CN215955670U - Horizontal feeding module - Google Patents
Horizontal feeding module Download PDFInfo
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- CN215955670U CN215955670U CN202121865377.5U CN202121865377U CN215955670U CN 215955670 U CN215955670 U CN 215955670U CN 202121865377 U CN202121865377 U CN 202121865377U CN 215955670 U CN215955670 U CN 215955670U
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- bracket
- horizontal
- supporting seat
- roller
- photoelectric sensor
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Abstract
The utility model aims to provide a horizontal feeding module which is simple in structure, high in reliability and capable of ensuring the production quality of products. The material feeding device comprises a horizontal rotary table, a supporting seat and a bracket, wherein the supporting seat is arranged on the horizontal rotary table, a material to be fed is placed on a rotating surface of the horizontal rotary table, one end of the bracket is in rotating fit with the supporting seat, a groove-shaped photoelectric sensor is arranged on the supporting seat, an induction sheet is arranged on the bracket and is matched with a groove of the groove-shaped photoelectric sensor, the horizontal rotary table and the groove-shaped photoelectric sensor are in signal connection with an external control system, and a material belt pulled out by the material to be fed is wound on the bracket. The utility model is applied to the technical field of feeding.
Description
Technical Field
The utility model is applied to the technical field of feeding, and particularly relates to a horizontal feeding module.
Background
Binding post is an accessory product for realizing electrical connection, in its production process, the staff overlaps the metal coil earlier and establishes on the back shaft, then the manual work with the one end pulling of coiled material to drawing on the material module, and fix this end at the effect end of drawing the material module, can form a material area this moment, through the drive of drawing the material module, can progressively draw the material area to the punching press module with the dilatory mode of intermittent type formula on, stamping die punches, processes such as bending and cutting the material area again, make binding post shaping at last. However, the overall weight of the coiled material is heavy, and the thickness of the material belt is thin, so that the material belt is extended under the action of the pulling force of the material pulling module, that is, a certain part of the material belt is thinner, the production quality of the connecting terminal is greatly affected, and even the material belt is likely to crack or break, and the reliability is low. If can design a simple structure, the reliability is high and can guarantee the horizontal material loading module of product production quality, then can solve above-mentioned problem well.
SUMMERY OF THE UTILITY MODEL
The utility model aims to overcome the defects of the prior art and provides the horizontal feeding module which is simple in structure, high in reliability and capable of ensuring the production quality of products.
The technical scheme adopted by the utility model is as follows: the material feeding device comprises a horizontal rotary table, a supporting seat and a bracket, wherein the supporting seat is arranged on the horizontal rotary table, a material to be fed is placed on a rotating surface of the horizontal rotary table, one end of the bracket is in rotating fit with the supporting seat, a groove-shaped photoelectric sensor is arranged on the supporting seat, an induction sheet is arranged on the bracket and is matched with a groove of the groove-shaped photoelectric sensor, the horizontal rotary table and the groove-shaped photoelectric sensor are in signal connection with an external control system, and a material belt pulled out by the material to be fed is wound on the bracket.
According to the scheme, the material to be fed is placed on the rotating surface of the horizontal rotary table, one end of the material to be fed is pulled to the material pulling module, the other end of the material to be fed is fixed at the acting end of the material pulling module, and the pulled material belt is wound on the bracket. The coil is driven to rotate to cut materials by the driving of the horizontal rotary table, the induction sheet is matched in a groove of the groove-shaped photoelectric sensor, the groove-shaped photoelectric sensor transmits induction signals to an external control system, the control system commands the horizontal rotary table to stop driving after receiving the signals, and simultaneously commands the material pulling module to gradually pull the material belt to a stamping die to be stamped so as to manufacture a plurality of wiring terminals, the material belt drags the bracket to rotate anticlockwise to enable the induction sheet to be far away from the groove of the groove-shaped photoelectric sensor, when the material pulling module speaks that the material belt is tensioned to a certain degree, a tension sensor in the material pulling module transmits induction signals to the control system after sensing that the tension reaches a preset value, the control system commands the material pulling module to stop driving, and commands the horizontal rotary table to restart, the coil is driven to rotate to continue cutting, after a part of material belts are released, the bracket can rotate clockwise, the induction sheet is enabled to be re-adapted into the groove of the groove type photoelectric sensor, and the induction sheet is enabled to be circulated according to the above steps until a large number of wiring terminal products are produced by stamping the whole coil. Therefore, the automatic cutting device is simple in structure, automatic cutting of coiled materials is achieved, working efficiency is greatly improved, a part of material belt can be cut in advance, the problem that the material belt stretches due to over-tightening under the action of the material pulling module is avoided, production reliability is greatly improved, and production quality of the wiring terminal is guaranteed.
