CN210708238U - Electronic components processing subassembly that gathers materials - Google Patents

Abstract

A collecting assembly for processing electronic components is characterized in that a bearing is arranged at the central position of a rotating disc and connected with a support rod, and four groups of placing grooves are circumferentially arranged on the rotating disc in an array manner; the driven gear is arranged at the central position of the lower end of the rotating disc; the motor base is arranged on the base, and a driving motor for driving the connecting shaft to rotate is arranged on the motor base; the driving gear is arranged on the connecting shaft and is meshed with the driven gear; the material box is connected to the support rod, and a material groove for storing materials is formed in the material box; the blanking pipe is arranged at the lower end of the material groove, and a blanking baffle is arranged on the blanking pipe in a sliding manner; the first connecting plate is arranged at the lower end of the material box, and a first driving device is arranged on the first connecting plate; the second connecting plate is arranged on the supporting rod, and a second driving device for driving the third connecting plate to move is arranged at the lower end of the second connecting plate; the lower end of the third connecting plate is provided with a pushing and pressing rod used for pressing materials. The utility model discloses effectively improve electronic components's collection efficiency.

Description

Electronic components processing subassembly that gathers materials

Technical Field

The utility model relates to an electronic component processing technology field especially relates to an electronic components processing subassembly that gathers materials.

Background

The electronic components are components of electronic elements and small-sized electric machines and instruments, are usually composed of a plurality of parts and can be commonly used in similar products; it is a general name of some parts in the industries of electric appliances, radio, instruments and the like, such as capacitors, transistors, hairsprings, springs and other sub-devices. Diodes and the like are common.

Because electronic components are very small, a plurality of devices are usually integrated on a raw material belt during manufacturing, and after all manufacturing procedures are completed, the raw material belt is cut to separate the electronic components from the raw material belt. Generally, a plurality of components can be processed and cut from a single device raw material tape, so that the cut components need to be collected in batches to improve the production efficiency.

In order to solve the problems, the application provides an aggregate component for processing electronic components.

SUMMERY OF THE UTILITY MODEL

Objects of the invention

For solving the technical problem who exists among the background art, the utility model provides an electronic components processing subassembly that gathers materials effectively improves electronic components's collection efficiency.

(II) technical scheme

The utility model provides an aggregate assembly for processing electronic components, which comprises a base, a rotating disc, a driven gear, a motor base, a connecting shaft, a driving gear, an aggregate pipe, a material box, a material, a blanking pipe, a first connecting plate, a second connecting plate and a third connecting plate;

a supporting rod is vertically arranged at the center of the base; a bearing is arranged at the central position of the rotating disc and connected with the supporting rod, and four groups of placing grooves are circumferentially arranged on the rotating disc in an array manner; the four groups of placing grooves respectively correspond to a material collecting pipe placing station, a material blanking station, a material compressing station and a material collecting pipe taking-out station; the driven gear is arranged at the center of the lower end of the rotating disc; the motor base is arranged on the base, and a driving motor for driving the connecting shaft to rotate is arranged on the motor base; the driving gear is arranged on the connecting shaft and is meshed with the driven gear; the material collecting pipe is placed in the placing groove, and an annular baffle is arranged at a material inlet of the material collecting pipe; the material box is connected to the support rod, and a material groove for storing the material is formed in the material box; the blanking pipe is arranged at the lower end of the material groove and is positioned right above the material blanking station, and a blanking baffle is arranged on the blanking pipe in a sliding manner; the first connecting plate is arranged at the lower end of the material box, and a first driving device for driving the blanking baffle to move is arranged on the first connecting plate; the second connecting plate is arranged on the supporting rod and is positioned right above the material pressing station, and a second driving device for driving a third connecting plate to move is arranged at the lower end of the second connecting plate; and a pushing and pressing rod for pressing the material is arranged at the lower end of the third connecting plate.

Preferably, the side wall of the placing groove is provided with an elastic soft cushion.

Preferably, the upper end of the rotating disc is provided with a protective pad, and the number and the position of the protective pads correspond to those of the placing grooves.

Preferably, the material collecting pipe placing station and the material collecting pipe taking-out station are both used for automatically placing and taking through a manipulator.

Preferably, the driving motor is a stepping motor.

Preferably, the first driving device and the second driving device are air cylinder driving assemblies.

Preferably, the first driving device and the second driving device are electric telescopic rod driving components.

The above technical scheme of the utility model has following profitable technological effect: the material is put into a material groove on the material box, and the material can automatically slide downwards due to the inclined end surface at the lower end of the material groove; and the material drives blanking baffle through first drive arrangement and controls when falling in the collecting pipe, place the collecting pipe in the standing groove at collecting pipe placing position, material blanking station adds the material to collecting pipe in, the material compresses tightly the station and compresses tightly the material in collecting pipe, collecting pipe takes out the collecting pipe that the station will be equipped with the material and takes out, collecting pipe placing position, material blanking station, the material compresses tightly the station and collecting pipe takes out the station simultaneous working can realize the continuous high-efficient collection to the material, effectively improve material collection efficiency of dress.

