CN218040178U - Multi-core wire branching device - Google Patents

Abstract

A multi-core wire branching device comprising: the multi-core wire core to be processed is positioned between the upper wire distributing mechanism and the lower wire distributing mechanism, and the front-back moving mechanism and the up-down moving mechanism can realize the front-back up and down movement of the upper wire distributing mechanism and the lower wire distributing mechanism; the invention is realized by adopting the front-back moving mechanism and the up-down moving mechanism, thereby realizing the front-back, left-right position positioning, wire clamping and moving of the upper wire separating mechanism and the lower wire separating mechanism, the lower wire separating mechanism gathers the multi-core wire cores, and the upper wire separating mechanism can bend one of the multi-core wire cores, thereby completing the wire separating process of the multi-core wires, greatly improving the wire separating reliability and reducing the reject ratio.

Description

Multi-core wire branching device

Technical Field

The utility model belongs to the technical field of the multicore line separated time, especially, relate to a multicore line separated time device.

Background

The multi-wire core wire rod is required to distinguish the wire core in the processing process, if during subsequent tin dipping operation, because the distance between adjacent wire cores is too small, the tin connecting phenomenon is generated between the adjacent wire cores when tin dipping is easily caused, so that subsequent processes such as bushing penetrating cannot be carried out, the wire core is required to be separated firstly for ensuring the subsequent processes, because the indirection between the wire cores of the multi-wire core is small, the interference is easily caused, the wire separating operation difficulty is extremely high, the reliability is low, and the reject ratio is high.

SUMMERY OF THE UTILITY MODEL

An object of the embodiments of the present application is to provide a multi-core wire branching device, which aims to improve the reliability of multi-core wire branching and reduce the branching defective rate.

In order to achieve the purpose, the technical scheme adopted by the application is as follows: provided is a multi-core wire branching device, including: the multi-core wire core to be processed is positioned between the upper wire distributing mechanism and the lower wire distributing mechanism, and the front-back moving mechanism and the up-down moving mechanism can realize the front-back up and down movement of the upper wire distributing mechanism and the lower wire distributing mechanism.

The back-and-forth movement mechanism includes: the device comprises a mounting vertical plate, a front and rear driving motor mounting plate, a front and rear driving motor, a front and rear moving screw rod assembly, a first front and rear guide rail, a first front and rear slide block, a second front and rear guide rail, a second front and rear slide block and a front and rear moving movable plate;

the front and rear driving motor mounting plate is fixedly connected with the mounting vertical plate, the front and rear driving motor is fixedly connected with the front and rear driving motor mounting plate, the front and rear moving screw rod assembly is fixed on the mounting vertical plate, the first front and rear guide rail and the second front and rear guide rail are fixed on the mounting vertical plate, the first front and rear slide block is slidably arranged on the first front and rear guide rail, the second front and rear slide block is slidably arranged on the second front and rear guide rail, and the front and rear driving motor is used for driving the front and rear moving screw rod assembly and realizing the front and rear moving of the front and rear moving movable plate fixed on the front and rear moving screw rod assembly.

The up-and-down moving mechanism includes: the vertical plate is movably mounted up and down, the mounting plate of the up-down driving motor, the coupler, the upper fixing plate of the screw rod with positive and negative teeth, the lower fixing plate of the screw rod with positive and negative teeth, the upper nut of the screw rod with positive and negative teeth, the lower nut of the screw rod with positive and negative teeth, the first up-down guide rail, the up-moving slide block, the down-moving slide block, the up-moving movable plate, the down-moving movable plate, the upper cutter mounting block and the lower cutter mounting block;

the upper and lower driving motor mounting plates are fixedly connected with the upper and lower movable mounting vertical plates, the upper and lower driving motors are fixed on the upper and lower driving motor mounting plates, the first upper and lower guide rails are fixed on the upper and lower movable mounting vertical plates, the upper moving slider is slidably arranged on the first upper and lower guide rails, the lower moving slider is slidably arranged on the first upper and lower guide rails, the coupler is fixed at the output end of the upper and lower driving motor and is used for connecting the upper and lower driving motors with the positive and negative teeth lead screws, the upper fixed plate of the positive and negative teeth lead screws is fixed on the upper and lower movable mounting vertical plates, the lower fixed plate of the positive and negative teeth lead screws is fixed on the upper and lower movable mounting vertical plates, the positive and negative teeth lead screws are rotatably arranged between the upper fixed plate of the positive and negative teeth lead screws and the lower fixed plate of the positive and negative teeth lead screws, the upper nut of the positive and negative teeth lead screws and the lower nut of the positive and negative teeth lead screws are arranged on the positive and negative teeth lead screws, the upper nut of the positive and negative teeth lead screws are fixedly connected with the upper moving slider and the lower moving cutter, and the lower moving slider are fixedly connected with the movable plate, and the upper moving slider and the lower cutter.

