CN210607976U - Detachable alignment device - Google Patents

Abstract

The utility model discloses a detachable aligning device, including gimbal mechanism and laser sliding mechanism, gimbal mechanism includes first support spare, central authorities' support spare and second support spare, wherein: the first support part and the second support part are both rectangular structures with arc sections, and the first support part and the second support part are fixed on two sides of the central support part in a mirror image manner; a pair of parallel sliding grooves are formed in the arc section of the first support piece and extend to the middle shaft surface of the central support piece; the laser sliding mechanism is connected with the bracket mechanism in a sliding manner through the sliding groove. The utility model discloses in can simulate cable position when laser slide mechanism slips to second spring latch mechanism and aim at fast, can carry out real-time supervision to the cable state in the work when laser slide mechanism slips to first spring latch mechanism, greatly saved hand labor.

Description

Detachable alignment device

Technical Field

The utility model relates to a cable field of making, especially a detachable aligning device.

Background

At present, when the terminal punching press preparation is carried out to the cable, the cable will just reach terminal punching press platform department after unwinding mechanism and guide mechanism in proper order, in order to make the cable can accurately carry to the punching press of terminal punching press platform through guide mechanism and go out, often need aim at the relative position between terminal punching press platform and the guide mechanism before carrying out the punching press, because install the device in the punching press process is various, so often adopt the artifical mode of trying to aim at of unreeling in the prior art, carry out numerous debugging to the relative position between terminal punching press platform and the guide mechanism, this kind of mode is time-consuming and energy-consuming, and it is not high to aim at the precision, so need provide a new aligning device and be used for solving above-mentioned problem.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a detachable aligning device for the problem that manual alignment debugging is wasted time and energy and alignment accuracy is not high before solving among the prior art terminal stamping process.

In order to solve the technical problem, the utility model provides a detachable aligning device, including gimbal mechanism and laser sliding mechanism, gimbal mechanism includes first support spare, central authorities' support spare and second support spare, wherein: the first support part and the second support part are both rectangular structures with arc sections, and the first support part and the second support part are fixed on two sides of the central support part in a mirror image manner; a pair of parallel sliding grooves are formed in the arc section of the first support piece and extend to the middle shaft surface of the central support piece; the laser sliding mechanism is connected with the bracket mechanism in a sliding way through a sliding chute.

Preferably, the laser sliding mechanism comprises a laser emitting device, a sliding plate and a pair of sliding block pieces; the center of one side of the sliding plate is provided with a laser emitting device, the other side of the sliding plate is provided with a pair of sliding block pieces which are arranged in parallel, and the pair of sliding block pieces are correspondingly and slidably connected with the pair of sliding chutes.

Preferably, the sliding block piece is provided with a clamping groove at one end far away from the sliding plate, and the clamping groove is used for being positioned and clamped with two ends of the sliding groove.

Preferably, a first spring clamping mechanism and a second spring clamping mechanism are vertically embedded at two ends of the sliding chute respectively, and the axis of the first spring clamping mechanism is vertical to the axis of the second spring clamping mechanism; the laser sliding mechanism is clamped with one end of the sliding chute, which is far away from the central support part, through the first spring clamping mechanism, and the laser sliding mechanism is clamped with one end of the sliding chute, which is close to the central support part, through the second spring clamping mechanism.

Preferably, the first spring clamping mechanism comprises a sleeve, a clamping ball and a spring, the sleeve is of a cylindrical structure with an axial single-side opening, and the clamping ball is arranged at the opening of the sleeve and is connected with the bottom surface of the sleeve through the spring; the first spring clamping mechanism and the second spring clamping mechanism have the same structure.

Preferably, still be provided with a wire guide, two locking holes, two retaining members and two screw groups on the central support spare, wherein: the wire guide hole penetrates through the central support part along the vertical direction and is positioned between the pair of sliding grooves; the two locking holes are oppositely arranged on the side surface of the central support part in a penetrating way, are communicated with the wire hole and are positioned close to the bottom surface of the central support part, and the locking holes are in a thread structure; two retaining members are arc sheet structure and are provided with the wire guide along wire guide axis direction relatively, and the screw group all is connected with the retaining member through locking the hole.