Drawings

Fig. 1 is the utility model provides a structural schematic diagram of electronic components processing subassembly that gathers materials.

Fig. 2 is the utility model provides a structural schematic that overlooks of transfer disk in electronic components processing subassembly that gathers materials.

Fig. 3 is an enlarged schematic view of a portion a in fig. 1.

Reference numerals: 1. a base; 2. a support bar; 3. rotating the disc; 31. a placement groove; 4. a driven gear; 5. a bearing; 6. a motor base; 7. a drive motor; 8. a connecting shaft; 9. a driving gear; 10. a material collecting pipe; 11. an annular baffle; 12. an elastic cushion; 13. a material box; 131. a material groove; 14. material preparation; 15. a blanking pipe; 16. a first connecting plate; 17. a first driving device; 18. a blanking baffle; 19. a second connecting plate; 20. a second driving device; 21. a third connecting plate; 22. a push rod; 23. a protective pad.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more apparent, the present invention will be described in detail with reference to the accompanying drawings. It should be understood that the description is intended to be illustrative only and is not intended to limit the scope of the present invention. Moreover, in the following description, descriptions of well-known structures and techniques are omitted so as to not unnecessarily obscure the concepts of the present invention.

As shown in fig. 1-3, the material collecting assembly for processing electronic components provided by the present invention comprises a base 1, a rotating disc 3, a driven gear 4, a motor base 6, a connecting shaft 8, a driving gear 9, a material collecting pipe 10, a material box 13, a material 14, a material dropping pipe 15, a first connecting plate 16, a second connecting plate 19 and a third connecting plate 21;

a support rod 2 is vertically arranged at the center of the base 1; a bearing 5 is arranged at the center of the rotating disc 3 and connected with the support rod 2, and four groups of placing grooves 31 are circumferentially arranged on the rotating disc 3; the four groups of placing grooves 31 respectively correspond to a material collecting pipe placing station, a material blanking station, a material compacting station and a material collecting pipe taking-out station; the driven gear 4 is arranged at the center of the lower end of the rotating disc 3; the motor base 6 is arranged on the base 1, and a driving motor 7 for driving the connecting shaft 8 to rotate is arranged on the motor base 6; the driving gear 9 is arranged on the connecting shaft 8 and is meshed with the driven gear 4; the material collecting pipe 10 is placed in the placing groove 31, and an annular baffle 11 is arranged at a material inlet of the material collecting pipe 10; the material box 13 is connected to the support rod 2, and a material groove 131 for storing the material 14 is formed in the material box 13; the blanking pipe 15 is arranged at the lower end of the material groove 131 and is positioned right above the material blanking station, and a blanking baffle 18 is arranged on the blanking pipe 15 in a sliding manner; the first connecting plate 16 is arranged at the lower end of the material box 13, and a first driving device 17 for driving the blanking baffle 18 to move is arranged on the first connecting plate 16; the second connecting plate 19 is arranged on the supporting rod 2 and is positioned right above the material pressing station, and a second driving device 20 for driving a third connecting plate 21 to move is arranged at the lower end of the second connecting plate 19; the lower end of the third connecting plate 21 is provided with a pushing and pressing rod 22 for pressing the material.

In the utility model, the material is put into the material groove 131 on the material box 13, and the lower end of the material groove 131 is an inclined end surface, so that the material can automatically slide downwards; and the material drives blanking baffle 18 through first drive arrangement 17 and controls when falling in the collecting pipe, place collecting pipe 10 in standing groove 31 at collecting pipe placing position, material blanking station adds material 14 to collecting pipe 10, the material compresses tightly the station and compresses tightly material 14 in collecting pipe 10, collecting pipe takes out the collecting pipe 10 that the station will be equipped with material 14 and takes out, collecting pipe placing position, material blanking station, the material compresses tightly the station and the simultaneous working of collecting pipe taking out station can realize the continuous high-efficient collection to the material, effectively improve material collection efficiency.

In an alternative embodiment, the side walls of the placement groove 31 are provided with elastic cushions 12.

It should be noted that, the placing groove 31 is used for placing the material collecting pipe 10, the elastic cushion 12 is arranged to improve the stability of the material collecting pipe 10 and adapt to material collecting pipes with different pipe diameters, and the elastic cushion 12 can also protect the material collecting pipe 10 to a certain extent.

In an alternative embodiment, the upper end of the rotary disk 3 is provided with protective pads 23, and the number and position of the protective pads 23 correspond to the placement grooves 31.

