CN210575274U - Stranded wire assembly - Google Patents

Abstract

A stranded wire assembly comprises a support, a splayed clamp module and a stranded wire module, wherein the splayed clamp module is arranged on an assembly shell, the stranded wire module is arranged in the assembly shell, the assembly shell is arranged on a guide rail arranged on the support, the guide rail is vertical to a bottom plate of the support, the assembly shell is connected with a lifting cylinder through a connecting plate, and the lifting cylinder drives the assembly shell to move up and down; the splayed clamp module comprises a splayed clamp and a splayed clamp driver, and the splayed clamp is arranged on the component shell and is connected with the movable end of the splayed clamp driver cylinder through a connecting piece; the stranded conductor module comprises a stranded conductor clamp and a stranded conductor clamp driving assembly, the stranded conductor clamp is installed in the assembly shell and connected with the stranded conductor clamp driving assembly, and the stranded conductor clamp driving assembly drives the stranded conductor clamp to conduct stranded conductor operation. The utility model discloses a driver drives mechanical structure and replaces manual operation, and the uniformity is good, has improved production efficiency, reduces artifical the participation, reduces the cost of personnel, makes things convenient for the manufacturing of actual industry assembly line, the demand that fits the market more.

Description

Stranded wire assembly

Technical Field

The utility model relates to a machine-building field, concretely relates to stranded conductor subassembly.

Background

The demand of the anti-theft coil rises year by year along with the development of the times, but the 8.2MHZ acoustic magnetic products in the industry are all manually produced at present. The production efficiency is low, the manual labor cost is high, the manual labor intensity is large, the manual production mode can not keep pace with the advancing pace of the times, the manufacturers urgently need highly-automatic production equipment to replace the manual work, the production efficiency is improved, the manual labor intensity is reduced, and the market demand is met.

SUMMERY OF THE UTILITY MODEL

For solving the problem mentioned in the above-mentioned technical background, the utility model provides a stranded conductor subassembly, the utility model discloses a driver drives mechanical structure and replaces manual operation, and the uniformity is good, has improved production efficiency, reduces artificial participation and has reduced the expenditure of cost of personnel, makes things convenient for the manufacturing of actual industry assembly line, the demand that accords with market more.

The wire stranding assembly comprises a support, an splayed clamp module and a wire stranding module, the splayed clamp module is installed on an assembly shell, the wire stranding module is installed in the assembly shell, the assembly shell is installed on a guide rail arranged on the support, the guide rail is perpendicular to a bottom plate of the support, the assembly shell is connected with a lifting cylinder through a connecting plate, and the lifting cylinder drives the assembly shell to move up and down; the splayed clamp module and the stranded wire module are respectively driven by a splayed clamp driver and a stranded wire clamp driving assembly, and the stranded wire clamp driving assembly controls the distance between the two stranded wire clamp chucks and the opening and closing of the stranded wire clamp. The smaller the distance between the two strand clamp chucks is, the larger the included angle formed by the two strand clamps is.

Preferably, the stranded wire clamp driving assembly comprises an angle adjusting assembly and an opening and closing assembly, the angle adjusting assembly is connected with the opening and closing assembly, and the angle adjusting assembly drives the opening and closing assembly and the splayed clamps arranged on the opening and closing assembly to rotate to adjust an included angle formed by the two groups of splayed clamps; the angle adjusting assembly comprises a steering driver and a universal joint, the steering driver is connected with the lower end of the universal joint through a synchronous connecting piece, the upper end of the universal joint is connected with the splayed clamps through a transmission assembly, and the steering driver drives the two splayed clamps which are oppositely arranged in the assembly shell to adjust the included angle formed by the two splayed clamps; the opening and closing assembly comprises an air cylinder and a bearing piece, the movable end of the air cylinder is connected with the lower end of the bearing piece, the upper end of the bearing piece is connected with the lower end of the splayed clamp, and the movable end of the air cylinder drives the bearing piece to move up and down to drive the splayed clamp to open and close; the outside of the bearing part is connected with a transmission component of the angle adjusting component, and the steering driver drives the bearing part to rotate.

Preferably, the synchronous connecting piece comprises a synchronous wheel arranged on the assembly shell, and the synchronous wheel is connected with an output shaft of the steering driver through a synchronous belt; the synchronizing wheel is connected with the lower end of the universal joint, and the steering driver drives the two universal joints which are oppositely arranged to move synchronously.

Preferably, the driving wheel is arranged on the upper portion of the universal joint and meshed with the driving wheel arranged outside the bearing piece, and the universal joint drives the opening and closing assembly to rotate through the driving wheel.

