CN210430401U

CN210430401U - Core wire finishing device

Info

Publication number: CN210430401U
Application number: CN201921730146.6U
Authority: CN
Inventors: 舒忠诚
Original assignee: Shenzhen Great Wall Chang Machinery Equipment Co ltd
Current assignee: Shenzhen Great Wall Chang Machinery Equipment Co ltd
Priority date: 2019-10-15
Filing date: 2019-10-15
Publication date: 2020-04-28
Anticipated expiration: 2029-10-15

Abstract

The utility model provides a core wire finishing device, include: a mounting member; a first drive assembly including a first drive member mounted to the mount; the straightening assembly comprises a first arranging piece and a second arranging piece, the first arranging piece and the second arranging piece are movably mounted on the mounting piece, and the first driving part is used for driving the first arranging piece and the second arranging piece to relatively move in a first direction to abut against the core wires; a second drive assembly including a second drive component coupled to the mounting member, the second drive component for driving the mounting member and the straightening assembly to move in a second direction to straighten the core wire; wherein the second direction is perpendicular to the first direction. The first driving part drives the straightening assembly to fold to flatten the core wire, and the second driving part drives the straightening assembly to retreat along the axis direction of the core wire, so that the core wire can be tidied and leveled.

Description

Core wire finishing device

Technical Field

The utility model belongs to the technical field of the cable processing technique and specifically relates to a core wire finishing device.

Background

In the cable processing industry, it is often necessary to solder multiple wires to some circuit device (e.g., a headphone jack). Before welding, a plurality of core wires in a scattered state are generally required to be arranged and leveled.

It is common to arrange the cords either manually or with the aid of simple tools. Manual operation tends to be inefficient.

Therefore, it is also necessary to provide a new core thread arranging device to solve the above problems.

SUMMERY OF THE UTILITY MODEL

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

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

a core wire arranging device is used for arranging a plurality of core wires and is characterized by comprising an installation part; a first drive assembly including a first drive member mounted to the mount; the straightening assembly comprises a first arranging piece and a second arranging piece, the first arranging piece and the second arranging piece are movably mounted on the mounting piece, and the first driving part is used for driving the first arranging piece and the second arranging piece to relatively move in a first direction to abut against the core wires; a second drive assembly including a second drive component coupled to the mounting member, the second drive component for driving the mounting member and the straightening assembly to move in a second direction to straighten the core wire; wherein the second direction is perpendicular to the first direction.

Preferably, the first driving assembly further comprises a first moving member and a second moving member, the first moving member and the second moving member are movably mounted on the mounting member, the first arranging member is mounted on the first moving member, the second arranging member is mounted on the second moving member, the first driving member comprises a first driver and a second driver, the first driver is connected with the first moving member and used for driving the first moving member to move towards the second moving member, and the second driver is connected with the second moving member and used for driving the second moving member to move towards the first moving member.

Preferably, the first driving assembly further comprises a first guide rail assembly, the first guide rail assembly comprises a guide rail, a first slider and a second slider, the first slider and the second slider are slidably mounted on the guide rail, the first guide rail assembly is mounted on the mounting member, the first moving member is mounted on the first slider, and the second moving member is mounted on the second slider.

Preferably, the first arranging part comprises a main body part and a carding part connected with the main body part, the main body part is connected with the first moving part, the carding part is provided with a plurality of carding grooves distributed side by side, and the carding grooves are used for accommodating the core wires.

Preferably, the straightening assembly further comprises two clamping blocks, the two clamping blocks are respectively mounted on the first arranging piece and the second arranging piece, the two clamping blocks face each other and are used for clamping the core wire, and one of the clamping blocks is mounted on the main body part of the first arranging piece and is located on one side, far away from the core wire, of the carding part.

Preferably, the second driving assembly further comprises a base, the second driving part comprises a third driver and a second guide rail assembly, the third driver and the second guide rail assembly are both mounted on the base, the mounting part is mounted on the sliding block of the second guide rail assembly, and the third driver is connected with the mounting part and used for driving the mounting part and the straightening assembly to move along the second direction so as to straighten the core wire.

Preferably, the second driving assembly further comprises a limiting block, the limiting block is mounted on the base, and the limiting block is used for limiting the moving distance of the mounting piece.

