CN116130168B

CN116130168B - Intelligent cable preparation system

Info

Publication number: CN116130168B
Application number: CN202211683845.6A
Authority: CN
Inventors: 朱文渊; 李万荣; 王志均
Original assignee: Jinhong Electronics Co ltd
Current assignee: Jinhong Electronics Co ltd
Priority date: 2022-12-27
Filing date: 2022-12-27
Publication date: 2023-10-24
Anticipated expiration: 2042-12-27
Also published as: CN116130168A

Abstract

The invention discloses an intelligent cable preparation system, which comprises: a controller; the support frame is provided with a V-shaped accommodating groove; the holding rack is used for holding cable rolls; the first clamp is used for clamping the cable of the cable coil in the containing frame; the first driving mechanism is slidably arranged on one side of the support frame along a first direction; a first drive cylinder disposed in the first drive mechanism, wherein the first clamp is disposed in a telescopic rod of the first drive cylinder; a second clamp for clamping the cable in a predetermined position; the second driving cylinder is arranged at the other end of the supporting frame, and the telescopic rod of the second driving cylinder is connected with the second clamp; the identification and statistics mechanism is used for counting the length of the cable; and the cutting mechanism is used for cutting the cable at the preset position when the length of the cable reaches the preset length. Through the mode, the intelligent cable preparation system disclosed by the invention is high in intelligence, low in labor cost and high in working efficiency, and can meet the high-quality requirements of manufacturers.

Description

Intelligent cable preparation system

Technical Field

The invention relates to the technical field of cable production, in particular to an intelligent cable preparation system.

Background

With the development of technology, electric power is an indispensable important energy source for modern life, daily production and life are not separated from electric power, and cables are key to electric power transmission. Typically, the cable is a rope-like wire stranded from several cables or groups of cables, each group being insulated from each other, surrounded by a tie, and finally covered with a highly insulating coating.

However, in the conventional manner, most of the production of the cable is performed manually, so that the labor cost is high and the working efficiency is low.

Disclosure of Invention

The intelligent cable preparation system mainly solves the technical problems of high intellectualization, low labor cost and high working efficiency, and can meet the high-quality requirements of manufacturers.

In order to solve the technical problems, the invention adopts a technical scheme that: the utility model provides a cable intelligence preparation system which characterized in that includes: the controller is provided with a touch screen with preset length for inputting a cable to be cut; the support frame is provided with a V-shaped accommodating groove for accommodating the cut cable; the cable winding device comprises a holding frame, a supporting frame and a winding frame, wherein the holding frame is arranged at one end of the supporting frame and is used for holding a cable winding, the cable winding is rotatably arranged in the holding frame, and the cable winding is wound on the cable winding; the first clamp is electrically connected with the controller and is used for clamping the cable of the cable coil in the containing frame; the first driving mechanism is electrically connected with the controller and is slidably arranged on one side of the support frame along a first direction; a first driving cylinder electrically connected with the controller and provided in the first driving mechanism, wherein the first clamp is provided in a telescopic rod of the first driving cylinder to move a cable of the first clamp to a predetermined position through the first driving mechanism; a second clamp electrically connected to the controller for clamping the cable in the predetermined position; the second driving cylinder is arranged at the other end of the supporting frame and is electrically connected with the controller, and the telescopic rod of the second driving cylinder is connected with the second clamp so as to drive the second clamp to move along the first direction through the second driving cylinder; the identification and statistics mechanism is arranged above the supporting frame and used for counting the length of the cable, wherein the length of the cable is the distance between the second clamp and the preset position; and the cutting mechanism is electrically connected with the controller and is arranged at one end of the supporting frame and used for cutting off the cable at the preset position when the length of the cable is determined to reach the preset length.

Further, when the cable is required to be cut, the controller controls the first driving mechanism to drive the first clamp to move to the position of the containing frame, controls the first clamp to clamp the cable of the containing frame, then moves the cable in the first clamp to a preset position through the first driving mechanism, moves the second clamp to the preset position through the second driving cylinder, controls the second clamp to clamp the cable in the preset position, controls the first clamp to loosen the cable, and controls the second driving cylinder to drive the second clamp clamped with the line to move towards a direction far away from the preset position.

