CN210006540U - Core wire pushing device - Google Patents

Abstract

The utility model provides an core wire pushes away device of falling, a serial communication port, including pushing away the fender subassembly, including installed part, driver and ejector pad, the driver is installed on the installed part and be used for the drive the ejector pad opens or is closed, impel the subassembly, including base and second driver, the second driver is installed on the base and with the installed part is connected, the second driver is used for the drive it removes in order to push away the fender subassembly with the core wire pushes away and falls, driver drive the ejector pad is closed, the drive of second driver the ejector pad to the core wire removes in order to with the core wire pushes away and falls, and production efficiency is high.

Description

Core wire pushing device

Technical Field

The utility model belongs to the technical field of the cable processing equipment technique and specifically relates to it is core wire push down device to relate to.

Background

In the cable processing industry, cables usually comprise a plurality of core wires, in some cases, the plurality of core wires need to be divided into two parts, wherein parts of the core wires need to be pushed backwards, and the other parts of the core wires need to be kept in a straight state.

It is common to push the core wire backwards, either manually or with the aid of simple tools. Manual operation often has a high defective product rate and low production efficiency.

Therefore, there is also a need to provide new core wire stripper devices to address the above problems.

SUMMERY OF THE UTILITY MODEL

To the above-mentioned defect of prior art, the utility model provides a higher heart yearn of kinds of production efficiency falls device.

The utility model provides a technical scheme that technical problem adopted as follows:

A core wire reverse pushing device, which comprises a push stop component including a mounting component, a driver and a push block, wherein the driver is mounted on the mounting component and used for driving the push block to open or close, a push component including a base and a second driver, the second driver is mounted on the base and connected with the mounting component, the second driver is used for driving the push stop component to move to push the core wire reverse.

Preferably, the number of the push blocks is two, the push blocks are oppositely arranged, at least push blocks are provided with grooves, and the grooves are located at the ends of the push blocks close to the other push blocks.

Preferably, the cross-sectional shape of the groove is a V shape, a U shape or a square shape.

Preferably, said driver includes a pneumatic finger having two jaws, and said two push blocks are connected to said two jaws respectively.

Preferably, the propelling assembly further comprises a slider, an end of the slider is connected with the second driver, the other end of the slider is connected with the mounting member, and the base is provided with a sliding groove for guiding the sliding direction of the slider.

Preferably, a cover plate for restraining a lateral position of the slider is provided above the slide groove.

Preferably, the second driver comprises a cylinder having a piston rod connected with the slider.

Preferably, the cylinder is further provided with an adjusting rod, the adjusting rod is connected with the piston rod and is located on the side of the cylinder far away from the sliding block, and a fastener for adjusting the stroke of the cylinder is arranged on the adjusting rod.

Preferably, the second driver further comprises a connector, wherein the connector is provided with a near end in threaded connection with the piston rod and a far end in clamping connection with the sliding block.

Preferably, the connector is the axle form, the distal end is equipped with connecting portion and joint portion, joint portion is located keeping away from of connecting portion the side of near-end, the diameter of connecting portion is less than the diameter of joint portion being close to of slider the end of connector is equipped with the joint groove and dodges the groove, the width in joint groove is greater than dodge the width in groove, the joint groove is used for holding joint portion, dodge the groove and be used for holding connecting portion.

Compared with the prior art, the utility model discloses mainly there is following beneficial effect:

the th driver drives the push block to close, and the second driver drives the push block to move towards the core wire so as to push the core wire down, so that the production efficiency is high.

Drawings

In order to more clearly illustrate the solution of the present application, brief descriptions will be given to the drawings required for describing the embodiments, and obviously, the drawings in the following description are embodiments of the present application, and other drawings can be obtained by those skilled in the art without creative efforts.

Fig. 1 is a schematic structural view of a core wire pushing device according to the present invention;

fig. 2 is a schematic structural view of a cable according to the present invention;

fig. 3 is an exploded view of a core wire pushing device according to the present invention.

Reference numerals:

100-core wire pushing device, 10-pushing block assembly, 11-mounting piece, 12- th driver, 12A-pneumatic finger, 121-clamping jaw, 13-pushing block, 131-groove, 20-pushing assembly, 21-base, 211-sliding groove, 22-second driver, 22A-air cylinder, 221-piston rod, 222-adjusting rod, 223-fastening piece, 224-connecting head, 2241-connecting part, 2242-clamping part, 23-sliding block, 231-avoiding groove, 232-clamping groove, 24-cover plate, 90-cable, 91- core wire and 92-second core wire.