Preferably, the core wire arranging device further comprises a cutter assembly, the cutter assembly comprises a first cutter and a second cutter, the first cutter is mounted on the first moving member, the second cutter is mounted on the second moving member, blades of the first cutter and blades of the second cutter are arranged oppositely, and the cutter assembly is used for cutting off the core wire.

Preferably, the core wire arranging device further includes a first cutter seat and a second cutter seat, the first cutter is mounted on the first cutter seat, the first cutter seat is detachably mounted on the first moving member, the second cutter is mounted on the second cutter seat, and the second cutter seat is detachably mounted on the second moving member.

Preferably, the second moving member is located below the first moving member, the second moving member is provided with a discharge groove, and the discharge groove is located on one side, far away from the core wire, of the second cutter.

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

the first driving part drives the first arranging piece and the second arranging piece to close to level the core wires, and the second driving part drives the first arranging piece and the second arranging piece to retreat along the axis direction of the core wires, so that the core wires can be arranged in parallel and level.

Drawings

In order to illustrate the solution of the present application more clearly, the drawings that are needed in the description of the embodiments will be briefly described below, and it is obvious that the drawings in the following description are some embodiments of the present application, and that other drawings can be obtained by those skilled in the art without inventive effort.

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

fig. 2 is an exploded view of a core wire arranging device according to the present invention;

fig. 3 is a schematic structural view of a first organizing member according to the present invention.

Reference numerals:

100-core collating device, 10-first drive assembly, 11-mounting member, 111-first mounting member, 112-second mounting member, 113-third mounting member, 114-fourth mounting member, 12-first drive, 13-second drive, 14-first moving member, 15-second moving member, 151-discharge channel, 16-first guide rail assembly, 161-first slider, 162-second slider, 163-guide rail, 17-stopper, 20-second drive assembly, 21-base, 22-second guide rail assembly, 23-third drive, 231-floating joint, 24-stopper, 30-straightening assembly, 31-first collating member, 311-combing portion, 3111-combing channel, 312-main body portion, 313-an installation groove, 32-a second finishing piece, 33-a clamping block, 40-a cutter component, 41-a first cutter, 42-a second cutter, 51-a first cutter holder, 511-a kidney-shaped groove, 52-a second cutter holder and 90-a 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 terminology used in the description of the application herein is for the purpose of describing particular embodiments only and is not intended to be limiting of the application; the terms "including" and "having," and any variations thereof, in the description and claims of this application and the description of the above figures are intended to cover non-exclusive inclusions. The terms "first," "second," and the like in the description and claims of this application or in the above-described drawings are used for distinguishing between different objects and not for describing 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 one embodiment of the application. The appearances of the phrase in various places in the specification are not necessarily all referring to the same embodiment, nor are separate or alternative embodiments mutually exclusive of other embodiments. It is explicitly and implicitly understood by one skilled in the art that the embodiments described herein can be combined with other embodiments.

Fig. 1 is a schematic structural view of a core wire arranging apparatus 100 according to the present invention; fig. 2 is an exploded view of the core wire arranging device 100 according to the present invention.

As shown in fig. 1 and 2, a core wire arranging device 100 according to a preferred embodiment of the present invention is used for arranging a plurality of core wires 90, and includes a first driving assembly 10, a second driving assembly 20, a straightening assembly 30 and a cutter assembly 40. The straightening assembly 30 and the cutter assembly 40 are both mounted on the first driving assembly 10, and the first driving assembly 10 is mounted on the second driving assembly 20.

In this embodiment, the first drive assembly 10 includes a mounting member 11, a first driver 12, a second driver 13, a first moving member 14, a second moving member 15, and a first guide rail assembly 16. The first actuator 12 and the second actuator 13 are mounted to the mounting member 11, thereby constituting a first driving member, and are adapted to drive the first moving member 14 and the second moving member 15 to move relative to each other. In particular, the first moving part 14 is connected to the first actuator 12 and the second moving part 15 is connected to the second actuator 13. The first guide rail assembly 16 includes a guide rail 163, a first slider 161 and a second slider 162, the first slider 161 and the second slider 162 are slidably mounted to the guide rail 163, the guide rail 163 is mounted to the mounting part 11, the first moving member 14 is mounted to the first slider 161, and the second moving member 15 is mounted to the second slider 162. The first and