Preferably, the upper end of connecting piece with open and shut the connecting rod and be connected, open and shut the connecting rod both ends and install on the subassembly shell, and the splayed clamp lower extreme fixed mounting on the connecting rod that opens and shuts, the expansion end that the splayed pressed from both sides the driver cylinder is connected with the lower extreme of connecting piece, the splayed presss from both sides driver cylinder drive, and it is rotatory to drive the connecting piece upper end, and the connecting piece drives the splayed clamp and opens and shuts.

Preferably, the buffer is arranged on the connecting plate in parallel with the moving direction of the movable rod of the lifting cylinder.

The beneficial effects of the utility model reside in that: the driver is adopted to drive the mechanical structure to replace manual operation, the consistency is good, the production efficiency is improved, the manual participation is reduced, the expenditure of human cost is reduced, the production and the manufacture of an actual industrial assembly line are facilitated, and the market demand is met.

Drawings

Fig. 1 is a schematic view of the structure of the present invention.

Fig. 2 is a schematic structural diagram of the present invention.

Fig. 3 is the structural schematic diagram of the splayed clamp module and the stranded wire module of the present invention.

Fig. 4 is a schematic structural diagram of the stranded wire assembly of the present invention.

Fig. 5 is the schematic structural diagram of the cable clamp driving assembly of the present invention.

Fig. 6 is the utility model discloses stranded conductor clamp and stranded conductor drive actuating cylinder structural schematic.

Fig. 7 is a schematic view of the structure of the splayed clamp module of the present invention.

In the figure, 1-a bracket, 2-a lifting cylinder, 3-a buffer, 4-a connecting plate, 5-a component shell, 6-a cylinder, 7-a driving wheel, 8-a driving wheel, 9-an opening and closing connecting rod, 10-a connecting piece, 11-a splayed clamp driver cylinder, 12-a universal joint, 13-a synchronous connecting piece, 14-a splayed clamp, 15-a twisted clamp and 16-a steering driver.

Detailed Description

The present invention will be further explained with reference to the accompanying drawings.

The first embodiment is as follows:

as shown in fig. 1 and 2, the wire twisting assembly provided in this embodiment includes a support 1, an eight-shaped clamp module and a wire twisting module, the eight-shaped clamp module is mounted on an assembly housing 5, the wire twisting module is mounted in the assembly housing 5, the assembly housing 5 is mounted on a guide rail arranged on the support 1, the guide rail is perpendicular to a bottom plate of the support 1, the assembly housing 5 is connected with a lifting cylinder 2 through a connecting plate 4, and the lifting cylinder 2 drives the assembly housing 5 to move up and down; the splayed clamp module comprises a splayed clamp 14 and a splayed clamp driver, wherein the splayed clamp 14 is arranged on the component shell 5 and is connected with the movable end of a splayed clamp driver cylinder 11 through a connecting piece 10; the stranded conductor module comprises a stranded conductor clamp 15 and a stranded conductor clamp driving assembly, the stranded conductor clamp 15 is installed in the assembly shell 5 and connected with the stranded conductor clamp driving assembly, and the stranded conductor clamp driving assembly drives the stranded conductor clamp 15 to conduct stranded conductor operation.

As shown in fig. 1 to 3, the stranded conductor clamp driving assembly comprises an angle adjusting assembly and an opening and closing assembly, the angle adjusting assembly is connected with the opening and closing assembly, and the angle adjusting assembly drives the opening and closing assembly and the splayed clamps 14 installed on the opening and closing assembly to rotate and adjust included angles formed by the two groups of splayed clamps 14.

As shown in fig. 5, the angle adjusting assembly comprises a steering driver and a universal joint 12, the steering driver is connected with the lower end of the universal joint 12 through a synchronous connecting piece 13, the upper end of the universal joint 12 is connected with an splayed clamp 14 through a transmission assembly, and the steering driver drives the splayed clamp 14 oppositely arranged in the assembly shell 5 to adjust an included angle formed by the splayed clamp 14.

As shown in fig. 4 and 6, the opening and closing assembly comprises an air cylinder 6 and a bearing piece, wherein the movable end of the air cylinder 6 is connected with the lower end of the bearing piece, the upper end of the bearing piece is connected with the lower end of the splayed clamp 14, and the movable end of the air cylinder 6 drives the bearing piece to move up and down to drive the splayed clamp 14 to open and close; the outside of the bearing part is connected with a transmission component of the angle adjusting component, and the steering driver drives the bearing part to rotate.

As shown in fig. 7, the synchronizing link 13 includes a synchronizing wheel provided on the module case 5, the synchronizing wheel being connected to an output shaft of the steering driver through a synchronizing belt; the synchronizing wheel is connected with the lower end of the universal joint 12, and the steering driver drives the two universal joints 12 which are oppositely arranged to move synchronously.