Further, after determining that the cutting mechanism cuts the cable, the controller controls the second clamp to release the cable so that the cable falls on the bottom wall of the V-shaped accommodating groove according to the weight of the cable.

Further, the support frame is including following the first direction setting in the scale at the edge of accommodating groove, discernment statistics mechanism is including the industry camera that is connected with the controller electricity, wherein: when it is determined that the second driving cylinder drives the second clamp clamping the cable to move along the first direction, the industrial camera shoots towards the second clamp to obtain a shot picture, the controller analyzes the second clamp and the graduated scale in the picture from the shot picture, and analyzes a preset graduated scale value from the graduated scale, wherein the distance corresponding to the preset graduated scale value is the preset length of the cable, judges whether the position of the second clamp is at the preset graduated scale value of the graduated scale, and controls the telescopic rod of the second driving cylinder to stop moving when determining that the second clamp is at the preset graduated scale value of the graduated scale, and controls the cutting mechanism to cut off the cable at the preset position.

Further, the cutting mechanism comprises a supporting table arranged at one end of the supporting frame, a third driving cylinder arranged above the supporting table, a pressing block arranged in a telescopic rod of the third driving cylinder and used for pressing cables, a fourth driving cylinder arranged above the supporting table and a cutter arranged in a telescopic rod of the fourth driving cylinder and used for cutting cables.

Further, when it is determined that the length of the cable reaches the preset length, the controller controls the telescopic rod of the second driving cylinder to stop moving, controls the telescopic rod of the third driving cylinder to descend so that the pressing block presses the cable on the supporting table, and controls the telescopic rod of the fourth driving cylinder to descend so that the cutter cuts the cable when it is determined that the pressing block presses the cable.

Further, the accommodating groove of the supporting frame is provided with a plurality of grooves along the first direction at intervals, the intelligent cable preparation system further comprises a fifth driving cylinder arranged below the supporting frame, and an accommodating frame used for accommodating the binding belt and arranged right below the grooves is arranged in the telescopic rod of the fifth driving cylinder.

Further, the identification and statistics mechanism is further used for counting the number of the cables accommodated in the accommodating groove, and when the number of the cables in the accommodating groove is determined to reach the preset number, the controller controls the telescopic cylinder of the fifth driving cylinder to ascend so as to drive the ribbon of the accommodating frame to ascend to the grooving position.

The beneficial effects of the invention are as follows: unlike the prior art, the intelligent cable preparation system disclosed by the invention comprises: a controller; the support frame is provided with a V-shaped accommodating groove; the holding rack is used for holding cable rolls; the first clamp is used for clamping the cable of the cable coil in the containing frame; the first driving mechanism is slidably arranged on one side of the support frame along a first direction; a first drive cylinder disposed in the first drive mechanism, wherein the first clamp is disposed in a telescopic rod of the first drive cylinder; a second clamp for clamping the cable in a predetermined position; the second driving cylinder is arranged at the other end of the supporting frame, and the telescopic rod of the second driving cylinder is connected with the second clamp; the identification and statistics mechanism is used for counting the length of the cable; and the cutting mechanism is used for cutting the cable at the preset position when the length of the cable reaches the preset length. Through the mode, the intelligent cable preparation system disclosed by the invention is high in intelligence, low in labor cost and high in working efficiency, and can meet the high-quality requirements of manufacturers.

Drawings

FIG. 1 is a schematic top view of the intelligent cable preparation system of the present invention;

FIG. 2 is a schematic cross-sectional structural view of the intelligent cable preparation system of the present invention;

FIG. 3 is a schematic circuit diagram of the intelligent cable preparation system of the present invention;

fig. 4 is a schematic structural view of the cutting mechanism in fig. 3.

Detailed Description

Referring to fig. 1-4, the intelligent cable preparation system includes a controller 10, a support frame 11, a holding frame 12, a first driving mechanism 13, a first driving cylinder 14, a first clamp 15, a second clamp 17, a second driving cylinder 18, an identification statistics mechanism 19 and a cutting mechanism 20.