second drivers

12 and 13 may be air cylinders. Thus, the first moving member 14 and the second moving member 15 can move relatively, i.e., close or away, along the extending direction of the guide rail 163 by the driving of the first driver 12 and the second driver 13. In other examples, the first driver 12 and the second driver 13 may be linear motors; or the first moving member 14 and the second moving member 15 are connected to two nuts of the screw transmission mechanism. Specifically, the mount 11 includes a first mount 111, a second mount 112, a third mount 113, and a fourth mount 114. The first mounting part 111, the second mounting part 112, the third mounting part 113 and the fourth mounting part 114 may be connected by screw fastening. The guide rail 163 is mounted to the first mounting section 111, the first driver 12 is mounted to the second mounting section 112, and the second driver 13 is mounted to the third mounting section 113. Preferably, the first driving assembly 10 includes a stopper 17, and the stopper 17 is mounted to the first mounting member 111 and serves to limit the stroke of the first moving member 14 and the second moving member 15 when they are closed. Therefore, the distance between the first arranging piece 31 and the second arranging piece 32 and the distance between the first cutter 41 and the second cutter 42 in the folding state can be controlled, so that the optimal process parameters can be obtained, and the arranging quality of the core wires 90 is improved. For convenience of description, it is defined that the second moving part 15 is located on one side of the first moving part 14 close to the ground, that is, the first moving part 14 is located above, the second moving part 15 is located below, and the second moving part 15 is located below the first moving part 14. Preferably, the second moving member 15 is provided with a discharge groove 151, and the discharge groove 151 is located on a side of the second cutter 42 away from the core wire 90. It will be appreciated that the mount 11 may not nominally be attributed to the first drive assembly 10. The moving directions of the first moving member 14 and the second moving member 15 may be referred to as a first direction which is perpendicular to the axial direction of the core wire 90.

In this embodiment, the second driving assembly 20 includes a base 21, a second rail assembly 22, a third driver 23, and a stopper 24. Second rail assembly 22, third driver 23 and stop 24 are all mounted to base 21. The second rail assembly 22 and the third driver 23 may constitute a second driving part. The rails of the second rail assembly 22 extend along the axial direction of the core wire 90. Fourth mount 114 is mounted to the slide of second rail assembly 22, and third actuator 23 is coupled to fourth mount 114 and is configured to actuate movement of fourth mount 114. Stop block 24 is used to block fourth mount 114 to adjust the travel of fourth mount 114. The third driver 23 may be a pneumatic cylinder, and a push rod of the pneumatic cylinder may be connected with the fourth mounting member 114 through a floating joint 231. Thereby, the third driver 23 can drive the first drive assembly 10 to move in the axial direction of the core wire 90. The stopper 24 is located on the side of the fourth mounting member 114 away from the core wire 90, so that the position of the first driving assembly 10 when it retreats can be controlled, whereby the accuracy of the length of the core wire 90 remaining after the core wire 90 is cut by the cutter assembly 40 can be improved. In other examples, the third driver 23 may also be a linear motor; or the fourth mounting member 114 is connected to the nut of the screw drive. Preferably, the first actuator 12, the second actuator 13 and the third actuator 23 may each be a cylinder with a stroke adjuster. The driving direction of the third driver 23 may be referred to as a second direction, which coincides with the axial direction of the core wire 90.

Fig. 3 is a schematic structural view of the first tidying member 31 according to the present invention.

