CN212449670U

CN212449670U - Feeding mechanism of wiring terminal strip circuit board

Info

Publication number: CN212449670U
Application number: CN202020858774.9U
Authority: CN
Inventors: 周斌; 丁卫华
Original assignee: Nantong Huaguan Electric Co ltd
Current assignee: Nantong Huaguan Electric Co ltd
Priority date: 2020-05-21
Filing date: 2020-05-21
Publication date: 2021-02-02
Anticipated expiration: 2030-05-21

Abstract

The utility model relates to a feeding mechanism of a wiring terminal strip circuit board, which comprises a bottom plate, a feeding conveying device for conveying small jointed boards and a discharging conveying device for conveying the circuit board, wherein the feeding conveying device and the discharging conveying device are respectively arranged on the bottom plate; the feeding mechanism further comprises a broken plate rotor, a pressing plate and an ejector rod, the broken plate rotor is rotatably installed on the bottom plate, a feeding channel penetrating through two ends of the broken plate rotor is arranged on the broken plate rotor, one end of the feeding channel is a discharging port, the other end of the feeding channel is an ejector rod inlet and outlet, a feeding port is arranged on the side face of the broken plate rotor, the feeding port is communicated with the feeding channel, the broken plate rotor rotates to an inlet/outlet material level, the feeding port is connected with a feeding conveying device, the discharging port is connected with a discharging conveying device, the pressing plate is installed on the bottom plate and located on the side of the feeding port, the broken plate rotor rotates to a material cutting level, the broken plate rotor is sheared with the pressing plate, and the ejector rod is installed.

Description

Feeding mechanism of wiring terminal strip circuit board

Technical Field

The utility model relates to a circuit board processing technology field, concretely relates to feeding mechanism of binding post winding displacement circuit board.

Background

In the assembling and welding process of the terminal block, the small spliced plates are required to be broken into circuit boards, and then the circuit boards are conveyed to an assembling and welding machine for assembling and welding; however, the existing method cannot break the small spliced board into circuit boards, and the process is generally carried out manually, which wastes time and labor.

Disclosure of Invention

In order to solve the problem, the utility model provides a feed mechanism of binding post platoon lane circuit board.

The technical scheme of the utility model:

a feeding mechanism for a wiring terminal strip circuit board comprises a bottom plate, a feeding conveying device for conveying small spliced plates and a discharging conveying device for conveying the circuit board, wherein the feeding conveying device and the discharging conveying device are respectively arranged on the bottom plate; the small jointed board is formed by connecting a plurality of circuit boards; the feeding mechanism further comprises a plate breaking rotor, a pressing plate and an ejector rod, the plate breaking rotor is rotatably installed on the bottom plate, a feeding channel penetrating through two ends of the plate breaking rotor is arranged on the plate breaking rotor, one end of the feeding channel is a discharging port, the other end of the feeding channel is an ejector rod inlet and outlet, a feeding port is arranged on the side face of the plate breaking rotor and communicated with the feeding channel, the plate breaking rotor rotates to an inlet/outlet material position, the feeding port is connected with a feeding conveying device, the discharging port is connected with a discharging conveying device, the pressing plate is installed on the bottom plate and located on the side of the feeding port, the plate breaking rotor rotates to a material cutting position, the plate breaking rotor is sheared with the pressing plate, and the ejector rod is installed on the bottom plate;

the broken plate rotor rotates to the material inlet/outlet position, the feeding conveying device conveys small spliced plates to enter the feeding hole, the circuit board at the front end stretches into the feeding channel, the circuit board at the rear end is pressed under the pressing plate, the broken plate rotor rotates to the material cutting position, the broken plate rotor and the pressing plate are cut mutually, the circuit board at the front end is cut off, the circuit board at the front end falls into the feeding channel, the ejector rod stretches into the feeding channel, the circuit board is pushed to move along the feeding channel to move to a circuit board position, and finally the circuit board is transferred to the discharging conveying device.