Go up branching mechanism includes: the device comprises an upper branching mounting plate, an upper branching connecting plate, an upper branching cylinder fixing plate, an upper branching cylinder, an upper branching guide block and an upper branching block;

the upper branching cylinder is fixedly connected with the upper branching cylinder fixing plate, the upper branching guide block is fixedly connected with the upper branching cylinder, the upper branching block is fixed at the output end of the upper branching cylinder, the upper branching block is provided with a first inclined plane, the upper branching block is tightly attached to the upper branching guide block at the same time, and the upper branching block is further provided with a first boss.

The lower branching mechanism includes: the device comprises a lower branching installation block, a lower branching connection block and a lower branching lead block;

the lower branching installation block is fixedly connected with the lower branching connection block, the lower branching lead block is fixedly connected with the lower branching connection block, a lead groove is formed in the lower branching lead block, an open groove is formed in one side face of the lower branching lead block, and the lead groove is used for gathering the multi-core wire core.

The upper branching mounting plate is fixedly connected with the upper cutter mounting block, the lower branching mounting block is fixedly connected with the lower cutter mounting block, the upper branching block is positioned on the front side of the lower branching lead block, and when the upper branching cylinder extends out, the upper branching block can be positioned in the open slot of the lower branching lead block.

The beneficial effect of this application lies in: the invention adopts the back-and-forth moving mechanism to move the upper branching mechanism and the lower branching mechanism to the root parts of the multi-core wire cores, the up-and-down moving mechanism adopts the positive and negative tooth lead screws, so as to drive the upper branching mechanism and the lower branching mechanism to move in opposite directions or move in opposite directions, when the upper branching mechanism and the lower branching mechanism move in opposite directions, the multi-core wire cores are gathered and pressed, then the back-and-forth moving mechanism moves backwards to a set position, then the upper branching cylinder acts, and the first lug boss of the upper branching block presses one of the multi-core wire cores downwards to bend and deform the multi-core wire cores, so that the core areas of the multi-core wires are separated, the branching reliability is greatly improved, and the reject ratio is reduced.

Drawings

In order to more clearly illustrate the technical solutions in the embodiments of the present application, the drawings needed to be used in the embodiments or the prior art descriptions will be briefly described below, and it is obvious that the drawings in the following description are only some embodiments of the present application, and it is obvious for those skilled in the art to obtain other drawings based on these drawings without inventive exercise.

Fig. 1 is a perspective view of an apparatus provided in an embodiment of the present application;

FIG. 2 is an exploded view of an apparatus provided by an embodiment of the present application;

FIG. 3 is an exploded view of a back and forth movement mechanism of an embodiment of the present application;

FIG. 4 is an exploded view of the up and down movement of an embodiment of the present application;

FIG. 5 is an exploded view of the upper thread separation mechanism according to an embodiment of the present application;

fig. 6 is an exploded view of the downward branching mechanism in the embodiment of the present application.

Wherein, in the figures, the various reference numbers:

the wire guide device comprises a front-back moving mechanism 1, a front-back moving mechanism 2, an upper wire distributing mechanism 3, a lower wire distributing mechanism 4, a multi-wire core wire a1, a mounting vertical plate 101, a front-back driving motor mounting plate 102, a front-back driving motor 103, a front-back moving screw rod assembly 104, a first front-back guide rail 105, a first front-back slider 106, a second front-back guide rail 107, a second front-back slider 108, a front-back moving movable plate 109, a front-back movable mounting vertical plate 201, a front-back driving motor mounting plate 202, a front-back driving motor 203, a coupler 204, a front-back tooth screw rod upper fixing plate 205, a front-back tooth screw rod lower fixing plate 207, a front-back tooth screw rod upper nut 208, a front-back tooth screw rod lower nut 209, a first upper-lower guide rail 210, an upper moving slider 211, a lower moving slider 212, an upper moving movable plate 213, a lower moving movable plate 214, an upper cutter mounting block 220, a lower cutter mounting block 221, an upper wire mounting plate 301, an upper wire distributing connecting plate 302, an upper wire distributing cylinder fixing plate 303, an upper wire distributing cylinder 304, an upper wire distributing guide block 305, an upper wire distributing block 306, a first inclined plane x1, a first boss t1, a lower connecting block 403, a lower open slot 401, a lower open slot 402, a lower wire guiding block 402, a lower guide slot 1 c, a lower guide block, a lower wire guide 1 c, a lower wire guide block, a lower wire guide slot 1.