Further, the horizontal rotary table comprises a base, a servo motor and a rotary table, the supporting seat is arranged on the side portion of the base, the servo motor is arranged on the base and is in signal connection with an external control system, the servo motor is in transmission connection with the rotary table, a positioning shaft is arranged in the middle of the rotary table, and a material to be fed is sleeved on the positioning shaft. It can be seen that the turntable, driven by the servo motor, drives the coiled material to rotate, so as to release the material belt.
Further, the bracket includes bracing piece and roller, the response piece sets up on the bracing piece, the one end normal running fit of bracing piece is in on the supporting seat, the one end normal running fit of roller is in on the bracing piece, the roller is located the top of carousel is treated the material area that the material was rolled up to the material of feeding pulled out and is around putting on the roller. Therefore, the material belt to be pulled out by the material feeding roll is wound on the roller shaft, and the roller shaft is dragged by the material belt after the material pulling module pulls the material belt step by step, so that the supporting rod rotates anticlockwise.
Furthermore, still be provided with U type pole on the roller, U type pole with be equipped with the punishment in advance hole between the roller, the material area that waits to coil the material and pull out passes the punishment in advance hole. Therefore, the U-shaped rod is arranged, so that the situation that the material belt is separated from the roll shaft due to left and right movement or up and down movement in the working process is avoided.
Drawings
FIG. 1 is a front view of the present invention;
fig. 2 is a side view of the present invention.
Detailed Description
As shown in fig. 1 and fig. 2, in this embodiment, the present invention includes a horizontal turntable, a supporting base 1 and a bracket, where the supporting base 1 is disposed on the horizontal turntable, a material to be wound 4 is placed on a rotating surface of the horizontal turntable, one end of the bracket is rotatably fitted on the supporting base 1, a groove-shaped photoelectric sensor 2 is disposed on the supporting base 1, an induction sheet 3 is disposed on the bracket, the induction sheet 3 is adapted to a groove of the groove-shaped photoelectric sensor 2, both the horizontal turntable and the groove-shaped photoelectric sensor 2 are in signal connection with an external control system, and a material tape 5 to be pulled out by the material to be wound 4 is wound on the bracket.
In this embodiment, the horizontal turntable comprises a base 6, a servo motor 7 and a turntable 8, the supporting seat 1 is arranged on the side portion of the base 6, the servo motor 7 is arranged on the base 6 and is in signal connection with an external control system, the servo motor 7 is in transmission connection with the turntable 8, a positioning shaft 9 is arranged in the middle of the turntable 8, and the material to be rolled up 4 is sleeved on the positioning shaft 9.
In this embodiment, the bracket includes a support rod 10 and a roller 11, the sensing piece 3 is disposed on the support rod 10, one end of the support rod 10 is rotatably fitted on the support seat 1, one end of the roller 11 is rotatably fitted on the support rod 10, the roller 11 is located above the turntable 8, and the material strip 5 to be pulled out by the material-feeding roll 4 is wound on the roller 11.
In this embodiment, the roller shaft 11 is further provided with a U-shaped rod 13, a material passing hole 14 is provided between the U-shaped rod 13 and the roller shaft 11, and the material strip 5 to be pulled out by the material roll 4 passes through the material passing hole 14.
In the present embodiment, the working principle of the present invention is as follows:
the material 4 to be wound is placed on the rotary table 8, one end of the material 4 to be wound is pulled to the drawing die set, and the end is fixed at the action end of the drawing die set, wherein the pulled-out material belt 5 is wound on the roller shaft 11.
