively on two horizontal straight-bars 3 top surfaces, two first square mounting plate 7 of square through-hole are all commonly connected with, be fixed with output shaft in the middle of each first square mounting plate 7, first square mounting plate 8 pass first square output shaft 8, second cylinder 12 and two square cylinder 11 top surface are all fixed with square through-hole in the middle of two square connecting plate, two square cylinder 11 top surfaces are all fixed with square output shaft 11, two square cylinder 11 top surface are all fixed with square top surface of two square connecting plate 11, two square top surface 11 are all fixed with square top surface of two square connecting plate 11.

When the connecting wire connector 32 is conveyed to two sides of the graphene electrothermal film 2 through the feeding mechanism, the output shaft of the second cylinder 12 is controlled to extend through the three-gear switch 28 connected with the second cylinder 12 on the control box 5, the cylindrical pressing plate rod 13 at the bottom of the control box presses the graphene electrothermal film 2, the output shaft of the first cylinder 8 is controlled to extend through the three-gear switch 28 connected with the first cylinder 8 on the control box 5, the connecting wire connector 32 is extruded through the round table-shaped wire pressing rod 9 at the bottom of the control box, so that the connecting wire connector 32 can be fixed on the graphene electrothermal film 2, after the connecting wire connector 32 is connected with the graphene electrothermal film 2, the output shaft of the first cylinder 8 is controlled to be restored to the initial position through the three-gear switch 28 connected with the first cylinder 8 on the control box 5, and then the output shaft of the second cylinder 12 is controlled to be restored to the initial position through the three-gear switch 28 connected with the second cylinder 12 on the control box 5, so that continuous connection of the graphene electrothermal film 2 on the conveyor 1 can be repeatedly performed, not only work efficiency is improved, but also labor intensity of workers is reduced.

The feeding mechanism is arranged on the two horizontal straight rods 3, the feeding mechanism comprises a horizontal moving plate 14, the horizontal moving plate 14 is located on one side of a graphene electrothermal film 2, a fixing plate 15 is fixed in the middle of the bottom surface of the horizontal moving plate 14, sliding grooves 16 fixed on the bottom surface of the horizontal moving plate 14 are formed in two sides of the fixing plate 15, sliding rails 17 are slidably mounted in each sliding groove 16, supporting rods 18 which are vertically arranged are fixed on two ends of the bottom surface of each sliding rail 17, a second reinforcing rod 34 is fixed between each supporting rod 18 and a first vertical supporting leg 4, motor mounting plates 19 are jointly connected to the four supporting rods 18, square baffle plates 20 are fixedly arranged on two ends of the middle of the top surface of the motor mounting plates 19, bearings 21 are fixedly arranged on the middle of each square baffle plate 20, ball screw 22 is jointly connected with a ball screw 22, an output shaft is arranged on one end of the ball screw 22, a servo motor 23 fixedly connected with the ball screw 23, clamping mechanisms are respectively arranged on two sides of the top surface of the horizontal moving plate 14, each square positioning plate 29 is provided with a bayonet 30, an elastic rubber layer 31 is adhered to the inner wall of the square positioning plate 30, connecting wire connectors 32 are clamped on the elastic rubber layer 31, a control mechanism is arranged on the first vertical supporting leg 4, a control mechanism is arranged on the first vertical supporting leg 24, and comprises a power distribution box 24, a first PLC (PLC) and a second PLC (PLC) and a third PLC (PLC) are respectively connected with a third PLC (PLC) and a third PLC (PLC) and a fourth PLC 25. When the connecting wire joint 32 is conveyed, the servo motor 23 can be controlled to rotate positively and negatively by utilizing the three-gear switch 28 connected with the servo motor 23, when the servo motor 23 rotates positively, the servo motor 23 drives the ball screw 22 to rotate positively, the ball screw 22 rotates positively to enable the fixing plate 15 to drive the horizontal moving plate 14 to move towards the graphene electrothermal film 2, so that the wire pressing operation is carried out, after the wire pressing operation is finished, the servo motor 23 is controlled to rotate reversely, the horizontal moving plate 14 is restored to the original position, the connecting wire joint 32 is clamped, when the connecting wire joint 32 is clamped, the connecting wire joint 32 is placed in the bayonet 30 of the square positioning plate 29, and the connecting wire joint 32 can be temporarily fixed by the elastic rubber layer 31 through friction force.