As shown in fig. 7, the transmission assembly comprises a driving wheel 8 mounted on the upper portion of the universal joint 12, the driving wheel 8 is engaged with the transmission wheel 7 mounted on the outer portion of the bearing member, and the driving wheel 8 rotates to drive the transmission wheel 7 and the opening and closing assembly connected to the transmission wheel 7 to rotate.

The upper end of connecting piece 10 is connected with opening and shutting connecting rod 9, opening and shutting connecting rod 9 both ends are installed on subassembly shell 5, and eight characters press from both sides 14 lower extreme fixed mounting on opening and shutting connecting rod 9, eight characters press from both sides the expansion end of driver cylinder 11 and are connected with the lower extreme of connecting piece 10, eight characters press from both sides driver cylinder 11 drive, drive the rotation of connecting piece 10 upper end, and connecting piece 10 drives eight characters and presss from both sides 14 and open and shut.

In this embodiment, a buffer 3 is further disposed on the connecting plate 4, and the buffer 3 is disposed in parallel with the moving direction of the movable rod of the lifting cylinder 2.

The above embodiments are only used for illustrating the present invention, and not for limiting the present invention, and those skilled in the relevant technical field can make various changes and modifications without departing from the spirit and scope of the present invention, so that all equivalent technical solutions also belong to the scope of the present invention, and the protection scope of the present invention should be defined by the claims.

Claims (6)

1. A stranded wire assembly is characterized by comprising a support, a splayed clamp module and a stranded wire module, wherein the splayed clamp module is installed on an assembly shell, the stranded wire module is installed in the assembly shell, the assembly shell is installed on a guide rail arranged on the support, the guide rail is perpendicular to a bottom plate of the support, the assembly shell is connected with a lifting cylinder through a connecting plate, and the lifting cylinder drives the assembly shell to move up and down; the splayed clamp module comprises a splayed clamp and a splayed clamp driver, and the splayed clamp is arranged on the component shell and is connected with the movable end of the splayed clamp driver cylinder through a connecting piece; the stranded conductor module includes stranded conductor clamp and stranded conductor clamp drive assembly, the stranded conductor clamp is installed in the subassembly shell and is connected with stranded conductor clamp drive assembly, stranded conductor clamp drive assembly drive stranded conductor clamp carries out the stranded conductor operation.

2. The stranded wire assembly of claim 1, wherein the stranded wire clamp driving assembly comprises an angle adjusting assembly and an opening and closing assembly, the angle adjusting assembly is connected with the opening and closing assembly, and the angle adjusting assembly drives the opening and closing assembly and the splayed clamps arranged on the opening and closing assembly to rotate to adjust an included angle formed by the two groups of splayed clamps; the angle adjusting assembly comprises a steering driver and a universal joint, the steering driver is connected with the lower end of the universal joint through a synchronous connecting piece, the upper end of the universal joint is connected with the splayed clamps through a transmission assembly, and the steering driver drives the two splayed clamps which are oppositely arranged in the assembly shell to adjust the included angle formed by the two splayed clamps; the opening and closing assembly comprises an air cylinder and a bearing piece, the movable end of the air cylinder is connected with the lower end of the bearing piece, the upper end of the bearing piece is connected with the lower end of the splayed clamp, and the movable end of the air cylinder drives the bearing piece to move up and down to drive the splayed clamp to open and close; the outside of the bearing part is connected with a transmission component of the angle adjusting component, and the steering driver drives the bearing part to rotate.

3. A cable assembly as claimed in claim 2, wherein the timing connection comprises a timing wheel provided on the assembly housing, the timing wheel being connected to the output shaft of the steering drive via a timing belt; the synchronizing wheel is connected with the lower end of the universal joint, and the steering driver drives the two universal joints which are oppositely arranged to move synchronously.

4. A cable twisting assembly as claimed in claim 2, wherein said drive assembly includes a drive wheel mounted on the upper portion of the universal joint, said drive wheel engaging a drive wheel mounted on the exterior of the bearing member, rotation of the drive wheel causing rotation of the drive wheel and the opening and closing assembly connected to the drive wheel.

5. The stranded conductor assembly of claim 1, wherein the upper end of the connecting piece is connected with an opening and closing connecting rod, two ends of the opening and closing connecting rod are mounted on the assembly shell, the lower end of the splayed clamp is fixedly mounted on the opening and closing connecting rod, the movable end of the splayed clamp driver cylinder is connected with the lower end of the connecting piece, the splayed clamp driver cylinder drives to drive the upper end of the connecting piece to rotate, and the connecting piece drives the splayed clamp to open and close.

6. The stranded wire assembly of claim 1, wherein a buffer is further arranged on the connecting plate, and the buffer is arranged in parallel with the moving direction of the movable rod of the lifting cylinder.

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