CN116665999A

CN116665999A - Enameled wire processing equipment

Info

Publication number: CN116665999A
Application number: CN202310934495.4A
Authority: CN
Inventors: 金国强; 王风胜; 郑仲雪; 刘西利; 危庆国
Original assignee: Shandong Huilong Electric Co ltd
Current assignee: Shandong Huilong Electric Co ltd
Priority date: 2023-07-28
Filing date: 2023-07-28
Publication date: 2023-08-29
Anticipated expiration: 2043-07-28
Also published as: CN116665999B

Abstract

The invention belongs to the technical field of enameled wire processing, and discloses enameled wire processing equipment, which is technically characterized in that: including the base, base surface fixed mounting has two sets of relative distribution's risers, and first dwang is installed in the common rotation of two sets of risers one end, and the second dwang is installed in the common rotation of two sets of risers other end, first dwang surface is provided with the pay-off roller, second dwang surface is provided with the take-up roller, first dwang is connected with adjustment mechanism, adjustment mechanism is including fixed disk and friction subassembly, two sets of the riser is provided with the automated inspection mechanism mutually supporting with the cable jointly, automated inspection mechanism is including extrusion pole, locating component and detection subassembly, detection subassembly is including extrusion portion and reset portion, has solved current processing equipment and has only singly carried out the package lacquer to the cable and handled, can't detect intensity, tension and pliability to the cable, can't guarantee enameled wire processingquality's problem.

Description

Enameled wire processing equipment

Technical Field

The invention relates to the technical field of enameled wire processing, in particular to enameled wire processing equipment.

Background

The enameled wire is a main variety of winding wire, which is composed of two parts of conductor and insulating layer, the bare wire is annealed and softened, and then painted and baked for many times, but the product meeting the standard requirement and customer requirement is not easy to produce, and is influenced by the factors of raw material quality, technological parameters, production equipment, environment and the like, so the quality characteristics of various enameled wires are different, but the enameled wire has four performances of mechanical property, chemical property, electrical property and thermal property.

In the production process of the existing enameled wire, the paying-off drum is required to pay off and take up the wire to be processed, the existing processing equipment only carries out enamelling treatment on a single cable, the strength, the tension and the flexibility of the cable cannot be detected, and the processing quality of the enameled wire cannot be guaranteed.

Disclosure of Invention

The invention aims to provide enameled wire processing equipment for solving the problems in the background art.

In order to achieve the above purpose, the present invention provides the following technical solutions:

the utility model provides an enameled wire processing equipment, includes the base, base surface fixed mounting has two sets of relatively distributed risers, and two sets of riser one end corotation installs first dwang, and two sets of riser other end corotation installs the second dwang, first dwang surface is provided with the winding roller, second dwang surface is provided with the receipts line roller, and second dwang one end extends to the riser outside and is connected with first motor, and the winding roller is connected with the cable jointly, the base surface is provided with the package lacquer mechanism that mutually supports with the cable, the package lacquer mechanism is used for carrying out package lacquer treatment to the cable, first dwang is connected with adjustment mechanism, adjustment mechanism is including fixed disk and friction subassembly, and first dwang tip extends to the riser outside and with fixed disk fixed connection, friction subassembly is located the riser lateral wall and around the fixed disk, friction subassembly is used for controlling the rotation speed of first dwang with the fixed disk mutually supporting, two sets of the riser jointly be provided with the automatic detection mechanism mutually supports with the cable, the extrusion part is located the vertical position and is in the vertical position of the detection device that mutually supports with the cable, extrusion part is in the extrusion part, extrusion part is in the vertical position and is in the vertical position, extrusion part is in the extrusion part and the vertical position.

As a further scheme of the invention: the friction subassembly is including the every two relative fixed plates of multiunit of riser lateral wall fixed mounting, multiunit fixed plate is annular around the fixed disk and distributes, and relative distributed's fixed plate sliding connection has the control post jointly, the one end fixed mounting of control post towards the fixed disk has the friction disc, friction disc and fixed disk lateral wall laminating, control post surface fixedly connected with mounting panel, fixed plate surface fixed mounting has extrusion spring, extrusion spring encircles the control post and is connected with the mounting panel.