The controller 10 is provided with a touch screen of a preset length for inputting a desired cut of the cable. Further, the touch screen may also input a preset number of cuts required for the cable. That is, the length and number of cables required to be cut can be input on the touch screen.

The supporting frame 11 is provided with a receiving groove 111 having a V-shape for receiving the cut-off cable.

The holding frame 12 is disposed at one end of the supporting frame 11, and is used for holding a cable roll 30, wherein the cable roll 30 is rotatably disposed in the holding frame 12, and the cable roll 30 is wound with a cable 31. That is, the cables held by the holding frame 12 are not yet cut, and need to be cut.

The first clamp 15 is electrically connected to the controller 10 for clamping the cable 31 of the cable roll 30 in the holding frame 12. It should be appreciated that the controller 10 of the present embodiment may control the first clamp 15 to clamp and unclamp the cable 31.

The first driving mechanism 16 is electrically connected to the controller and slidably disposed on one side of the support frame 11 along the first direction a.

The first drive cylinder 14 is electrically connected to the controller 10 and is disposed in the first drive mechanism 16 such that the first drive cylinder 14 follows the first drive mechanism 16 in the first direction a. It will be appreciated that the telescopic rod of the first drive cylinder 14 of the present embodiment is telescopic in a second direction B, which is perpendicular to the first direction a.

Preferably, the first clamp 15 is provided in a telescopic rod of the first driving cylinder 14 to move the cable 31 of the first clamp 15 to a predetermined position by the first driving mechanism 16. It will be appreciated that the predetermined position is the cutting position of the cable and the first clamp 15 is movable in the first direction a following the first drive cylinder 14, while the first clamp 15 is movable in the second direction B following the telescopic rod of the first drive cylinder 14, so that the first clamp 15 can be accurately moved into the predetermined position.

The second clamp 17 is electrically connected to the controller 10 for clamping the cable 31 in a predetermined position. It should be understood that the controller 10 of the present embodiment may control the second clamp 17 to clamp and unclamp the cable 31, specifically, after the first clamp 15 moves the cable to a predetermined position, the controller 10 may control the second clamp 17 to clamp the cable at the predetermined position, while the controller 10 also controls the first clamp 15 to unclamp the cable.

The second driving cylinder 18 is provided at the other end of the supporting frame 11 and electrically connected to the controller 10 to control the operation of the second driving cylinder 18 through the controller 10.

Preferably, a telescopic rod of the second driving cylinder 18 is connected to the second clamp 17 to drive the second clamp 17 to move in the first direction a by the second driving cylinder 18. It will be appreciated that the second clamp 17 is primarily intended to clamp the cable to pull out the cable in the cable reel 30 so that a pair of cable lengths is required.

It is to be noted that the position where the second driving cylinder 18 of the present embodiment is located corresponds to a predetermined position, so that the second driving cylinder 18 can drive the second clamp 17 to just move to the predetermined position.

The identification and statistics mechanism 19 is disposed above the supporting frame 11, and is used for counting the length of the cable 31, wherein the length of the cable 31 is the distance between the second clamp 17 and the predetermined position, i.e. the length of the cable pulled out by the second clamp 17.

The cutting mechanism 20 is electrically connected to the controller 10 and is provided at one end of the supporting frame 11 for cutting the cable at a predetermined position when it is determined that the length of the cable 31 reaches a predetermined length. It should be understood that, after the cutting mechanism 20 cuts the cable at the predetermined position, the cable dropped in the accommodating groove 111 is the cable to be cut.

In this embodiment, when the cable needs to be cut, the controller 10 controls the first driving mechanism 13 to drive the first clamp 15 to move to the position of the containing frame 12, controls the first clamp 15 to clamp the cable of the containing frame 12, then moves the cable in the first clamp 15 to a predetermined position through the first driving mechanism 13, moves the second clamp 17 to the predetermined position through the second driving cylinder 18, controls the second clamp 17 to clamp the cable in the predetermined position and controls the first clamp 15 to release the cable, and finally controls the second driving cylinder 18 to drive the second clamp 17 clamped with the line to move away from the predetermined position, thereby realizing the cable pulling.

Preferably, after determining that the cutting mechanism 20 cuts the cable 31, the controller 10 controls the second clamp 17 to loosen the cable so that the cable 31 falls down to the bottom wall of the V-shaped receiving groove according to its own weight.