Preferably, the second support part is provided with a laser receiver, and the laser receiver is positioned at one end, far away from the central support part, of the second support part and is positioned on the same horizontal line with the first spring clamping mechanism.

The utility model has the advantages that: be different from prior art's condition, the utility model discloses in can simulate cable place position when laser slide mechanism slips to second spring latch mechanism and aim at fast, can carry out real-time supervision to the cable state in the work when laser slide mechanism slips to first spring latch mechanism, greatly saved hand labor.

Drawings

Fig. 1 is a schematic structural diagram of an embodiment of a detachable alignment apparatus according to the present invention;

FIG. 2 is a sectional view taken along A-A of FIG. 1;

fig. 3 is a schematic structural diagram of a laser sliding mechanism according to an embodiment of the detachable alignment apparatus of the present invention;

FIG. 4 is a schematic structural diagram of a first spring latching mechanism according to an embodiment of the present invention;

in the figure: 1: a support mechanism; 11: a first bracket member; 111: a chute; 112: a first spring latching mechanism; 112 a: a sleeve; 112 b: clamping the ball; 113 c: a spring; 113: a second spring clamping mechanism; 12: a central support member; 121: a wire guide hole; 122: a locking hole; 123: a locking member; 124: a screw group; 13: a second bracket member; 131: a laser receiver; 2: a laser sliding mechanism; 21: a laser emitting device; 22: a sliding plate; 23: a slider member; 24: a clamping groove.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work all belong to the protection scope of the present invention.

Please refer to fig. 1-4, fig. 1 is a schematic structural diagram of an embodiment of a detachable alignment apparatus of the present invention, fig. 2 is a sectional view along a direction a-a in fig. 1, fig. 3 is a schematic structural diagram of a laser sliding mechanism in an embodiment of a detachable alignment apparatus of the present invention, and fig. 4 is a schematic structural diagram of a first spring latching mechanism in an embodiment of a detachable alignment apparatus of the present invention. The utility model discloses well detachable aligning device includes gimbal mechanism 1 and laser sliding mechanism 2, and gimbal mechanism 1 is used for being fixed in the device whole that the pipe end portion of being qualified for the next round of competitions does not laser sliding mechanism 2 provide the slip track, and laser sliding mechanism 2 then is used for simulating the cable position of being qualified for the next round of competitions to aim at its position. The support mechanism 1 comprises a first support part 11, a central support part 12 and a second support part 13, wherein the first support part 11 and the second support part 13 are both rectangular structures with arc cross sections. In this embodiment, the arc cross section is a quarter arc, and the first bracket part 11 and the second bracket part 13 are fixed on two sides of the central bracket part in a mirror image manner, that is, the first bracket part 11 and the second bracket part 13 are arranged in a mirror image manner by using the central axis plane of the central bracket part 12 as a symmetry plane. A pair of parallel sliding grooves 111 are formed in the arc section of the first support member 11, and the sliding grooves 111 extend from one end of the arc section of the first support member 11 to the middle axial plane of the central support member 12; the laser sliding mechanism 2 is connected with the support mechanism 1 in a sliding manner through the sliding groove 111, so that the laser sliding mechanism 2 can slide to the position of the central axis of the central support part 12 from one end of the arc section of the first support part 11.

Specifically, the respective components of the detachable alignment device in the present embodiment will be described in detail. The laser sliding mechanism 2 includes a laser emitting device 21, a sliding plate 22, and a pair of sliding block pieces 23; the center of one side of the sliding plate 22 is provided with a laser emitting device 21, the other side of the sliding plate 22 is provided with a pair of sliding block pieces 23 which are arranged in parallel, and the pair of sliding block pieces 23 are correspondingly connected with the pair of sliding chutes 111 in a sliding manner; the ends of the sliding block members 23 far away from the sliding plate 22 are provided with clamping grooves 24 for positioning and clamping with the two ends of the sliding chute 111.