Detailed Description

Unless defined otherwise, all technical and scientific terms used herein have the same meaning as commonly understood by one of ordinary skill in the art to which this application belongs, the terms used in the specification of the application herein are for the purpose of describing particular embodiments only and are not intended to be limiting of the application, the terms "comprising" and "having" and any variations thereof in the specification and claims of the application and in the description of the above figures are intended to cover non-exclusive inclusions, the terms "", "second", etc. in the specification and claims of the application or in the above figures are used for distinguishing between different objects and are not intended to describe a particular order.

Reference herein to "an embodiment" means that a particular feature, structure, or characteristic described in connection with the embodiment can be included in at least embodiments of the application.

Fig. 1 is a schematic structural view of a core wire pushing device 100 according to the present invention; fig. 2 is a schematic structural view of a cable 90 according to the present invention; fig. 3 is an exploded view of the core wire toppling device 100 according to the present invention.

Fig. 2 (a) is a schematic view of the state of the cable 90 before being pushed down, and fig. 2 (b) is a schematic view of the state of the cable 90 after being pushed down.

As shown in FIG. 2, cable 90 includes th core wire 91 and second core wire 92. before being laid down, th core wire 91 is substantially perpendicular to second core wire 92, or 0 th core wire 91 forms an acute angle of . after being laid down, th core wire 91 is laid back, th core wire 91 forms an obtuse angle of with second core wire 92. in this embodiment, core wire laying down apparatus 100 may be used to lay down th core wire 91 substantially as shown in FIG. 2 (b). it is understood that th and second core wires 91, 92 may be more than core wires, may be multiple core wires, and th core wire 91 may be a braided wire.

In the present embodiment, for convenience of explanation of the technical solution of the core wire inverting device 100, fig. 1 illustrates the position of the cable 90, but in the present embodiment, the cable 90 does not belong to the portion of the core wire inverting device 100.

As shown in fig. 1 and 3, the core wire reverse device 100 according to the preferred embodiment of the present invention includes a pushing block assembly 10 and a pushing assembly 20.

In this embodiment, the cord inverting device 100 includes a pusher assembly 10 including a mounting member 11, an -th driver 12 and a pusher 13, the -th driver 12 being mounted on the mounting member 11 and adapted to drive the pusher 13 toward or away from the cable 90, and a pusher assembly 20 including a base 21 and a second driver 22, the second driver 22 being mounted on the base 21 and coupled to the mounting member 11, the second driver 22 being adapted to drive the pusher assembly 10 to move to eject the -th cord 91.

In the embodiment, the driver 12 drives the pushing block 13 to close, and the second driver 22 drives the pushing block 13 to move towards the core wire 91 to push the core wire 91 upside down, so that the production efficiency is high.

(push block component)

In this embodiment, the kicker assembly 10 includes a mounting member 11, an -th driver 12, and a pusher 13, the -th driver 12 being mounted on the mounting member 11 and serving to drive the pusher 13 toward or away from the cable 90.

In this embodiment, there are two push blocks 13, which are oppositely arranged, and at least push blocks 13 are provided with grooves 131, the grooves 131 are located at the end of the other push blocks 13, the cross-sectional shape of the grooves 131 can be "V" -shaped, "U" -shaped or square, push blocks 13 can be provided with the grooves 131, or both push blocks 13 can be provided with the grooves 131, when the two push blocks 13 are closed, the second core wire 92 can pass through the grooves 131, and the th core wire 91 is blocked by the push blocks 13, the push blocks 13 move along the axial direction of the cable 90, so as to push the th core wire 91 backwards, preferably, the cross-sectional shape of the grooves 131 can be "V" -shaped, so as to further increase steps of the yield of core wire pushing.

In other examples, the pushing block 13 may not be provided with the groove 131, the end of the pushing block 13 may be flat, when closed, there is a gap between the two pushing blocks 13, the gap may accommodate the second core wire 92, and the pushing block 13 moves along the axial direction of the cable 90 to push the core wire 91 backwards.

In this embodiment, the -th driver 12 may include a pneumatic finger 12A having two jaws 121, and two push blocks 13 connected to the two jaws 121, respectively.

(Propulsion unit)

In this embodiment, the pushing assembly 20 includes a base 21 and a second driver 22, the second driver 22 is mounted on the base 21 and connected to the mounting member 11, and the second driver 22 is used for driving the pushing assembly 10 to move along the axial direction of the cable 90 to push the core wire 91 backwards.

In this embodiment, the propulsion assembly 20 further comprises a slider 23, an end of the slider 23 is connected to the second driver 22, the other end of the slider 23 is connected to the mounting member 11, the base 21 is provided with a slide groove 211 for guiding the sliding direction of the slider 23, a cover plate 24 for restricting the lateral position of the slider 23 is provided above the slide groove 211, and the material of the slider 23, the base 21 and the cover plate 24 may be steel, so that the wear of parts during sliding can be reduced.