The feeding and conveying device comprises a conveying plate and a conveying block, wherein the conveying plate is fixedly arranged on a bottom plate, a strip-shaped hole is formed in the conveying plate, the conveying block is hinged to a fixed block and is slidably arranged on the bottom plate through the fixed block, the conveying block is arranged in the strip-shaped hole and swings back and forth, the weight of the rear end of the conveying block is lighter than that of the front end of the conveying block, under the dead weight of the conveying block, the rear end of the conveying block swings upwards and extends out of the strip-shaped hole, the conveying plate is fixedly connected with two U-shaped plates, the two U-shaped plates are arranged in the strip-shaped hole in a front-back mode and are symmetrical to each other to form a trough, and an opening; the broken plate rotor rotates to a material inlet/outlet position, the rear end of the conveying plate is connected with a material inlet of the broken plate rotor, and the pressing plate is fixed on the conveying plate; preferably, a guide rod is vertically arranged in the trough and is opposite to a groove on the small jointed board, so that the small jointed board is prevented from being placed reversely when the materials are loaded;

the small jointed boards are arranged in the trough, and under the action of gravity of the small jointed boards and the conveying blocks, the small jointed boards are in pressure contact with the rear ends of the conveying blocks, the fixing blocks slide to drive the conveying blocks to move backwards along the strip-shaped holes, and the small jointed boards are conveyed backwards.

Fixedly connected with guide rail mounting panel on the bottom plate, fixedly connected with guide rail on the guide rail mounting panel, sliding fit installs the slider on the guide rail, and the slider is connected with the fixed block, and the slider slides along the guide rail, drives the fixed block and slides.

The sliding block is driven by a driving device to slide along the guide rail; the driving device is formed by connecting a servo motor with a belt wheel and a belt, and the belt is fixedly connected with the sliding block.

The discharge conveying device is a horizontally arranged discharge chute; the broken plate rotor rotates to the material inlet/outlet position, and the front end of the discharge chute is connected with a discharge port of the broken plate rotor.

The feeding device is characterized in that a broken plate rotor mounting seat is fixedly connected to the bottom plate, the broken plate rotor is a horizontally arranged cylindrical body and is rotatably mounted on the broken plate rotor mounting seat, a semicircular opening is formed in the middle of the broken plate rotor, and the opening penetrates through the feeding channel to form the feeding port.

The outer peripheral surface of one end of the plate breaking rotor is partially provided with a tooth groove, a motor is fixedly mounted on the plate breaking rotor mounting seat, a gear is sleeved on an output shaft of the motor and meshed with the tooth groove, and the motor rotates to drive the plate breaking rotor to rotate; the motor is a servo motor.

And the cylinder is fixedly arranged on the broken plate rotor mounting seat and connected with the ejector rod to drive the ejector rod to extend out of or withdraw from the feeding channel.

The utility model discloses the advantage is, reasonable in design thinks about ingeniously, realizes breaking into a plurality of circuit boards with the fingers and thumb automatically with little makeup to carry in proper order to back process, labour saving and time saving.

Drawings

Fig. 1 is a perspective view of a feeding mechanism of a terminal strip circuit board.

Fig. 2 is a perspective view of the feed conveyor.

Fig. 3 is a front view of the feed conveyor.

Fig. 4 is a top view of the feed conveyor.

Fig. 5 is a perspective view of the plate-cut rotor (1).

Fig. 6 is a perspective view of the breaker rotor (2).

In the figure, a feeding channel 61 of a feeding channel 62 of a broken plate rotor 6 of a small spliced plate 4 of a feeding device 3 of a bottom plate 1 feeding and conveying device 2, a conveying plate 21, a 22-shaped hole 23, a fixed block 24, a trough 25, a guide rail mounting plate 26, a driving device 27, a push rod 8, a broken plate rotor mounting seat 9, a motor 10 and an air cylinder 11.