A first spring clamping mechanism 112 and a second spring clamping mechanism 113 are vertically embedded in two ends of the sliding chute 111 respectively, and the axis of the first spring clamping mechanism 112 is vertical to the axis of the second spring clamping mechanism 113; the laser sliding mechanism 2 is clamped with one end of the sliding chute 111 far away from the central support part 12 through a first spring clamping mechanism 112, and the laser sliding mechanism 2 is clamped with one end of the sliding chute 111 near the central support part 12 through a second spring clamping mechanism 113; the first spring latching mechanism 112 and the second spring latching mechanism 113 have the same structure, taking the first spring latching mechanism 112 as an example, the first spring latching mechanism 112 includes a sleeve 112a, a latching ball 112b and a spring 112c, the sleeve 112a is a cylindrical structure with an axial single-side opening, and the latching ball 112b is arranged at the opening of the sleeve 112a and is connected with the bottom surface of the sleeve 112a through the spring 112 c. When the first spring clamping mechanism 112 and the slider piece 23 need to be clamped, the straight part of the slider piece 23 abuts against the clamping ball 112b to enable the sliding piece to be in a state of retracting inwards into the sleeve 112a, the spring 112c is in a compressed state at the moment, and when the slider piece 23 slides to the position where the clamping groove 24 and the clamping ball 112b gradually correspond to each other, the clamping ball 112b moves outwards under the elastic force of the spring 112c to abut against the clamping groove 24; similarly, when the two components need to be separated, the motion state of each component is opposite to the clamping process, and details are not described herein; since the second spring latch mechanism 113 is the same as the first spring latch mechanism 112, the process of latching and separating the second spring latch mechanism 113 and the slider 23 is the same as the above process, and further description thereof is omitted.

The central support member 12 is further provided with a wire guiding hole 121, two locking holes 122, two locking members 123 and two screw groups 124, wherein the wire guiding hole 121 penetrates through the central support member 12 along the vertical direction and is located between the pair of sliding grooves 111; the two locking holes 122 are relatively arranged on the side surface of the central support member 12 in a penetrating manner, communicated with the wire guide hole 121 and positioned close to the bottom surface of the central support member 12, and the locking holes 123 are in a threaded structure; two retaining members 122 are arc sheet structure and are provided with wire guide 121 along wire guide 121 axial direction relatively, and screw group 124 all is connected with retaining member 123 through locking hole 122.

The second support member 13 is provided with a laser receiver 131, and the laser receiver 131 is located at one end of the second support member 13 far away from the central support member 12 and is located on the same horizontal line with the first spring clamping mechanism 112.

Further, the operation of the detachable alignment device will be described in detail with reference to the above description of the structure of the detachable alignment device in the present embodiment. When the relative position between the guiding and feeding mechanism and the terminal crimping table needs to be aligned, the wire hole 121 in the central support part 12 is sleeved at the wire outlet of the guiding and feeding mechanism, the two screw groups 124 are screwed, the two locking parts 122 of the arc-shaped mechanism lock the wire outlet, and the device is integrally fixed at the wire outlet of the guiding and feeding mechanism; the laser sliding mechanism 2 slides to the axis position of the central support part 12 through the sliding chute 111 and is clamped with the clamping groove 24 in the laser sliding mechanism 2 through the second spring clamping mechanism 113, because the clamping groove 24 and the clamping ball 112b are adaptive in size in the embodiment and are tightly attached after being clamped, the laser sliding mechanism 2 can be positioned and fixed, the laser emitting device 21 is positioned at the axis position of the central support part 12, the laser emitting device 21 is opened to emit a light beam to simulate the conveying track of a cable, the relative position between the guiding mechanism and the terminal crimping table can be aligned by using the light beam track, the rapid alignment operation between the guiding mechanism and the terminal crimping table can be realized without the cable introduction attempt in the process, and the manual labor is greatly saved; after the alignment is finished, the laser sliding mechanism 2 is slid to the other end of the sliding chute 111 through the sliding chute 111, and is clamped with the clamping groove 24 in the laser sliding mechanism 2 through the first spring clamping mechanism 112, so that the laser sliding mechanism 2 is positioned and fixed, at the moment, the laser emitting device 21 just rotates ninety degrees and is positioned in the horizontal direction, meanwhile, the cable is introduced from the wire guide hole 121, and the laser receiver 131 is opened, because the laser emitting device 21 corresponds to the laser receiver 131 in the horizontal direction, at the moment, because the introduction of the cable shields the light beam between the laser emitting device 21 and the laser receiver 131, the laser receiver 131 cannot receive the light beam signal, and at the moment, the cable is determined to be in a continuous conveying state; when the cable breaks, the laser receiver 131 receives the optical signal transmitted by the laser transmitting device 21, and if the laser receiver 131 is electrically connected with the alarm, the alarm can be given immediately when the laser receiver 131 receives the optical signal, so that a worker is reminded of being in a broken line state, and the machine does not need to be watched by a worker all the time.