As a further scheme of the invention: the positioning assembly comprises two groups of first control boards which are arranged on two opposite side walls of the vertical plate in a sliding manner along the vertical direction respectively, the two groups of first control boards are fixedly connected with two ends of one group of extrusion rods respectively, the two groups of second control boards which are arranged on one side of the first control boards are arranged on two opposite side walls of the vertical plate in a sliding manner along the vertical direction respectively, and the two groups of second control boards are fixedly connected with two ends of the other group of extrusion rods respectively.

As a further scheme of the invention: the extrusion part comprises two groups of first rotating columns which are installed by rotating the vertical plates together, one ends of the first rotating columns extend to the outer sides of the vertical plates and are connected with a second motor, transmission fluted discs are fixedly installed on the surfaces of the first rotating columns, second rotating columns located on one sides of the first rotating columns are rotatably installed on the side walls of the vertical plates, first control fluted discs meshed with the transmission fluted discs are fixedly installed on the surfaces of the second rotating columns, first sector fluted discs meshed with first racks are fixedly installed on the side walls of the first control panels, third rotating columns located on the other sides of the first rotating columns are rotatably installed on the side walls of the vertical plates, second control fluted discs meshed with the transmission fluted discs are fixedly installed on the surfaces of the third rotating columns, and second sector fluted discs meshed with second racks are fixedly installed on the side walls of the second control panels.

As a further scheme of the invention: the reset part comprises a first vertical groove which is respectively formed in two opposite side walls of two groups of vertical plates, a first sliding block is slidably arranged in the first vertical groove, the two groups of the first sliding blocks extend to the outer side of the first vertical groove and are fixedly connected with a second control board, a second vertical groove which is positioned on one side of the first vertical groove is respectively formed in two opposite side walls of the two groups of vertical plates, a second sliding block is slidably arranged in the second vertical groove, the two groups of the second sliding blocks extend to the outer side of the second vertical groove and are fixedly connected with the first control board, and reset springs which are respectively matched with the first sliding block and the second sliding block are respectively fixedly arranged in the first vertical groove and the second vertical groove.

As a further scheme of the invention: the two groups of vertical plates are rotatably provided with guide rollers positioned on one side of the wire unwinding roller and one side of the wire winding roller.

As still further aspects of the invention: and the first vertical groove and the second vertical groove are respectively and fixedly provided with a limiting rod which is in sliding connection with the first sliding block and the second sliding block.

Compared with the prior art, the invention has the beneficial effects that: through setting up the detection component and the locating component mutually supporting that comprise extrusion portion, reset portion, two sets of extrusion poles relative movement of control that can be convenient and then buckle the extrusion to the cable, tension, intensity and pliability that can effectively detect the cable have solved current processing equipment and only singly carry out the coating with lacquer to the cable and handle, can't detect intensity, tension and pliability to the cable, can't guarantee enameled wire processingquality's problem.

Drawings

Fig. 1 is a schematic structural view of an enameled wire processing apparatus according to an embodiment of the present invention.

Fig. 2 is an enlarged schematic view of the structure of fig. 1 a.

Fig. 3 is a schematic structural view of a reset portion in an enameled wire processing apparatus according to an embodiment of the present invention.

Fig. 4 is a schematic diagram of a fixing disc and a connection structure thereof in an enameled wire processing apparatus according to an embodiment of the invention.

Fig. 5 is a schematic diagram of an extrusion rod and a connection structure thereof in an enameled wire processing apparatus according to an embodiment of the invention.

Wherein: base 1, first rotating lever 2, second rotating lever 3, payout roller 4, take-up roller 5, adjusting mechanism 6, fixed disk 61, friction block 62, fixed plate 621, control post 622, friction block 623, mounting plate 624, pressing spring 625, automatic detecting mechanism 7, pressing lever 71, positioning block 72, first control plate 721, second control plate 722, detecting unit 73, pressing portion 731, first rotating post 7311, transmission toothed disk 7312, second rotating post 7313, first control toothed disk 7314, first sector toothed disk 7315, first rack 7316, third rotating post 7317, second control toothed disk 7318, second sector toothed disk 7319, second rack 7310, resetting portion 732, first vertical slot 7321, first slider 7322, second vertical slot 7323, second slider 7324, resetting spring 7325, vertical plate 8, guide roller 9, limiting lever 10, and paint mechanism 11.