In the present embodiment, the straightening assembly 30 is used for straightening the core wire 90, and includes a first tidying part 31, a second tidying part 32 and a clamping block 33. The first collating member 31 is mounted to the first moving member 14, and the second collating member 32 is mounted to the second moving member 15. Thereby, the first organizing member 31 and the second organizing member 32 can be folded or separated from each other. As shown in fig. 3, the first organizing member 31 includes a main body portion 312 and a comb portion 311 connected to the main body portion 312, and the main body portion 312 is connected to the first moving member 14. The first collating member 31 is provided with a carding portion 311, the carding portion 311 being provided with a plurality of carding grooves 3111 distributed side by side, the carding grooves 3111 being adapted to receive the cords 90. That is, the comb portion 311 may be like a comb. When the third driver 23 drives the first driving assembly 10 to retreat, the combing portion 311 can comb and straighten the plurality of core wires 90. Preferably, the channel width of comb-grooves 3111 may gradually increase in a direction toward second collation 32, i.e., the spacer ribs formed by adjacent comb-grooves 3111 may have tips. This can increase the probability of scattered core wires 90 entering carding tank 3111, and increase the yield of straight core wires 90. Preferably, the straightening assembly 30 further comprises two clamping blocks 33, the two clamping blocks 33 are respectively mounted on the first arranging part 31 and the second arranging part 32, the clamping block 33 mounted on the first arranging part 31 is located on one side of the carding part 311 far away from the core wire 90, and the two clamping blocks 33 face each other and are used for clamping the core wire 90. On the side of the comb portion 311 away from the core wire 90, a mounting groove 313 for mounting the grip block 33 may be provided on the main body portion 312. The clamping block 33 may be made of an elastic material, for example, the clamping block 33 may be made of rubber. When the two clamping blocks 33 are closed, the core wire 90 can be leveled and compressed, and the core wire 90 is more beneficial to straightening when in a tightening state. Therefore, when the third actuator 23 drives the first drive unit 10 to retreat under the clamping of the core wires 90 by the clamping block 33, the combing portion 311 can better comb and straighten the plurality of core wires 90, and the yield of the straightened core wires 90 can be improved.

Generally, before the core wire 90 is soldered to the circuit device, there tends to be a high demand for the length accuracy of the core wire 90 in order to improve the quality of soldering. Some of the core wires 90 have been cut to length before finishing, but the core wires 90 before finishing are usually in a scattered state, and after the core wires 90 are straightened, the length of the core wires 90 may be changed, resulting in a non-uniform length of the plurality of core wires 90. In order to further improve the length accuracy of the core wires 90, the core wire arranging device 100 according to the present application further includes a cutter assembly 40, and the cutter assembly 40 is configured to cut the core wires 90 after straightening the core wires 90, so as to ensure that the plurality of core wires 90 have a uniform length.

In this embodiment, the cutter assembly 40 includes a first cutter 41 and a second cutter 42, the first cutter 41 is mounted on the first moving member 14, the second cutter 42 is mounted on the second moving member 15, and the cutting edges of the first cutter 41 and the second cutter 42 face each other. The first cutter 41 and the second cutter 42 are both perpendicular to the axis of the core wire 90. When the first moving member 14 and the second moving member 15 are closed, the first cutter 41 and the second cutter 42 can cut off the core wire 90. This can improve the uniformity of the lengths of the plurality of core wires 90. Preferably, the core wire arranging device 100 further includes a first cutter seat 51 and a second cutter seat 52, the first cutter 41 is mounted on the first cutter seat 51, the first cutter seat 51 is mounted on the first moving member 14, the second cutter 42 is mounted on the second cutter seat 52, the second cutter seat 52 is mounted on the second moving member 15, and positions of the first cutter seat 51 and the second cutter seat 52 along the axial direction of the core wire 90 are both adjustable. The first and second cutter seats 51 and 52 may be mounted to the first and second moving

members

14 and 15, respectively, in a screw fastening manner. On the first and second cutter seats 51 and 52, or on the first and second moving

members

14 and 15, a kidney-shaped groove 511 for accommodating a screw head is provided, and the extending direction of the kidney-shaped groove 511 coincides with the axial direction of the core wire 90. Thus, the positions of the first cutter 41 and the second cutter 42 in the axial direction of the core wire 90 can be adjusted according to the length requirement of the core wire 90, so that the core wire arranging device 100 can be applied to core wires 90 with different length requirements, and the length precision of the core wire 90 after cutting can be improved. As described above, the second moving member 15 is provided with the discharge groove 151, and the discharge groove 151 is located on the side of the second cutter 42 away from the core wire 90. The severed cords 90 can be discharged from the discharge chute 151 to avoid plugging and disturbing the severing action.

In the present embodiment, the core wire 90 is loaded on a carrier (not shown) that flows laterally, and the work flow of the core wire arranging apparatus 100 includes: waiting for the carriers to deliver core wire 90 to a position aligned with straightening assembly 30, first actuator 12 and second actuator 13 to drive first moving member 14 and second moving member 15 together, core wire 90 enters carding slot 3111 and is gripped by gripper block 33, third actuator 23 to drive straightening assembly 30 back to smooth out core wire 90, first actuator 12 and second actuator 13 to drive first moving member 14 and second moving member 15 open, waiting for the carriers to deliver core wire 90 to a position aligned with cutter assembly 40, first actuator 12 and second actuator 13 to drive first moving member 14 and second moving member 15 together again, cutter assembly 40 to cut core wire 90, and first actuator 12 and second actuator 13 to drive first moving member 14 and second moving member 15 together again to release core wire 90.