The coil is driven to rotate to cut materials by the driving of the servo motor 7, the induction sheet 3 is matched in a groove of the groove-shaped photoelectric sensor 2, the groove-shaped photoelectric sensor 2 transmits induction signals to an external control system, the control system receives the signals and commands the servo motor 7 to stop driving, and commands the material pulling module to gradually pull the material belt 5 into a stamping die to be stamped so as to manufacture a plurality of wiring terminals, the material belt 5 can drag the supporting rod 10 to rotate anticlockwise to enable the induction sheet 3 to be far away from the groove of the groove-shaped photoelectric sensor 2, when the material pulling module says that the material belt 5 is tensioned to a certain degree, a tension sensor in the material pulling module senses that tension reaches a preset value, and then transmits the induction signals to the control system, the control system commands the material pulling module to stop driving, and commands the servo motor 7 to restart, drive the coiled material and rotate and continue to open the material, release some material and take the back, bracing piece 10 can carry out clockwise rotation, makes response piece 3 adaptation is in again in the recess of cell type photoelectric sensor 2.
Therefore, the automatic cutting device is simple in structure, automatic cutting of coiled materials is achieved, working efficiency is greatly improved, a part of material belt can be cut in advance, the problem that the material belt stretches due to over-tightening under the action of the material pulling module is avoided, production reliability is greatly improved, and production quality of the wiring terminal is guaranteed.
Claims (4)
1. The utility model provides a horizontal material loading module which characterized in that: it includes horizontal revolving stage, supporting seat (1) and bracket, supporting seat (1) sets up on the horizontal revolving stage, treat that material loading coiled material (4) are placed on the rotation face of horizontal revolving stage, the one end normal running fit of bracket is in on supporting seat (1), be provided with cell type photoelectric sensor (2) on supporting seat (1), be provided with response piece (3) on the bracket, response piece (3) with the recess looks adaptation of cell type photoelectric sensor (2), horizontal revolving stage with cell type photoelectric sensor (2) all with outside control system signal connection, treat that material loading coiled material (4) pull out takes (5) to wind and put on the bracket.
2. The horizontal feeding module according to claim 1, characterized in that: horizontal revolving stage includes base (6), servo motor (7) and carousel (8), supporting seat (1) sets up the lateral part of base (6), servo motor (7) set up on base (6) and with outside control system signal connection, servo motor (7) with carousel (8) transmission is connected, the middle part of carousel (8) is provided with location axle (9), waits to expect that material loading coiled material (4) cover establishes on location axle (9).
3. The horizontal feeding module according to claim 2, characterized in that: the bracket comprises a support rod (10) and a roller (11), the induction sheet (3) is arranged on the support rod (10), one end of the support rod (10) is rotatably matched with the support seat (1), one end of the roller (11) is rotatably matched with the support rod (10), the roller (11) is positioned above the turntable (8), and a material belt (5) pulled out by the feeding coiled material (4) is wound on the roller (11).
4. The horizontal feeding module according to claim 3, characterized in that: still be provided with U type pole (13) on roller (11), U type pole (13) with be equipped with between roller (11) and cross material hole (14), treat material area (5) that material loading coiled material (4) were pulled out and pass cross material hole (14).
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN202121865377.5U CN215955670U (en) | 2021-08-11 | 2021-08-11 | Horizontal feeding module |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN202121865377.5U CN215955670U (en) | 2021-08-11 | 2021-08-11 | Horizontal feeding module |
Publications (1)
Publication Number | Publication Date |
---|---|
CN215955670U true CN215955670U (en) | 2022-03-04 |
Family
ID=80435535
Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
---|---|---|---|
CN202121865377.5U Active CN215955670U (en) | 2021-08-11 | 2021-08-11 | Horizontal feeding module |
Country Status (1)
Country | Link |
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CN (1) | CN215955670U (en) |
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2021
- 2021-08-11 CN CN202121865377.5U patent/CN215955670U/en active Active
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