Detailed Description

It should be noted that, without conflict, the embodiments of the present invention and features of the embodiments may be combined with each other.

Specific implementations of the invention are described in detail below in connection with specific embodiments.

As shown in fig. 1, fig. 2, fig. 3, fig. 4, a block diagram of an enameled wire processing apparatus provided for an embodiment of the present invention, including a base 1, two sets of oppositely distributed risers 8 are fixedly mounted on the surface of the base 1, one ends of the two sets of risers 8 are rotatably mounted with a first rotating rod 2, the other ends of the two sets of risers 8 are rotatably mounted with a second rotating rod 3, the surface of the first rotating rod 2 is provided with a pay-off roll 4, the surface of the second rotating rod 3 is provided with a take-up roll 5, one end of the second rotating rod 3 extends to the outside of the risers 8 and is connected with a first motor, the pay-off roll 4 and the take-up roll 5 are jointly connected with a cable, the surface of the base 1 is provided with a enamelling mechanism 11 which is mutually matched with the cable, the enamelling mechanism 11 is used for enamelling the cable, the first rotating rod 2 is connected with an adjusting mechanism 6, the adjusting mechanism 6 includes a fixed disk 61 and a friction component 62, the end of the first rotating rod 2 extends to the outside of the risers 8 and is fixedly connected with the fixed disk 732, the friction component 62 is fixedly connected with the fixed disk 61, the reset component 73 is automatically positioned at the side wall component 73, the reset component 72 is automatically positioned at the side wall component 73 of the fixed disk 72, the reset component 72 is automatically positioned at the side wall component 72, and the reset component 72 is mutually matched with the reset component 72, and the reset component 72 is detected by the reset component 72, and the reset component 72 is positioned by the reset component 72, the pressing part 731 is located on the surface of the riser 8 and connected to the reset part 732, and the pressing part 731 and the reset part 732 cooperate with each other to control the pressing rod 71 to reciprocate in the vertical direction.

When the wire winding device is used, the wire on the surface of the paying-off roller 4 passes through the wire coating mechanism 11 and passes through the two groups of extrusion rods 71, then the wire is connected with the wire winding roller 5, the second motor is started to drive the second rotary rod 3 to rotate so as to drive the wire winding roller 5 to rotate, the wire winding roller 5 pulls the wire to move, the wire winding roller 4 and the first rotary rod 2 synchronously rotate, the friction assembly 62 and the fixed disc 61 are mutually matched to control the rotating speed of the first rotary rod 2, the wire between the paying-off roller 4 and the wire winding roller 5 is in a straight state, the wire is moved, the wire coating mechanism 11 can carry out all-round wire coating treatment on the surface of the wire, the extrusion part 731 and the positioning assembly 72 are mutually matched to control the two groups of extrusion rods 71 to respectively move towards the wire direction, the extrusion rods 71 bend and extrude the wire, the strength, the tension and the flexibility of the wire can be effectively detected, the reset part 732 and the positioning assembly 72 are mutually matched to control the two groups of extrusion rods 71 to respectively move towards the wire direction, the wire is not in the whole-position, and the wire is not easy to be broken, and the wire is not extruded in the whole-position is easy to be broken, and the wire is not easy to move, and the wire is convenient to be repeatedly extruded.

As shown in fig. 1 and fig. 4, as a preferred embodiment of the present invention, the friction assembly 62 includes a plurality of sets of fixing plates 621 that are fixedly installed on the side wall of the riser 8 and are distributed in pairs, the plurality of sets of fixing plates 621 are distributed annularly around the fixing plate 61, the fixing plates 621 that are distributed in pairs are slidably connected with a control post 622, one end of the control post 622 facing the fixing plate 61 is fixedly installed with a friction block 623, the friction block 623 is attached to the side wall of the fixing plate 61, a mounting plate 624 is fixedly connected to the surface of the control post 622, and a compression spring 625 is fixedly installed on the surface of the fixing plate 621, and the compression spring 625 surrounds the control post 622 and is connected with the mounting plate 624.