Detailed Description

In order to make the technical problems, technical solutions and advantageous effects to be solved by the present application clearer, the present application is further described in detail below with reference to the accompanying drawings and embodiments. It should be understood that the specific embodiments described herein are merely illustrative of the present application and are not intended to limit the present application.

It will be understood that when an element is referred to as being "secured to" or "disposed on" another element, it can be directly on the other element or be indirectly on the other element. When an element is referred to as being "connected to" another element, it can be directly connected to the other element or be indirectly connected to the other element.

It will be understood that the terms "length," "width," "upper," "lower," "front," "rear," "left," "right," "vertical," "horizontal," "top," "bottom," "inner," "outer," and the like, as used herein, refer to an orientation or positional relationship indicated in the drawings that is solely for the purpose of facilitating the description and simplifying the description, and do not indicate or imply that the device or element being referred to must have a particular orientation, be constructed and operated in a particular orientation, and thus should not be considered as limiting the present application.

Furthermore, the terms "first", "second" and "first" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance or implicitly indicating the number of technical features indicated. Thus, a feature defined as "first" or "second" may explicitly or implicitly include one or more of that feature. In the description of the present application, "a plurality" means two or more unless specifically limited otherwise.

Referring to fig. 1 to fig. 6, an embodiment of the present application provides a multi-core wire branching device for implementing multi-core wire branching operation, including: the multi-core wire core processing device comprises a front-back moving mechanism 1, a front-back moving mechanism 2 fixed on the front-back moving mechanism 1, an upper wire distributing mechanism 3 fixed on the front-back moving mechanism 2 and a lower wire distributing mechanism 4, wherein the multi-core wire core a1 to be processed is positioned between the front-back moving mechanism 1 and the front-back moving mechanism 2, and the front-back moving mechanism 3 and the lower wire distributing mechanism 4 can move front and back and forth.

The forward-backward movement mechanism 1 includes: the vertical plate mounting device comprises a mounting vertical plate 101, a front and back driving motor mounting plate 101, a front and back driving motor 103, a front and back moving screw rod assembly 104, a first front and back guide rail 105, a first front and back slider 106, a second front and back guide rail 107, a second front and back slider 108 and a front and back moving movable plate 109;

the front and rear driving motor mounting plate 101 is fixedly connected with the mounting vertical plate 101, the front and rear driving motor 103 is fixedly connected with the front and rear driving motor mounting plate 101, the front and rear moving screw rod assembly 104 is fixed on the mounting vertical plate 101, the first front and rear guide rail 105 and the second front and rear guide rail 107 are fixed on the mounting vertical plate 101, the first front and rear slider 106 is slidably arranged on the first front and rear guide rail 105, the second front and rear slider 108 is slidably arranged on the second front and rear guide rail 107, and the front and rear driving motor 103 is used for driving the front and rear moving screw rod assembly 104 and realizing the front and rear movement of the front and rear moving movable plate 109 fixed on the front and rear moving screw rod assembly 104.

The up-down moving mechanism 2 includes: the vertical plate 201 is movably mounted up and down, the mounting plate 202 of the up-down driving motor, the up-down driving motor 203, the coupler 204, the upper fixing plate 205 of the positive and negative teeth screw rod, the positive and negative teeth screw rod 206, the lower fixing plate 207 of the positive and negative teeth screw rod, the upper nut 208 of the positive and negative teeth screw rod, the lower nut 209 of the positive and negative teeth screw rod, the first upper and lower guide rails 210, the upper moving slider 211, the lower moving slider 212, the upper moving movable plate 213, the lower moving movable plate 214, the upper cutter mounting block 220 and the lower cutter mounting block 221;