Be different from prior art's condition, the utility model discloses in can simulate cable place position when laser slide mechanism slips to second spring latch mechanism and aim at fast, can carry out real-time supervision to the cable state in the work when laser slide mechanism slips to first spring latch mechanism, greatly saved hand labor.

It should be noted that the above embodiments belong to the same utility model concept, and the description of each embodiment has its emphasis, and the description of each embodiment is not described in detail, and reference may be made to the description of other embodiments.

The above-mentioned embodiments only express the embodiments of the present invention, and the description thereof is more specific and detailed, but not construed as limiting the scope of the utility model. It should be noted that, for those skilled in the art, without departing from the spirit of the present invention, several variations and modifications can be made, which are within the scope of the present invention. Therefore, the protection scope of the present invention should be subject to the appended claims.

Claims (7)

1. The utility model provides a detachable aligning device which characterized in that, includes gimbal mechanism and laser sliding mechanism, gimbal mechanism includes first support spare, central authorities' support spare and second support spare, wherein:

the first support part and the second support part are both rectangular structures with arc sections, and the first support part and the second support part are fixed on two sides of the central support part in a mirror image manner;

a pair of parallel sliding grooves are formed in the arc section of the first support piece and extend to the middle shaft surface of the central support piece;

the laser sliding mechanism is connected with the bracket mechanism in a sliding manner through the sliding groove.

2. The removable alignment device of claim 1, wherein the laser slide mechanism comprises a laser emitting device, a slide plate, and a pair of slide block members;

the laser emitting device is arranged in the center of one side of the sliding plate, the pair of sliding block pieces which are arranged in parallel are arranged on the other side of the sliding plate, and the pair of sliding block pieces are correspondingly and slidably connected with the pair of sliding grooves.

3. The removable alignment device of claim 2, wherein the slide block member is provided with a locking groove at an end thereof away from the slide plate for locking with the slide groove.

4. The detachable alignment device according to claim 3, wherein a first spring clamping mechanism and a second spring clamping mechanism are vertically embedded at two ends of the chute, respectively, and the axis of the first spring clamping mechanism is perpendicular to the axis of the second spring clamping mechanism;

the laser sliding mechanism is connected with one end, far away from the central support piece, of the sliding chute in a clamping mode through the first spring clamping mechanism, and the laser sliding mechanism is connected with one end, close to the central support piece, of the sliding chute in a clamping mode through the second spring clamping mechanism.

5. The detachable alignment device as claimed in claim 4, wherein the first spring latching mechanism comprises a sleeve, a latching ball and a spring, the sleeve is a cylindrical tubular structure with an axial single-side opening, and the latching ball is arranged at the opening of the sleeve and connected with the bottom surface of the sleeve through the spring;

the first spring clamping mechanism and the second spring clamping mechanism have the same structure.

6. The removable alignment device of claim 2, wherein the central frame member further comprises a wire guide, two locking holes, two locking members and two screw sets, wherein:

the wire guide hole penetrates through the central support part along the vertical direction and is positioned between the pair of sliding grooves;

the two locking holes are oppositely arranged on the side surface of the central support part in a penetrating manner, are communicated with the wire hole and are positioned close to the bottom surface of the central support part, and the locking holes are of a threaded structure;

two the retaining member is arc sheet structure and is provided with the wire guide along wire guide axis direction relatively in, the screw group all passes through the locking hole with the retaining member is connected.

7. The removable alignment device of claim 4, wherein the second frame member has a laser receiver disposed thereon, the laser receiver being located at an end of the second frame member remote from the central frame member and in a same horizontal line with the first spring latching mechanism.

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