The cable removes pulling pay-off roller 4 and first dwang 2 rotation, and first dwang 2 rotation drives fixed disk 61 and rotates in riser 8 outside, and extrusion spring 625 and mounting panel 624 mutually support and exert thrust to control post 622 and make friction block 623 contact with fixed disk 61 lateral wall, and friction block 623 can effectively increase the resistance when fixed disk 61 rotates, and speed is uncontrolled when avoiding pay-off roller 4 to rotate, guarantees that the cable between pay-off roller 4 and the take-up roller 5 is in the state of being in the top all the time.

As shown in fig. 1, 2 and 5, as a preferred embodiment of the present invention, the positioning assembly 72 includes two sets of first control boards 721 slidably mounted on opposite side walls of the riser 8 along a vertical direction, the two sets of first control boards 721 are fixedly connected to two ends of one set of extrusion rods 71, two sets of second control boards 722 located on one side of the first control boards 721 are slidably mounted on opposite side walls of the riser 8 along a vertical direction, and the two sets of second control boards 722 are fixedly connected to two ends of the other set of extrusion rods 71.

The two sets of first control boards 721 control one set of extrusion rods 71 to be in a horizontal state and below the cables, the two sets of second control boards 722 control the other set of extrusion rods 71 to be in a horizontal state and above the cables, the extrusion parts 731 push the first control boards 721 to move vertically upwards along the surfaces of the vertical plates 8 and synchronously push the second control boards 722 to move vertically downwards along the surfaces of the vertical plates 8, the two sets of extrusion rods 71 respectively move towards the cable direction, and the extrusion rods 71 can bend and extrude the cables conveniently.

As shown in fig. 1, 2 and 5, as a preferred embodiment of the present invention, the pressing portion 731 includes two sets of first rotating columns 7311 rotatably mounted on the riser 8, one end of each first rotating column 7311 extends to the outside of the riser 8 and is connected with a second motor, a driving gear disc 7312 is fixedly mounted on a surface of each first rotating column 7311, a second rotating column 7313 is rotatably mounted on a side wall of each riser 8, a first control gear disc 7314 in meshed connection with the driving gear disc 7312 is fixedly mounted on a surface of each second rotating column 7313, a first gear rack 7315 is fixedly mounted on a surface of each second rotating column 7313, a first gear rack 7316 in meshed engagement with each first gear rack 7315 is fixedly mounted on a side wall of each first control plate 721, a third rotating column 7317 is fixedly mounted on the other side wall of each first rotating column 7311, a second control gear disc 7318 in meshed engagement with each driving gear disc 7312 is fixedly mounted on a surface of each third rotating column 7317, and a second gear rack 7319 is fixedly mounted on a surface of each second gear rack 7319.

When in use, the second motor is started to drive the first rotating post 7311 to rotate so as to drive the driving gear disc 7312 to rotate, the driving gear disc 7312 is respectively meshed with the first control gear disc 7314 and the second control gear disc 7318 to drive the second rotating post 7313 and the third rotating post 7317 to rotate on the surface of the vertical plate 8, the second rotating post 7313 and the third rotating post 7317 respectively drive the first fan-shaped gear disc 7315 and the second fan-shaped gear disc 7319 to rotate, the first fan-shaped gear disc 7315 is meshed with the first gear rack 7316 to drive the first control plate 721 to vertically move upwards, the second fan-shaped gear disc 7319 is meshed with the second gear rack 7310 to drive the second control plate 722 to vertically move downwards, and when the first fan-shaped gear disc 7315 and the second fan-shaped gear disc 7319 are respectively separated from the first gear rack 7316 and the second gear rack 7310, the resetting part 732 respectively controls the first control plate 721 and the second control plate 722 to reversely move to the original positions.

As shown in fig. 1, 2 and 3, as a preferred embodiment of the present invention, the reset portion 732 includes first vertical slots 7321 formed on opposite side walls of two sets of risers 8, a first slider 7322 is slidably mounted in the first vertical slots 7321, the two sets of first sliders 7322 extend to the outside of the first vertical slots 7321 and are fixedly connected to the second control board 722, second vertical slots 7323 formed on opposite side walls of the two sets of risers 8 and located on one side of the first vertical slots 7321 are respectively formed on opposite side walls of the two sets of risers 8, a second slider 7324 is slidably mounted in the second vertical slots 7323, the two sets of second sliders 7324 extend to the outside of the second vertical slots 7323 and are fixedly connected to the first control board 721, and reset springs 7325 respectively and fixedly mounted in the first vertical slots 7321 and the second vertical slots 7323 and respectively cooperate with the first and second sliders 7324.