The foregoing is only a preferred embodiment of the present invention, but the scope of the present invention is not limited thereto, and any person skilled in the art, who is within the scope of the present invention, should make equivalent substitutions or modifications according to the technical scheme of the present invention and the inventive concept thereof, and should be covered by the scope of the present invention.

Claims (6)

1. The utility model provides a graphite alkene electric heat diaphragm connecting wire line ball device, includes conveyer (1), place graphite alkene electric heat diaphragm (2), its characterized in that on the delivery board of conveyer (1): two horizontal straight rods (3) are horizontally arranged above the graphene electrothermal membrane (2), one side of the bottom surface of each horizontal straight rod (3) and the middle part of each horizontal straight rod are vertically fixed with first vertical supporting legs (4), a control box (5) is fixed on each horizontal straight rod (3), two line pressing devices and positioning devices are jointly connected between the top surfaces of the horizontal straight rods (3), each line pressing device comprises two first strip baffles (6), the bottom surfaces of the two ends of each first strip baffle (6) are respectively fixed on the top surfaces of the two horizontal straight rods (3), the top surfaces of the two ends of each first strip baffle (6) are respectively and jointly connected with a first square mounting plate (7) with a through hole in the middle, an output shaft penetrates through a first cylinder (8) of each first square mounting plate (7), each first cylinder (8) is fixedly provided with a round table-shaped line pressing rod (9) on the output shaft, each positioning device comprises two second strip baffles (10), the bottom surfaces of each second strip baffles (10) are respectively fixed on the top surfaces of the two second strip baffles (3), two square mounting plates (10) are respectively connected with the two middle square mounting plates (11) at the two ends of each second strip baffles (3), a second air cylinder (12) with an output shaft penetrating through a through hole of the second square mounting plate (11) is fixed in the middle of each second square mounting plate (11), a cylindrical pressing plate rod (13) is fixed on the output shaft of each second air cylinder (12), a feeding mechanism is arranged on each horizontal straight rod (3), and a control mechanism is arranged on each first vertical supporting leg (4);

feeding mechanism includes horizontal migration board (14), horizontal migration board (14) are located graphene electric heating diaphragm (2) one side, horizontal migration board (14) bottom surface middle part is fixed with fixed plate (15), fixed plate (15) both sides all are equipped with spout (16) of fixing in horizontal migration board (14) bottom surface, every equal slidable mounting has slide rail (17) in spout (16), every slide rail (17) bottom surface both ends all are fixed with bracing piece (18) of vertical setting, four bracing piece (18) are connected with motor mounting board (19) jointly, motor mounting board (19) top surface middle part both ends all are fixed with square baffle (20), every square baffle (20) middle part all are fixed with bearing (21), two bearing (21) are connected with ball screw (22) jointly, ball screw (22) one end is equipped with output shaft and servo motor (23) of its fixed connection, horizontal migration board (14) top surface both sides all are equipped with fixture.

2. The graphene electrothermal film connecting wire pressing device according to claim 1, wherein: the control mechanism comprises a distribution box (24), the distribution box (24) is fixed on a first vertical supporting leg (4), a first PLC (programmable logic controller) controller (25), a second PLC (26) and a third PLC (27) are arranged in the distribution box (24), and the first PLC (25), the second PLC (26) and the third PLC (27) are connected with a first air cylinder (8), a second air cylinder (12) and a servo motor (23) through wires respectively.

3. The graphene electrothermal film connecting wire pressing device according to claim 1, wherein: three-gear switches (28) are arranged on the control box (5), and the three-gear switches (28) are respectively connected with the first air cylinder (8), the second air cylinder (12) and the servo motor (23) through leads.

4. The graphene electrothermal film connecting wire pressing device according to claim 1, wherein: a first reinforcing rod (33) is fixed between the two first vertical supporting legs (4) on the same side.

5. The graphene electrothermal film connecting wire pressing device according to claim 1, wherein: a second reinforcing rod (34) is fixed between each supporting rod (18) and the first vertical supporting leg (4).

6. The graphene electrothermal film connecting wire pressing device according to claim 1, wherein: the clamping mechanism comprises a square positioning plate (29), a bayonet (30) is arranged on the side face of the square positioning plate (29), an elastic rubber layer (31) is adhered to the inner wall of the bayonet (30), and a connecting wire joint (32) is clamped on the elastic rubber layer (31).