Detailed Description

As shown in fig. 1-6, a feeding mechanism for a wiring terminal strip circuit board comprises a bottom plate 1, a feeding and conveying device 2 for conveying small spliced plates, and a discharging and conveying device 3 for conveying the circuit board, wherein the feeding and conveying device 2 and the discharging and conveying device 3 are respectively installed on the bottom plate 1; the small jointed boards 4 are formed by connecting a plurality of circuit boards 5; the feeding mechanism further comprises a plate breaking rotor 6, a pressing plate 7 and an ejector rod 8, the plate breaking rotor 6 is rotatably installed on the base plate 1, a feeding channel 61 penetrating through two ends of the plate breaking rotor is arranged on the plate breaking rotor 6, one end of the feeding channel 61 is a discharging port, the other end of the feeding channel 61 is an ejector rod inlet and outlet, a feeding port 62 is formed in the side surface of the plate breaking rotor 6, the feeding port 62 is communicated with the feeding channel 61, the plate breaking rotor 6 rotates to an inlet/outlet material position, the feeding port 62 is connected with the feeding conveying device 2, the discharging port is connected with the discharging conveying device 3, the pressing plate 7 is installed on the base plate 1 and located on the side of the feeding port 62, the plate breaking rotor 6 rotates to a material cutting position, the plate breaking rotor 6 is sheared with the pressing plate 7, the ejector rod 8 is installed on; the feeding and conveying device 2 comprises a conveying plate 21 and a conveying block 22, wherein the conveying plate 21 is fixedly installed on the bottom plate 1 and provided with a strip-shaped hole 23, the conveying block 22 is hinged to a fixed block 24 and is slidably installed on the bottom plate 1 through the fixed block 24, the conveying block 24 is arranged in the strip-shaped hole 22 and swings back and forth, the rear end of the conveying block 24 is lighter than the front end, under the dead weight of the conveying block, the rear end of the conveying block 24 swings upwards and extends out of the strip-shaped hole 22, the conveying plate 21 is fixedly connected with two U-shaped plates, the two U-shaped plates are arranged on the strip-shaped hole in a front-back mode and are symmetrical with each other to form a trough 25, and an opening for a small spliced plate to pass through is reserved at the lower; the plate breaking rotor 6 rotates to a material inlet/outlet position, the rear end of the conveying plate 21 is connected with a material inlet 62 of the plate breaking rotor, and the pressing plate 7 is fixed on the conveying plate 21; a guide rail mounting plate 26 is fixedly connected to the bottom plate 1, a guide rail is fixedly connected to the guide rail mounting plate 26, a sliding block is arranged on the guide rail in a sliding fit mode and connected with the fixed block, and the sliding block slides along the guide rail to drive the fixed block 24 to slide; the slide block is driven by a driving device 27 to slide along the guide rail; the driving device 27 is formed by connecting a servo motor with a belt wheel and a belt, and the belt is fixedly connected with the sliding block; the discharge conveying device 3 is a horizontally arranged discharge chute; the broken plate rotor 6 rotates to a material inlet/outlet position, and the front end of the discharge chute is connected with a discharge hole of the broken plate rotor; the bottom plate 1 is fixedly connected with a broken plate rotor mounting seat 9, the broken plate rotor 6 is a horizontally arranged cylindrical body which is rotatably mounted on the broken plate rotor mounting seat 9, a semicircular opening is formed in the middle of the broken plate rotor 6, and the opening penetrates through the feeding channel 61 to form the feeding hole 62; a tooth groove 63 is formed in the peripheral surface of one end of the broken plate rotor 6, a motor 10 is fixedly mounted on the broken plate rotor mounting seat 9, a gear is sleeved on an output shaft of the motor 10 and meshed with the tooth groove 63, and the motor 10 rotates to drive the broken plate rotor 6 to rotate; the motor 10 is a servo motor; and the plate breaking rotor mounting seat 9 is fixedly provided with an air cylinder 11, and the air cylinder 11 is connected with the ejector rod 8 and drives the ejector rod 8 to extend out of or withdraw from the feeding channel 61.

The above disclosure is only for the preferred embodiment of the present invention, but not intended to limit itself, and any changes and modifications made by those skilled in the art without departing from the spirit of the present invention shall fall within the protection scope of the present invention.