In the present embodiment, the supporting frame 11 includes a scale provided at an edge of the receiving groove 111 in the first direction a to measure the length of the cable pulled out by the second clamp 17 by the scale. It will be appreciated that one end of the scale is level with the predetermined location and the scale is provided on the top wall of the edge of the receiving recess 111.

Preferably, the identification statistics mechanism 19 comprises an industrial camera electrically connected to the controller 10.

Further, when it is determined that the second driving cylinder 18 drives the second clamp 17 clamping the cable 31 to move along the first direction a, the industrial camera shoots towards the second clamp 17 to obtain a shot picture, the controller 10 analyzes the second clamp 17 and the scale in the picture from the shot picture, and analyzes a preset scale value from the scale, wherein a distance corresponding to the preset scale value is a preset length of the cable, and judges whether the position of the second clamp 17 is at the preset scale value of the scale, and when it is determined that the second clamp 17 is at the preset scale value of the scale, controls the telescopic rod of the second driving cylinder 18 to stop moving, and controls the cutting mechanism 20 to cut the cable at the preset position.

That is, while the second clamp 17 is pulled out of the cable, the industrial camera continuously photographs the position of the second clamp 17, and the controller 10 continuously determines whether the position of the second clamp 17 reaches a preset scale value (i.e., a value of a predetermined length of the cable).

In the present embodiment, the cutting mechanism 20 includes a support table 201 provided at one end of the support frame 11, a third driving cylinder 202 provided above the support table 201, a pressing block 203 provided in a telescopic rod of the third driving cylinder 202 for pressing the wire, a fourth driving cylinder 204 provided above the support table 201, and a cutter 205 provided in a telescopic rod of the fourth driving cylinder 204 for cutting the wire.

Further, when it is determined that the length of the cable 31 reaches the preset length, the controller 10 controls the telescopic rod of the second driving cylinder 18 to stop moving, controls the telescopic rod of the third driving cylinder 202 to descend so that the pressing block 203 presses the cable 31 on the supporting table 201, and controls the telescopic rod of the fourth driving cylinder 204 to descend so that the cutter 205 cuts the cable when it is determined that the pressing block 203 presses the cable, so that full-automatic cable cutting can be realized. It will be appreciated that the cut length of the cable may be within 5-10 mm of the predetermined length.

It is noted that the position where the cutter 205 is projecting on the support 201 is aligned with the start of the scale.

In this embodiment, the accommodating groove 111 of the support frame 11 is provided with a plurality of slots 112 at intervals along the first direction a, and the cable intelligent preparation system further includes a fifth driving cylinder 21 disposed below the support frame 11, wherein an accommodating frame for accommodating the cable tie 211 is disposed in a telescopic rod of the fifth driving cylinder 21 and is located directly below the slots 112. It will be appreciated that the fifth drive cylinder 21 is primarily intended to raise the tie 211 to the slot 112 for convenience of the staff in wrapping the cable.

Further, the identification counting mechanism 19 is further configured to count the number of cables accommodated in the accommodating groove 111, wherein when the number of cables in the accommodating groove 111 is determined to reach the preset number, the controller 10 controls the telescopic cylinder of the fifth driving cylinder 21 to rise to drive the ribbon 211 of the accommodating rack to rise to the slot 112. That is, when the number of cables in the accommodating groove 111 has not reached the preset number, the fifth driving cylinder 21 does not drive the band 211 to rise, and only when the number of cables in the accommodating groove 111 satisfies the preset number, the fifth driving cylinder 21 drives the band 211 to rise when binding is required.

The foregoing description is only illustrative of the present invention and is not intended to limit the scope of the invention, and all equivalent structures or equivalent processes or direct or indirect application in other related technical fields are included in the scope of the present invention.