It should be noted that the protection pad 23 arranged on the rotary disc 3 effectively protects the material collecting pipe 10, and when the second driving device 20 drives the pushing rod 22 to compress the material, the protection pad 23 plays a role in shock absorption and protection.

In an optional embodiment, the material collecting pipe placing station and the material collecting pipe taking station are both automatically placed and taken through a mechanical arm.

It should be noted that the material collecting pipe placing station is used for placing empty material collecting pipes into the placing groove 31, the material collecting pipe taking-out station is used for taking out the material collecting pipes with stored materials, and the material collecting machining efficiency is effectively improved by automatically placing and taking the material collecting pipes through the manipulator.

In an alternative embodiment, the drive motor 7 is a stepper motor.

It should be noted that, the driving motor 7 is used for driving the rotating disc 3 to rotate to complete the material collecting process, and the driving motor is a stepping motor, so that the rotating position precision is high, the working performance is stable, and the service life is long.

In an alternative embodiment, the first and second driving means 17, 20 are pneumatic cylinder driving assemblies.

It should be noted that, the cylinder driving assembly has a simple structure, is easy to install and maintain, and has convenient operation, low use cost and strong adaptability.

In an alternative embodiment, the first driving device 17 and the second driving device 20 are electric telescopic rod driving components.

It should be noted that the electric telescopic rod driving component system is very simple and compact in structure, flexible in driving, strong in flexibility and high in driving precision.

It is to be understood that the above-described embodiments of the present invention are merely illustrative of or explaining the principles of the invention and are not to be construed as limiting the invention. Therefore, any modification, equivalent replacement, improvement and the like made without departing from the spirit and scope of the present invention should be included in the protection scope of the present invention. Further, it is intended that the appended claims cover all such variations and modifications as fall within the scope and boundaries of the appended claims or the equivalents of such scope and boundaries.

Claims (7)

1. An electronic component processing material collection assembly is characterized by comprising a base (1), a rotating disc (3), a driven gear (4), a motor base (6), a connecting shaft (8), a driving gear (9), a material collection pipe (10), a material box (13), a material (14), a material falling pipe (15), a first connecting plate (16), a second connecting plate (19) and a third connecting plate (21);

a support rod (2) is vertically arranged at the center of the base (1); a bearing (5) is arranged at the center of the rotating disc (3) and connected with the support rod (2), and four groups of placing grooves (31) are arranged on the rotating disc (3) in a circumferential array manner; the four groups of placing grooves (31) respectively correspond to a material collecting pipe placing station, a material blanking station, a material compacting station and a material collecting pipe taking-out station; the driven gear (4) is arranged at the center of the lower end of the rotating disc (3); the motor base (6) is arranged on the base (1), and a driving motor (7) for driving the connecting shaft (8) to rotate is arranged on the motor base (6); the driving gear (9) is arranged on the connecting shaft (8) and is meshed with the driven gear (4); the material collecting pipe (10) is placed in the placing groove (31), and an annular baffle (11) is arranged at a material inlet of the material collecting pipe (10); the material box (13) is connected to the support rod (2), and a material groove (131) for storing the material (14) is formed in the material box (13); the blanking pipe (15) is arranged at the lower end of the material groove (131) and is positioned right above the material blanking station, and a blanking baffle (18) is arranged on the blanking pipe (15) in a sliding manner; the first connecting plate (16) is arranged at the lower end of the material box (13), and a first driving device (17) for driving the blanking baffle (18) to move is arranged on the first connecting plate (16); the second connecting plate (19) is arranged on the supporting rod (2) and is positioned right above the material pressing station, and a second driving device (20) for driving a third connecting plate (21) to move is arranged at the lower end of the second connecting plate (19); and a pushing and pressing rod (22) for pressing the materials is arranged at the lower end of the third connecting plate (21).

2. The aggregate assembly for processing electronic components as claimed in claim 1, wherein the side walls of the placing groove (31) are provided with elastic soft pads (12).

3. The aggregate assembly for processing electronic components as claimed in claim 1, wherein protective pads (23) are arranged at the upper end of the rotary disk (3), and the number and the positions of the protective pads (23) correspond to those of the placing grooves (31).

4. The electronic component processing aggregate assembly according to claim 1, wherein the aggregate pipe placing station and the aggregate pipe taking station are both automatically placed and taken by a manipulator.

5. The electronic component processing aggregate assembly as set forth in claim 1, wherein the driving motor (7) is a stepping motor.

6. An electronic component processing aggregate assembly as set forth in claim 1, wherein said first driving means (17) and said second driving means (20) are cylinder driving assemblies.

7. The electronic component processing aggregate assembly of claim 1, wherein the first driving device (17) and the second driving device (20) are electric telescopic rod driving assemblies.

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