the upper and lower driving motor mounting plate 202 is fixedly connected with an upper and lower movable mounting vertical plate 201, the upper and lower driving motor 203 is fixed on the upper and lower driving motor mounting plate 202, a first upper and lower guide rail 210 is fixed on the upper and lower movable mounting vertical plate 201, an upper moving slider 211 is slidably arranged on the first upper and lower guide rail 210, a lower moving slider 212 is slidably arranged on the first upper and lower guide rail 210, a coupler 204 is fixed at the output end of the upper and lower driving motor 203 and is used for connecting the upper and lower driving motor 203 and a positive and negative tooth lead screw 206, the positive and negative tooth lead screw upper fixing plate 205 is fixed on the upper and lower movable mounting vertical plate 201, the positive and negative tooth lead screw lower fixing plate 207 is fixed on the upper and lower movable mounting vertical plate 201, the positive and negative tooth lead screw 206 is rotatably arranged between the positive and negative tooth lead screw upper fixing plate 205 and the positive and negative tooth lead screw lower fixing plate 207, the positive and negative tooth lead screw upper nut 208 and the positive and negative tooth lead screw lower nut 209 are arranged on the positive and negative tooth lead screw 206, the positive and negative tooth lead screw upper nut 208 is fixedly connected with an upper moving movable mounting plate 213, the lower moving slider 214, the upper moving slider is fixedly connected with a lower moving knife mounting block 221, the upper moving knife fixing block is connected with the upper moving knife fixing block 214 and a lower moving knife mounting block 220.

The upper branching mechanism 3 includes: an upper branching mounting plate 301, an upper branching connecting plate 302, an upper branching cylinder fixing plate 303, an upper branching cylinder 304, an upper branching guide block 305, and an upper branching block 306;

the upper branching connecting plate 302 is detachably connected with the upper branching mounting plate 301, the upper branching cylinder fixing plate 303 is fixedly connected with the upper branching connecting plate 302, the upper branching cylinder 304 is fixedly connected with the upper branching cylinder fixing plate 303, the upper branching guide block 305 is fixedly connected with the upper branching cylinder fixing plate 304, the upper branching block 306 is fixed at the output end of the upper branching cylinder 304, the upper branching block is provided with a first inclined plane x1, one surface of the upper branching block 306 is tightly attached to the upper branching guide block 305, and the upper branching block 306 is further provided with a first boss t1.

The downward branching mechanism 4 includes: a lower branching installation block 401, a lower branching connection block 402, and a lower branching lead block 403;

the lower branching installation block 401 is fixedly connected with the lower branching connection block 402, the lower branching lead block 403 is fixedly connected with the lower branching connection block 402, a lead groove c1 is formed in the lower branching lead block 403, an open groove k1 is formed in one side face of the lower branching lead block 403, and the lead groove c1 is used for gathering the multi-core wire core a 1.

Go up separated time mounting panel 301 with go up cutter installation piece 220 fixed connection, down separated time installation piece 401 with cutter installation piece 221 fixed connection down, go up separated time piece 306 is located separated time wire piece 403 front side down, when going up separated time cylinder 304 and stretching out, go up separated time piece 306 can be located separated time wire piece 403 down in the open slot k1.

The working principle is as follows:

the back-and-forth moving mechanism moves the upper branching mechanism and the lower branching mechanism to the root of the multi-core wire core, the up-and-down moving mechanism drives the upper branching mechanism and the lower branching mechanism to move oppositely through the positive and negative lead screws to gather and press the multi-core wire cores in the open slot, then the back-and-forth moving mechanism moves backwards to a set position, then the upper branching cylinder moves, the upper branching block moves downwards, and a first boss of the upper branching block presses one of the multi-core wire cores downwards to enable the multi-core wire cores to be bent and deformed in the moving process, so that the multi-core wire core areas are separated respectively.

The invention is realized by adopting the front-back moving mechanism and the up-down moving mechanism, thereby realizing the front-back, left-right position positioning, wire clamping and moving of the upper wire separating mechanism and the lower wire separating mechanism, the lower wire separating mechanism gathers the multi-core wire cores, and the upper wire separating mechanism can bend one of the multi-core wire cores, thereby completing the wire separating process of the multi-core wires, greatly improving the wire separating reliability and reducing the reject ratio.

The above description is only exemplary of the present application and should not be taken as limiting the present application, as any modification, equivalent replacement, or improvement made within the spirit and principle of the present application should be included in the protection scope of the present application.

Claims (6)

1. A multi-core wire branching device, comprising: the multi-core wire core to be processed is positioned between the upper wire distributing mechanism and the lower wire distributing mechanism, and the front-back moving mechanism and the up-down moving mechanism can realize the front-back moving of the upper wire distributing mechanism and the lower wire distributing mechanism.

