CN210884010U

CN210884010U - Electrode plate feeding mechanism of PPTC overcurrent protection element

Info

Publication number: CN210884010U
Application number: CN201921650412.4U
Authority: CN
Inventors: 张大力; 徐敬东
Original assignee: Wuhu Kailong Electron Co ltd
Current assignee: Wuhu Kailong Electron Co ltd
Priority date: 2019-09-30
Filing date: 2019-09-30
Publication date: 2020-06-30
Anticipated expiration: 2029-09-30

Abstract

The utility model discloses an electrode slice feeding mechanism of PPTC overcurrent protection component relates to PPTC overcurrent protection component and makes the field, including base station, pay-off line, cylinder, well carousel, arm and assembly disc, through setting up the pay-off line of taking the silo of sending, and the bottom of silo is equipped with the conveyer belt, ensures that the electrode slice can be along one of silo send the electrode piece inslot to, and the carousel had both made things convenient for the electrode slice that the next delivery got off to take and make things convenient for mechanical clamping jaw to press from both sides and get in setting up, can be smooth fill in the electrode slice in the corresponding plastic casing.

Description

Electrode plate feeding mechanism of PPTC overcurrent protection element

Technical Field

The utility model relates to a PPTC overcurrent protection component makes the field, concretely relates to PPTC overcurrent protection component's electrode slice feeding mechanism.

Background

The PPTC overcurrent protection element is a miniature component and comprises a plastic shell and an internal electrode plate.

Because the volumes of the plastic shell and the electrode plates are very small, when the PPTC overcurrent protection element is mechanically assembled, the plastic shell and the electrode plates need to be in one-to-one correspondence and are independently assembled. Therefore, the electrode sheet feeding needs to feed the electrode sheets one by one, and each electrode sheet is conveyed to a specified position.

At present, when electrode plates are fed, the electrode plates are difficult to be conveyed to a specified position one by one, and the electrode plates are automatically plugged into corresponding plastic shells.

Disclosure of Invention

An object of the utility model is to provide an electrode slice feeding mechanism of PPTC overcurrent protection component, through the pay-off line of setting up the area pay-off groove, and the bottom of pay-off groove is equipped with the conveyer belt, ensures that the electrode slice can be along one of pay-off groove send the electrode slice inslot to, the carousel had both made things convenient for the electrode slice that takes off to take off and made things convenient for mechanical clamping jaw clamp to get in the setting, can be smooth fill in the corresponding plastic casing with the electrode slice.

An electrode plate feeding mechanism of a PPTC overcurrent protection element comprises a base station, a feeding line, a cylinder, a middle turntable, a mechanical arm and an assembly disc; the feeding line is fixedly connected to the base station through a front support and a rear support, the tail end of the feeding line is connected with the blanking device, feeding grooves are formed in the feeding line and the blanking device, the air cylinder is fixedly connected to the bottom of the blanking device, a separation blade is connected to an output shaft of the air cylinder, the separation blade is connected to the tail end of the blanking device in a sliding mode and blocks a feeding groove opening of the feeding grooves, the middle rotary disc and the assembly disc are rotatably connected to the base station, and the mechanical arm is arranged between the middle rotary disc and the assembly disc.

Preferably, the head end fixedly connected with feeder of pay-off line, and be equipped with the conveyer belt in the pay-off line, the both ends of conveyer belt are connected respectively on drive roll and driven voller, the drive roll rotates through the pivot to be connected on the fore-stock, the driven voller rotates through the pivot to be connected on the after-poppet.

Preferably, the base station is further provided with a motor, and an output shaft of the motor is connected with the driving roller through a transmission belt.

Preferably, a plurality of electrode sheet grooves are arranged on the middle rotating disc, wherein the electrode sheet groove at the leftmost end is positioned right below the feeding notch.

Preferably, the mechanical arm is fixedly connected to the base station, and a mechanical clamping jaw is arranged below the mechanical arm.

The utility model has the advantages that: simple structure uses in a flexible way, through setting up the pay-off line of taking the pay-off groove, and the bottom of pay-off groove is equipped with the conveyer belt, ensures that the electrode slice can be along one of pay-off groove send to the electrode slice inslot, and the carousel had both made things convenient for the electrode slice that takes off to connect to get off and made things convenient for mechanical clamping jaw clamp to get in setting up, can be smooth fill in the corresponding plastic casing with the electrode slice.