When the first control board 721 moves vertically upwards, the second slider 7324 is driven to move synchronously in the second vertical groove 7323, when the second control board 722 moves vertically downwards, the first slider 7322 is driven to move synchronously in the first vertical groove 7321, and when the first fan-shaped fluted disc 7315 and the second fan-shaped fluted disc 7319 are separated from the first rack 7316 and the second rack 7310 respectively, at this time, the return spring 7325 pushes the first slider 7322 and the second slider 7324 to move reversely in the first vertical groove 7321 and the second vertical groove 7323 respectively, at this time, the first control board 721 and the second control board 722 move synchronously reversely to the original positions.

As shown in fig. 1, as a preferred embodiment of the present invention, two sets of risers 8 are mounted for rotation with guide rollers 9 located on one side of the payout roller 4 and take-up roller 5. The cable is kept in a horizontal state between the payout roller 4 and the take-up roller 5 by the guide roller 9.

As shown in fig. 3, in a preferred embodiment of the present invention, the first vertical groove 7321 and the second vertical groove 7323 are fixedly provided with a stopper rod 10 slidably connected to the first slider 7322 and the second slider 7324, respectively. The stability of the first slider 7322 and the second slider 7324 can be effectively improved by the stopper rod 10.

The working principle of the invention is as follows: when in use, the cable on the surface of the paying-off roller 4 passes through the paint coating mechanism 11 and passes through the two groups of extrusion rods 71, then the cable is connected with the take-up roller 5, the second motor is started to drive the second rotating rod 3 to rotate so as to drive the take-up roller 5 to rotate, the take-up roller 5 pulls the cable to move, the cable pulls the paying-off roller 4 to synchronously rotate with the first rotating rod 2, the paint coating mechanism 11 can carry out all-round paint coating treatment on the surface of the cable when the cable moves, the second motor is started to drive the first rotating column 7311 to rotate so as to drive the transmission fluted disc 7312 to rotate, the transmission fluted disc 7312 is meshed with the first control fluted disc 7314 and the second control fluted disc 7318 respectively so as to drive the second rotating column 7313 and the third rotating column 7317 to rotate on the surface of the vertical plate 8, the second rotating post 7313 and the third rotating post 7317 respectively drive the first fan-shaped fluted disc 7315 and the second fan-shaped fluted disc 7319 to rotate, the first fan-shaped fluted disc 7315 is meshed with the first rack 7316 to drive the first control panel 721 to move vertically upwards, the second fan-shaped fluted disc 7319 is meshed with the second rack 7310 to drive the second control panel 722 to move vertically downwards, the two groups of extrusion rods 71 respectively move towards the cable direction, the extrusion rods 71 bend and extrude the cable, the strength, the tension and the flexibility of the cable can be effectively detected, and after the extrusion rods 71 are finished, the reset springs 7325 push the first sliding blocks 7322 and the second sliding blocks 7324 to move reversely in the first vertical grooves 7321 and the second vertical grooves 7323 respectively, and at the moment, the first control panel 721 and the second control panel 722 synchronously move reversely to the original positions, and the two groups of extrusion rods 71 respectively move towards the far cable direction to the original positions. The movement process of the extrusion rods 71 is repeated, so that the strength, the tension and the flexibility of the cable can be detected in the whole process, and when the quality of the cable at the corresponding position is poor, the cable can be directly pulled apart by the extrusion rods 71 in the two groups, so that unqualified products can be removed conveniently.

While the preferred embodiments of the present invention have been described in detail, the present invention is not limited to the above embodiments, and various changes can be made without departing from the spirit of the present invention within the knowledge of those skilled in the art.