Claims

1. An intelligent cable preparation system, characterized by comprising:

the controller is provided with a touch screen with preset length for inputting a cable to be cut;

the support frame is provided with a V-shaped accommodating groove for accommodating the cut cable;

the cable winding device comprises a holding frame, a supporting frame and a winding frame, wherein the holding frame is arranged at one end of the supporting frame and is used for holding a cable winding, the cable winding is rotatably arranged in the holding frame, and the cable winding is wound on the cable winding;

the first clamp is electrically connected with the controller and is used for clamping the cable of the cable coil in the containing frame;

the first driving mechanism is electrically connected with the controller and is slidably arranged on one side of the support frame along a first direction;

a first driving cylinder electrically connected with the controller and provided in the first driving mechanism, wherein the first clamp is provided in a telescopic rod of the first driving cylinder to move a cable of the first clamp to a predetermined position through the first driving mechanism;

a second clamp electrically connected to the controller for clamping the cable in the predetermined position;

the second driving cylinder is arranged at the other end of the supporting frame and is electrically connected with the controller, and the telescopic rod of the second driving cylinder is connected with the second clamp so as to drive the second clamp to move along the first direction through the second driving cylinder;

the identification and statistics mechanism is arranged above the supporting frame and used for counting the length of the cable, wherein the length of the cable is the distance between the second clamp and the preset position;

the cutting mechanism is electrically connected with the controller and is arranged at one end of the supporting frame and used for cutting off the cable at a preset position when the length of the cable reaches a preset length;

when a cable is required to be cut, the controller controls the first driving mechanism to drive the first clamp to move to the position of the containing frame, controls the first clamp to clamp the cable of the containing frame, then moves the cable in the first clamp to a preset position through the first driving mechanism, moves the second clamp to the preset position through the second driving cylinder, controls the second clamp to clamp the cable in the preset position and controls the first clamp to loosen the cable, and controls the second driving cylinder to drive the second clamp clamped with a circuit to move towards a direction far away from the preset position;

after determining that the cutting mechanism cuts the cable, the controller controls the second clamp to loosen the cable so that the cable falls on the bottom wall of the V-shaped accommodating groove according to the weight of the cable;

the support frame is including following the first direction setting in the scale at the edge of acceping the recess, discernment statistics mechanism is including the industry camera of being connected with the controller electricity, wherein:

when it is determined that the second driving cylinder drives the second clamp clamping the cable to move along the first direction, the industrial camera shoots towards the second clamp to obtain a shot picture, the controller analyzes the second clamp and the graduated scale in the picture from the shot picture, and analyzes a preset graduated scale value from the graduated scale, wherein the distance corresponding to the preset graduated scale value is the preset length of the cable, judges whether the position of the second clamp is at the preset graduated scale value of the graduated scale, and controls the telescopic rod of the second driving cylinder to stop moving when determining that the second clamp is at the preset graduated scale value of the graduated scale, and controls the cutting mechanism to cut off the cable at the preset position.

2. The intelligent cable preparation system according to claim 1, wherein the cutting mechanism comprises a supporting table arranged at one end of the supporting frame, a third driving cylinder arranged above the supporting table, a pressing block arranged in a telescopic rod of the third driving cylinder and used for pressing cables, a fourth driving cylinder arranged above the supporting table and a cutter arranged in a telescopic rod of the fourth driving cylinder and used for cutting cables.

3. The intelligent cable preparation system according to claim 2, wherein the controller controls the telescopic rod of the second driving cylinder to stop moving and controls the telescopic rod of the third driving cylinder to descend so that the pressing block presses the cable on the support table when it is determined that the length of the cable reaches a preset length, and controls the telescopic rod of the fourth driving cylinder to descend so that the cutter cuts the cable when it is determined that the pressing block presses the cable.

4. The intelligent cable preparation system according to claim 3 wherein the receiving recess of the support frame is provided with a plurality of slots spaced apart along the first direction, the intelligent cable preparation system further comprising a fifth drive cylinder disposed below the support frame, wherein a receiving rack for receiving the cable tie is disposed in the telescoping rod of the fifth drive cylinder directly below the slots.

5. The intelligent cable preparation system according to claim 4, wherein the identification and statistics mechanism is further configured to count the number of cables accommodated in the accommodating groove, and when it is determined that the number of cables in the accommodating groove reaches a preset number, the controller controls the telescopic cylinder of the fifth driving cylinder to ascend so as to drive the cable tie of the accommodating rack to ascend to the slot.