Claims

1. A feeding mechanism for a wiring terminal strip circuit board comprises a bottom plate, a feeding conveying device for conveying small spliced plates and a discharging conveying device for conveying the circuit board, wherein the feeding conveying device and the discharging conveying device are respectively arranged on the bottom plate; the small jointed board is formed by connecting a plurality of circuit boards; the feeding mechanism is characterized by further comprising a plate breaking rotor, a pressing plate and an ejector rod, wherein the plate breaking rotor is rotatably installed on the bottom plate, a feeding channel penetrating through two ends of the plate breaking rotor is formed in the plate breaking rotor, one end of the feeding channel is a discharging port, the other end of the feeding channel is an ejector rod inlet and outlet, a feeding port is formed in the side surface of the plate breaking rotor and communicated with the feeding channel, the plate breaking rotor rotates to an inlet/outlet material position, the feeding port is connected with a feeding conveying device, the discharging port is connected with a discharging conveying device, the pressing plate is installed on the bottom plate and located on the side of the feeding port, the plate breaking rotor rotates to a material cutting position and is sheared by the pressing plate, and the ejector rod is installed on the bottom plate, is opposite to;

2. The feeding mechanism of a terminal strip circuit board according to claim 1, wherein the feeding and conveying device comprises a conveying plate and a conveying block, the conveying plate is fixedly installed on the bottom plate and provided with a strip-shaped hole, the conveying block is hinged on the fixing block and slidably installed on the bottom plate through the fixing block, the conveying block is placed in the strip-shaped hole and swings back and forth, the weight of the rear end of the conveying block is lighter than that of the front end, under the self weight of the conveying block, the rear end of the conveying block swings upwards and extends out of the strip-shaped hole, the conveying plate is fixedly connected with two U-shaped plates, the two U-shaped plates are placed in the strip-shaped hole in a front-back mode and are symmetrical with each other to form a trough, and the lower end of the rear U-shaped plate is provided with an opening for small spliced; the broken plate rotor rotates to a material inlet/outlet position, the rear end of the conveying plate is connected with a material inlet of the broken plate rotor, and the pressing plate is fixed on the conveying plate;

3. The feeding mechanism of a terminal strip circuit board as claimed in claim 2, wherein a guide rail mounting plate is fixedly connected to the bottom plate, a guide rail is fixedly connected to the guide rail mounting plate, a sliding block is slidably fitted to the guide rail and connected to the fixing block, and the sliding block slides along the guide rail to drive the fixing block to slide.

4. A feeding mechanism for a terminal strip circuit board according to claim 3, wherein the slider is driven by a driving device to slide along the guide rail; the driving device is formed by connecting a servo motor with a belt wheel and a belt, and the belt is fixedly connected with the sliding block.

5. The feeding mechanism of the terminal strip circuit board as claimed in claim 2, wherein the discharging conveyor is a horizontally arranged discharging chute; the broken plate rotor rotates to the material inlet/outlet position, and the front end of the discharge chute is connected with a discharge port of the broken plate rotor.

6. The feeding mechanism of a wiring terminal strip circuit board as claimed in claim 1, wherein the bottom plate is fixedly connected with a broken plate rotor mounting seat, the broken plate rotor is a horizontally arranged cylindrical body which is rotatably mounted on the broken plate rotor mounting seat, a semicircular opening is arranged in the middle of the broken plate rotor, and the opening penetrates through the feeding channel to form the feeding port.

7. The feeding mechanism of the wiring terminal strip circuit board as claimed in claim 6, wherein a tooth groove is partially formed on the outer peripheral surface of one end of the broken plate rotor, a motor is fixedly mounted on the broken plate rotor mounting seat, a gear is sleeved on the motor output shaft and meshed with the tooth groove, and the motor rotates to drive the broken plate rotor to rotate; the motor is a servo motor.

8. The feeding mechanism of the terminal strip circuit board as claimed in claim 5, wherein the cylinder is fixedly mounted on the mounting seat of the plate breaking rotor, and the cylinder is connected with the ejector rod to drive the ejector rod to extend out of or withdraw from the feeding channel.