Drawings

FIG. 1 is a schematic view of the overall structure of the device of the present invention;

FIG. 2 is a top view of the device of the present invention;

FIG. 3 is a schematic structural view of a feeding line part in the device of the present invention;

FIG. 4 is an enlarged view of portion A of FIG. 1;

FIG. 5 is a cross-sectional view of a feed line in the apparatus of the present invention;

the device comprises a base station 1, a base station 2, a feeding line 20, a feeder 21, a feeder, 22, a feeding groove 220, a feeding groove opening 23, a front support 24, a rear support 25, a motor 26, a driving roller 27, a driven roller 270, a rotating shaft 28, a conveying belt 3, a cylinder 30, a baffle plate 4, a middle rotating disc 40, an electrode sheet groove 5, a mechanical arm 50, a mechanical clamping jaw 6 and an assembly disc.

Detailed Description

In order to make the technical means, the creation characteristics, the achievement purposes and the functions of the invention easy to understand, the invention is further explained by combining the specific embodiments.

As shown in fig. 1 to 5, an electrode plate feeding mechanism of a PPTC overcurrent protection element comprises a base station 1, a feeding line 2, a cylinder 3, a middle turntable 4, a mechanical arm 5 and an assembly disc 6; the feeding line 2 is fixedly connected to the base platform 1 through a front support 23 and a rear support 24, the tail end of the feeding line 2 is connected with a blanking device 21, feeding grooves 22 are formed in the feeding line 2 and the blanking device 21, the air cylinder 3 is fixedly connected to the bottom of the blanking device 21, a blocking piece 30 is connected to an output shaft of the air cylinder 3, the blocking piece 30 is connected to the tail end of the blanking device 21 in a sliding mode and blocks a feeding groove opening 220 of the feeding groove 22, the middle rotating disc 4 and the assembling disc 6 are rotatably connected to the base platform 1, and the mechanical arm 5 is arranged between the middle rotating disc 4 and the assembling disc 6. The feeding line 2 and the feeding groove 22 on the feeder 21 are connected together, the conveying belt 28 is arranged at the bottom of the feeding groove 22 on the feeding line 2, the bottom of the feeding groove 22 on the feeder 21 is only a smooth metal surface, the electrode plate can automatically slide down after being conveyed into the feeding groove 22 in the feeder 21 by the conveying belt 28, but the electrode plate can be blocked by the baffle 30 when being positioned at the feeding groove opening 220 of the feeding groove 22, after the empty electrode plate groove 40 on the middle rotary disc 4 rotates to the position right below the feeding groove opening 220, the air cylinder 3 is started, the baffle 30 slides out, and the electrode plate slides down into the empty electrode plate groove 40 from the feeding groove 22. Then the middle turntable 4 continues to rotate, the electrode plate is transferred to the outer ring, the mechanical clamping jaws 50 clamp the electrode plate, and the mechanical arm 5 sends the electrode plate to the assembly disc 6 for subsequent assembly.

The head end fixedly connected with feeder 20 of pay-off line 2, and be equipped with conveyer belt 28 in the pay-off line 2, the both ends of conveyer belt 28 are connected respectively on drive roller 26 and driven voller 27, drive roller 26 rotates through pivot 270 and connects on fore-stock 23, driven voller 27 rotates through pivot 270 and connects on after-stock 24. The electrode sheets are fed one by one from the feeder 20 into the feed chute 22. Due to the space limitation of the feeding groove 22, the electrode plates can be transported one by one without dislocation.

The base station 1 is further provided with a motor 25, and an output shaft of the motor 25 is connected with a driving roller 26 through a transmission belt. The motor 25 drives the conveyer belt 28 to run continuously for conveying the electrode plates.

The middle rotating disk 4 is provided with a plurality of electrode sheet grooves 40, wherein the electrode sheet groove 40 at the leftmost end is positioned right below the feeding notch 220. The electrode sheet will fall into the leftmost electrode sheet slot 40, but after the turntable 4 has rotated 180 °, the electrode sheet will be gripped by the mechanical gripper 50 and fed to assembly, so that there will be an increasingly empty electrode sheet slot 40 passing directly below the feed slot opening 220.

The mechanical arm 5 is fixedly connected to the base platform 1, and a mechanical clamping jaw 50 is arranged below the mechanical arm 5. The mechanical clamping jaw 50 is responsible for clamping the electrode plate, and the mechanical arm 5 is responsible for transferring the electrode plate.