2. The multi-wire parting device of claim 1, wherein said back and forth movement mechanism comprises: the device comprises a mounting vertical plate, a front and rear driving motor mounting plate, a front and rear driving motor, a front and rear moving screw rod assembly, a first front and rear guide rail, a first front and rear sliding block, a second front and rear guide rail, a second front and rear sliding block and a front and rear moving movable plate;

the front and rear driving motor mounting plate is fixedly connected with the mounting vertical plate, the front and rear driving motor is fixedly connected with the front and rear driving motor mounting plate, the front and rear moving screw rod assembly is fixed on the mounting vertical plate, the first front and rear guide rail and the second front and rear guide rail are fixed on the mounting vertical plate, the first front and rear slide block is slidably arranged on the first front and rear guide rail, the second front and rear slide block is slidably arranged on the second front and rear guide rail, and the front and rear driving motor is used for driving the front and rear moving screw rod assembly and realizing the front and rear moving of the front and rear moving movable plate fixed on the front and rear moving screw rod assembly.

3. The multi-core wire branching device of claim 1 wherein the up-and-down moving mechanism comprises: the vertical plate is movably mounted up and down, the mounting plate of the up-down driving motor, the coupler, the upper fixed plate of the positive and negative screw rod, the positive and negative screw rod lower fixed plate, the upper nut of the positive and negative screw rod, the lower nut of the positive and negative screw rod, the first up-down guide rail, the up-moving slide block, the down-moving slide block, the up-moving movable plate, the down-moving movable plate, the upper cutter mounting block and the lower cutter mounting block; the upper and lower driving motor mounting plates are fixedly connected with the upper and lower movable mounting vertical plates, the upper and lower driving motors are fixed on the upper and lower driving motor mounting plates, the first upper and lower guide rails are fixed on the upper and lower movable mounting vertical plates, the upper moving slider is slidably arranged on the first upper and lower guide rails, the lower moving slider is slidably arranged on the first upper and lower guide rails, the coupler is fixed at the output end of the upper and lower driving motor and is used for connecting the upper and lower driving motors with the positive and negative teeth lead screws, the upper fixed plate of the positive and negative teeth lead screws is fixed on the upper and lower movable mounting vertical plates, the lower fixed plate of the positive and negative teeth lead screws is fixed on the upper and lower movable mounting vertical plates, the positive and negative teeth lead screws are rotatably arranged between the upper fixed plate of the positive and negative teeth lead screws and the lower fixed plate of the positive and negative teeth lead screws, the upper nut of the positive and negative teeth lead screws and the lower nut of the positive and negative teeth lead screws are arranged on the positive and negative teeth lead screws, the upper nut of the positive and negative teeth lead screws are fixedly connected with the upper moving slider and the lower moving cutter, and the lower moving slider are fixedly connected with the movable plate, and the upper moving slider and the lower cutter.

4. The multi-wire parting device of claim 3, wherein the upper parting mechanism comprises: the device comprises an upper branching mounting plate, an upper branching connecting plate, an upper branching cylinder fixing plate, an upper branching cylinder, an upper branching guide block and an upper branching block; the upper branching cylinder is fixedly connected with the upper branching cylinder fixing plate, the upper branching guide block is fixedly connected with the upper branching cylinder, the upper branching block is fixed at the output end of the upper branching cylinder, the upper branching block is provided with a first inclined plane, the upper branching block is tightly attached to the upper branching guide block at the same time, and the upper branching block is further provided with a first boss.

5. The multi-wire parting device of claim 4, wherein the de-parting mechanism comprises: the device comprises a lower branching installation block, a lower branching connection block and a lower branching lead block;

the lower branching installation block is fixedly connected with the lower branching connection block, the lower branching lead block is fixedly connected with the lower branching connection block, a lead groove is formed in the lower branching lead block, an open groove is formed in one side face of the lower branching lead block, and the lead groove is used for gathering the multi-core wire core.

6. The multi-core wire branching device according to claim 5, wherein the upper branching mounting plate is fixedly connected to the upper cutter mounting block, the lower branching mounting block is fixedly connected to the lower cutter mounting block, the upper branching block is located on a front side of the lower branching wire block, and the upper branching block is located in the open slot of the lower branching wire block when the upper branching cylinder is extended.

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