It is to be understood that the above-described embodiments are merely illustrative of some, but not restrictive, of the broad invention, and that the appended drawings illustrate preferred embodiments of the invention and do not limit the scope of the invention. This application is capable of embodiments in many different forms and is provided for the purpose of enabling a thorough understanding of the disclosure of the application. Although 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 the present application may be practiced without modification or with equivalents of some of the features described in the foregoing embodiments. All equivalent structures made by using the contents of the specification and the drawings of the present application are directly or indirectly applied to other related technical fields and are within the protection scope of the present application.

Claims

1. A core wire finishing device is used for finishing a plurality of core wires and is characterized by comprising:

a mounting member;

a first drive assembly including a first drive member mounted to the mount;

the straightening assembly comprises a first arranging piece and a second arranging piece, the first arranging piece and the second arranging piece are movably mounted on the mounting piece, and the first driving part is used for driving the first arranging piece and the second arranging piece to relatively move in a first direction to abut against the core wires;

a second drive assembly including a second drive component coupled to the mounting member, the second drive component for driving the mounting member and the straightening assembly to move in a second direction to straighten the core wire;

wherein the second direction is perpendicular to the first direction.

2. The cord organizing device of claim 1,

the first driving assembly further comprises a first moving part and a second moving part, the first moving part and the second moving part are movably mounted on the mounting part, the first arranging part is mounted on the first moving part, the second arranging part is mounted on the second moving part, the first driving part comprises a first driver and a second driver, the first driver is connected with the first moving part and used for driving the first moving part to move towards the second moving part, and the second driver is connected with the second moving part and used for driving the second moving part to move towards the first moving part.

3. The cord collating apparatus of claim 2,

the first driving assembly further comprises a first guide rail assembly, the first guide rail assembly comprises a guide rail, a first sliding block and a second sliding block, the first sliding block and the second sliding block are slidably mounted on the guide rail, the first guide rail assembly is mounted on the mounting piece, the first moving piece is mounted on the first sliding block, and the second moving piece is mounted on the second sliding block.

4. The cord collating apparatus of claim 2,

the first arranging piece comprises a main body part and a carding part connected with the main body part, the main body part is connected with the first moving piece, the carding part is provided with a plurality of carding grooves distributed side by side, and the carding grooves are used for containing the core wires.

5. The cord collating apparatus of claim 4,

the straightening assembly further comprises two clamping blocks, the two clamping blocks are respectively installed on the first arranging piece and the second arranging piece, the two clamping blocks face each other and are used for clamping the core wire, and one clamping block is installed on the main body portion of the first arranging piece and located on one side, far away from the core wire, of the carding portion.

6. The cord collating apparatus of claim 2,

the second driving component comprises a third driver and a second guide rail component, the third driver and the second guide rail component are both mounted on the base, the mounting part is mounted on the sliding block of the second guide rail component, and the third driver is connected with the mounting part and used for driving the mounting part and the straightening component to move along the second direction so as to straighten the core wire.

7. The cord collating apparatus of claim 6,

the second driving assembly further comprises a limiting block, the limiting block is installed on the base, and the limiting block is used for limiting the moving distance of the installation piece.

8. A core wire organizing device according to any one of claims 2-7,

the core wire cutting device is characterized by further comprising a cutter assembly, the cutter assembly comprises a first cutter and a second cutter, the first cutter is mounted on the first moving member, the second cutter is mounted on the second moving member, the cutting edges of the first cutter and the second cutter are arranged oppositely, and the cutter assembly is used for cutting off the core wire.

9. The cord organizing device of claim 8,

the cutting device comprises a first moving member, a second moving member, a first cutter seat and a second cutter seat, wherein the first cutter is arranged on the first cutter seat, the first cutter seat is detachably arranged on the first moving member, the second cutter is arranged on the second cutter seat, and the second cutter seat is detachably arranged on the second moving member.

10. The cord organizing device of claim 8,

the second moving member is located below the first moving member, the second moving member is provided with a discharge groove, and the discharge groove is located on one side, far away from the core wire, of the second cutter.