Claims

1. The utility model provides an enameled wire processing equipment, includes the base, base surface fixed mounting has two sets of relatively distributed risers, and two sets of riser one end co-rotation installs first dwang, and two sets of riser other end co-rotation installs the second dwang, first dwang surface is provided with the winding roller, second dwang surface is provided with the winding roller, and second dwang one end extends to the riser outside and is connected with first motor, and the winding roller is connected with the cable jointly, the base surface is provided with the package lacquer mechanism that mutually supports with the cable, package lacquer mechanism is used for carrying out package lacquer treatment to the cable, its characterized in that, first dwang is connected with adjustment mechanism, adjustment mechanism is including fixed disk and friction subassembly, and first dwang tip extends to the riser outside and with fixed disk fixed connection, friction subassembly is located the riser lateral wall and around the fixed disk, friction subassembly is used for controlling first dwang's rotational speed with the fixed disk mutually supporting, two sets of risers are provided with automatic detection mechanism mutually supporting with the winding roller, and are located the reset portion and are mutually supported with the wire, the reset portion is in the vertical position and is located the extrusion position and is connected with the vertical position and is used for the reset portion, the reset portion is in the position and is connected with the vertical position and is used for the reset portion, the reset portion is connected with the vertical position and the reset portion.

2. The enameled wire processing equipment of claim 1 wherein the friction assembly comprises a plurality of groups of fixing plates which are arranged oppositely in pairs and fixedly arranged on the side wall of the vertical plate, the plurality of groups of fixing plates are distributed annularly around the fixing plate, the fixing plates which are arranged oppositely are connected with a control column in a sliding manner, a friction block is fixedly arranged at one end of the control column, which faces the fixing plate, of the control column, the friction block is attached to the side wall of the fixing plate, a mounting plate is fixedly connected to the surface of the control column, and an extrusion spring is fixedly arranged on the surface of the fixing plate, surrounds the control column and is connected with the mounting plate.

3. The enamel wire processing apparatus of claim 1 wherein the positioning assembly comprises two sets of first control boards which are slidably mounted on opposite side walls of the vertical plate along the vertical direction, wherein the two sets of first control boards are fixedly connected with two ends of one set of extrusion rods, the two sets of second control boards which are positioned on one side of the first control boards are slidably mounted on opposite side walls of the vertical plate along the vertical direction, and the two sets of second control boards are fixedly connected with two ends of the other set of extrusion rods.

4. The enamel wire processing apparatus according to claim 3 wherein the extruding part comprises two sets of first rotating columns which are installed by rotating together, one ends of the first rotating columns extend to the outer sides of the vertical plates and are connected with a second motor, a transmission fluted disc is fixedly installed on the surface of the first rotating columns, a second rotating column which is positioned on one side of the first rotating columns is installed on the surface of the vertical plates in a rotating mode, a first control fluted disc which is meshed with the transmission fluted disc is fixedly installed on the surface of the second rotating columns, a first rack which is meshed with the first fan-shaped fluted disc is fixedly installed on the surface of the second rotating column, a third rotating column which is positioned on the other side of the first rotating column is installed on the side wall of the vertical plates in a rotating mode, a second control fluted disc which is meshed with the transmission fluted disc is fixedly installed on the surface of the third rotating columns, and a second rack which is meshed with the second fan-shaped fluted disc is fixedly installed on the side of the second control panel.

5. The enameled wire processing equipment according to claim 3 wherein the reset portion comprises first vertical grooves formed in two opposite side walls of two groups of vertical plates, a first sliding block is slidably mounted in the first vertical grooves, the two groups of first sliding blocks extend to the outer sides of the first vertical grooves and are fixedly connected with a second control board, second vertical grooves formed in two opposite side walls of the two groups of vertical plates and located on one side of the first vertical grooves are respectively formed in the two opposite side walls of the two groups of vertical plates, a second sliding block is slidably mounted in the second vertical grooves, the two groups of second sliding blocks extend to the outer sides of the second vertical grooves and are fixedly connected with the first control board, and reset springs respectively and fixedly mounted in the first vertical grooves and the second vertical grooves and respectively matched with the first sliding blocks and the second sliding blocks.

6. The enamel wire fabricating apparatus according to claim 1, wherein the two sets of the risers are rotatably mounted with guide rollers at one side of the pay-off roller and the take-up roller.

7. The enamel wire fabricating apparatus according to claim 5, wherein the first and second vertical grooves are fixedly provided with a limit bar slidably connected with the first and second sliders, respectively.