The specific implementation mode and principle are as follows:

the electrode plates enter the feeding groove 22 from the feeder 20 one by one (with a certain interval time), the bottom of the feeding groove 22 on the feeding line 2 is provided with the conveyer belt 28, the feeding line 2 is connected with the feeding groove 22 on the blanking device 21, the conveyer belt 28 sends the electrode plates to the blanking device 21, the electrode plates are sent to the feeding groove 22 in the blanking device 21 by the conveyer belt 28 and then automatically slide down, but the electrode plates are blocked by the blocking pieces 30 when being at the feeding groove opening 220 of the feeding groove 22, after the empty electrode plate groove 40 on the middle rotating disc 4 rotates to the position right below the feeding groove opening 220, the air cylinder 3 is started, the blocking pieces 30 slide out, the electrode plates slide down to the empty electrode plate groove 40 below from the feeding groove 22, and then the air cylinder 3 drives the blocking pieces 30 to block the feeding groove opening 200 again;

the electrode slice falls into the electrode slice groove 40 at the leftmost end, then the middle rotary table 4 continues to rotate, but after the rotary table 4 rotates 180 degrees (the electrode slice is transferred to the outer ring), the mechanical clamping jaw 50 clamps the electrode slice, and the mechanical arm 5 sends the electrode slice to the assembly disc 6 for subsequent assembly work, so that the electrode slice groove 40 continuously runs under the feeding notch 220.

Based on the above, the utility model discloses simple structure uses in a flexible way, through the pay-off line of setting up area pay-off groove, and the bottom of pay-off groove is equipped with the conveyer belt, ensures that the electrode slice can be along one of pay-off groove send the electrode slice inslot to, and the carousel had both made things convenient for the electrode slice that takes off to take off and made things convenient for mechanical clamping jaw clamp to get in setting up, can be smooth fill in the corresponding plastic casing with the electrode slice.

It will be appreciated by those skilled in the art that the invention may be embodied in other specific forms without departing from the spirit or essential characteristics thereof. The embodiments disclosed above are therefore to be considered in all respects as illustrative and not restrictive. All changes which come within the scope of the invention or which are equivalent to the scope of the invention are embraced by the invention.

Claims

1. An electrode plate feeding mechanism of a PPTC overcurrent protection element is characterized by comprising a base station (1), a feeding line (2), a cylinder (3), a middle turntable (4), a mechanical arm (5) and an assembly disc (6); the material conveying line (2) is fixedly connected onto the base platform (1) through a front support (23) and a rear support (24), the tail end of the material conveying line (2) is connected with a blanking device (21), feeding grooves (22) are formed in the material conveying line (2) and the blanking device (21), the air cylinder (3) is fixedly connected to the bottom of the blanking device (21), a blocking piece (30) is connected onto an output shaft of the air cylinder (3), the blocking piece (30) is connected to the tail end of the blanking device (21) in a sliding mode, feeding notches (220) of the feeding grooves (22) are blocked, the middle rotating disc (4) and the assembling disc (6) are rotatably connected onto the base platform (1), and the mechanical arm (5) is arranged between the middle rotating disc (4) and the assembling disc (6).

2. The electrode plate feeding mechanism of the PPTC overcurrent protection element as set forth in claim 1, wherein: head end fixedly connected with feeder (20) of pay-off line (2), and be equipped with conveyer belt (28) in pay-off line (2), the both ends of conveyer belt (28) are connected respectively on drive roller (26) and driven voller (27), drive roller (26) rotate through pivot (270) and connect on fore-stock (23), driven voller (27) rotate through pivot (270) and connect on after-poppet (24).

3. The electrode plate feeding mechanism of the PPTC overcurrent protection element as set forth in claim 1, wherein: the base station (1) is further provided with a motor (25), and an output shaft of the motor (25) is connected with the driving roller (26) through a transmission belt.

4. The electrode plate feeding mechanism of the PPTC overcurrent protection element as set forth in claim 1, wherein: the middle rotating disc (4) is provided with a plurality of electrode sheet grooves (40), wherein the electrode sheet groove (40) at the leftmost end is positioned right below the feeding notch (220).

5. The electrode plate feeding mechanism of the PPTC overcurrent protection element as set forth in claim 1, wherein: the mechanical arm (5) is fixedly connected to the base platform (1), and a mechanical clamping jaw (50) is arranged below the mechanical arm (5).