In this embodiment, the second actuator 22 may include an air cylinder 22A, the air cylinder 22A has a piston rod 221, the piston rod 221 is connected to the slider 23, the air cylinder 22A further has an adjusting rod 222, the adjusting rod 222 is connected to the piston rod 221, and the adjusting rod 222 is located on the side of the air cylinder far from the slider 23, a fastening member 223 for adjusting the stroke of the air cylinder 22A is provided on the adjusting rod 222, the fastening member 223 may be a nut, the position at which the pushing block 13 stops after pushing down the core wire 91 may be adjusted by adjusting the stroke of the air cylinder 22A, so as to adjust the degree to which the core wire 91 is pushed down, i.e., the size of the included angle between the core wire 91.

In this embodiment, the second actuator 22 further includes a connecting head 224, the connecting head 224 has a proximal end screwed to the piston rod 221 and a distal end engaged with the slider 23, the connecting head 224 is shaft-shaped, the distal end is provided with a connecting portion 2241 and an engaging portion 2242, the engaging portion 2242 is located on the side of the connecting portion 2241 far from the proximal end, the diameter of the connecting portion 2241 is smaller than that of the engaging portion 2242, the end of the slider 23 near the connecting head 224 is provided with an engaging groove 232 and a avoiding groove 231, the width of the engaging groove 232 is larger than that of the avoiding groove 231, the engaging groove 232 is used for accommodating the engaging portion 2242, the avoiding groove 231 is used for accommodating the connecting portion 2241, the diameter of the connecting portion 2241 is smaller than that of the engaging portion 2242, thereby forming a step portion of the shaft, the width of the engaging groove 232 is larger than that of the avoiding groove, the engaging portion 2242 is placed in the engaging groove 232, the function of engaging the piston rod 221 with the slider 23, and the connection of the piston rod 221 with the slider 23 is flexibly connected, thereby reducing the slide error due to the installation position of the cylinder 22A and the.

In this embodiment, the operation of the core wire inverting device 100 includes the pneumatic finger 12A driving the two push blocks 13 to open, the cable 90 moving transversely to a position aligned with the push blocks 13, the pneumatic finger 12A driving the two push blocks 13 to close, the second core wire 92 being located in the groove 131, and the cylinder 22A driving the push blocks 13 to move along the axial direction of the cable 90 to invert the -th core wire 91.

While the present application has been described in detail with reference to the foregoing embodiments, it will be apparent to one skilled in the art that modifications may be made to the embodiments set forth herein without departing from the spirit and scope of the invention, that the present application provides many different forms of embodiments, and that the embodiments are to be accorded the full scope of the disclosure as defined by the appended claims.

Claims (10)

1, core wire pushing device, comprising:

the pushing stop assembly comprises a mounting piece, an th driver and a pushing block, wherein the th driver is mounted on the mounting piece and is used for driving the pushing block to open or close;

and the pushing assembly comprises a base and a second driver, the second driver is installed on the base and connected with the installation part, and the second driver is used for driving the pushing assembly to move so as to push the core wire down.

2. The core-wire pushing device according to claim 1,

the number of the push blocks is two, the push blocks are oppositely arranged, at least push blocks are provided with grooves, and the grooves are located at ends, close to another push blocks, of the push blocks.

3. The core-wire pushing device according to claim 2,

the cross-sectional shape of the groove is V-shaped, U-shaped or square.

4. The core-wire pushing device according to claim 2,

the th driver comprises a pneumatic finger with two clamping jaws, and the two push blocks are respectively connected with the two clamping jaws.

5. The core-wire pushing device according to claim 1,

the propelling assembly further comprises a sliding block, wherein the end of the sliding block is connected with the second driver, the other end of the sliding block is connected with the mounting piece, and the base is provided with a sliding groove used for guiding the sliding direction of the sliding block.

6. The core-wire pushing device according to claim 5,

and a cover plate used for restricting the lateral position of the sliding block is arranged above the sliding groove.

7. The core-wire pushing device according to claim 5,

the second driver comprises a cylinder having a piston rod connected to the slider.

8. The core-wire pushing device of claim 7,

the cylinder is further provided with an adjusting rod, the adjusting rod is connected with the piston rod and is located on the side, far away from the sliding block, of the cylinder, and a fastening piece used for adjusting the stroke of the cylinder is arranged on the adjusting rod.

9. The core-wire pushing device of claim 7,

the second driver still includes the connector, the connector have with piston rod threaded connection's near-end and with the distal end of slider joint.

10. The core-wire pushing device of claim 9,

the connector is the axle form, the distal end is equipped with connecting portion and joint portion, joint portion is located keeping away from of connecting portion the side of near-end, the diameter of connecting portion is less than the diameter of joint portion being close to of slider the end of connector is equipped with the joint groove and dodges the groove, the width in joint groove is greater than dodge the width in groove, the joint groove is used for holding joint portion, it is used for holding to dodge the groove connecting portion.

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