CN216054618U - Three-dimensional storage mechanism of chip production - Google Patents

Abstract

The utility model discloses a three-dimensional storage mechanism for chip production, which comprises a chip storage jig, a feeding mechanism and a discharging mechanism, the feeding mechanism comprises a first base frame, a vertical first linear sliding table is arranged on the first base frame, a first positioning bracket is arranged on the first linear sliding table, a first positioning cylinder is arranged above the first positioning bracket, the first positioning bracket and the first positioning cylinder form a first positioning clamping opening for fixing the chip storage jig, a first feeding conveyer belt which is used for conveying the chip storage jig and is matched with the first positioning bracket is arranged on the first base frame, the chip storage jig conveying device is characterized in that a first discharging conveying belt for outputting the chip storage jig is arranged on the first base frame, a chip conveying belt corresponding to the first positioning bracket is arranged on the first base frame, and a second discharging conveying belt for outputting the chip storage jig is arranged on the second base frame. The automatic feeding and discharging device can automatically feed and discharge materials on a chip production line, effectively improves the working efficiency and saves a large amount of labor.

Description

Three-dimensional storage mechanism of chip production

Technical Field

The utility model relates to the technical field of chip production, in particular to a three-dimensional storage mechanism for chip production.

Background

The chip is a general term for semiconductor device products. Is the carrier of the integrated circuit and is formed by dividing the wafer. A silicon wafer is a small piece of silicon containing integrated circuits that are part of a computer or other electronic device. An IC is an integrated circuit, generally referred to as all electronic components, and is a circuit module that integrates a plurality of electronic components on a silicon board to realize a specific function. It is the most important part of electronic equipment, and undertakes the functions of operation and storage. The application range of the integrated circuit covers the low efficiency of manually feeding and discharging materials on a production line in the chip production process of almost all electronic equipment for military industry and civil use. Therefore, we improve this and propose a three-dimensional storage mechanism for chip production.

SUMMERY OF THE UTILITY MODEL

In order to solve the technical problems, the utility model provides the following technical scheme:

the utility model relates to a three-dimensional storage mechanism for chip production, which comprises a chip storage jig, a feeding mechanism and a discharging mechanism, the feeding mechanism comprises a first base frame, a vertical first linear sliding table is arranged on the first base frame, a first positioning bracket is arranged on the first linear sliding table, a first positioning cylinder is arranged above the first positioning bracket, the first positioning bracket and the first positioning cylinder form a first positioning clamping opening for fixing the chip storage jig, a first feeding conveyer belt which is used for conveying the chip storage jig and is matched with the first positioning bracket is arranged on the first base frame, a first discharging conveyer belt for outputting the chip storage jig is arranged on the first base frame, a chip conveyer belt corresponding to the first positioning bracket is arranged on the first base frame, the first base frame is provided with an ejection cylinder which pushes the chip in the chip storage jig out of the chip conveying belt; the blanking mechanism comprises a second base frame, a vertical second linear sliding table is arranged on the second base frame, a second positioning bracket is arranged on the second linear sliding table, a second positioning cylinder is arranged above the second positioning bracket, and the second positioning bracket and the second positioning cylinder form a second positioning clamping opening for fixing the chip storage jig; the chip storage jig conveying device is characterized in that a chip feeding conveying belt matched with the chip storage jig is arranged on the second base frame, a second feeding conveying belt matched with the second positioning bracket and used for conveying the chip storage jig is arranged on the second base frame, and a second discharging conveying belt for outputting the chip storage jig is arranged on the second base frame.

As a preferred technical solution of the present invention, the first positioning bracket is provided with a first material pushing cylinder for pushing the chip storage jig to the first material discharging conveyor belt.

As a preferred technical solution of the present invention, a second pushing cylinder for pushing the chip storage jig to the second discharging conveyor belt is provided on the second positioning bracket.

As a preferred technical solution of the present invention, the chip storage jig includes a cubic frame, a plurality of opposite support bars are disposed in the frame, and a support table for supporting a chip is formed between the support bars.

As a preferable technical scheme of the utility model, the first feeding conveyor belt and the second feeding conveyor belt are both provided with feeding electric push rods.

The utility model has the beneficial effects that:

the chip production three-dimensional storage mechanism can automatically load and unload materials on a chip production line, effectively improves the working efficiency and saves a large amount of labor force, when the chip production line is loaded, a chip storage jig provided with chips is placed in the loading mechanism, the chip storage jig is fed into a first positioning bracket under the action of a first feeding conveying belt to form a first positioning clamping port for fixing the chip storage jig with a first positioning air cylinder, then a first linear sliding table moves to convey the chip storage jig to a position corresponding to the chip conveying belt, and then the chips in the chip storage jig are pushed out onto the chip conveying belt by an ejection air cylinder, so that the loading action on the chip production line is completed; wherein when unloading is carried out chip production water line through unloading mechanism, prevent the chip storage tool of vacant in second feeding conveyer belt, send to second location bracket and second location cylinder and form in the second location centre gripping mouth fixed to chip storage tool, then remove through second sharp slip table, send chip storage tool to and chip feeding conveyer belt position department of correspondence, then under the effect of chip feeding conveyer belt, send into chip storage tool with the chip in, then when chip storage tool fill the chip and send out under the effect of second ejection of compact conveyer belt.

Drawings

The accompanying drawings, which are included to provide a further understanding of the utility model and are incorporated in and constitute a part of this specification, illustrate embodiments of the utility model and together with the description serve to explain the principles of the utility model and not to limit the utility model. In the drawings:

FIG. 1 is a schematic structural diagram of a feeding mechanism of a three-dimensional chip storage mechanism according to the present invention;

FIG. 2 is a schematic view of the installation of the ejection cylinder of the chip production three-dimensional storage mechanism of the present invention;

FIG. 3 is a schematic structural diagram of a feeding electric push rod of a chip production three-dimensional storage mechanism according to the present invention;

FIG. 4 is a schematic structural diagram of a blanking mechanism of a chip production three-dimensional storage mechanism according to the present invention;

FIG. 5 is a schematic structural diagram of a second material pushing cylinder of the chip production three-dimensional storage mechanism of the utility model;

fig. 6 is a schematic structural diagram of a second positioning bracket of the chip production three-dimensional storage mechanism according to the utility model.

In the figure: 1. a chip storage jig; 2. a feeding mechanism; 3. a blanking mechanism; 4. a first base frame; 5. a first linear sliding table; 6. a first positioning bracket; 7. a first positioning cylinder; 9. a first feed conveyor; 10. a first discharge conveyor belt; 11. a chip conveyor belt; 13. Ejecting out the cylinder; 14. a first material pushing cylinder; 15. a second base frame; 16. a second linear sliding table; 17. a second positioning bracket; 18. a second positioning cylinder; 19. a chip feeding conveyor belt; 20. a second feed conveyor; 21. a second discharge conveyor belt; 22. a feeding electric push rod; 23. a second material pushing cylinder; 24. a frame body; 25. and (7) supporting the strip.

Detailed Description

The preferred embodiments of the present invention will be described in conjunction with the accompanying drawings, and it will be understood that they are described herein for the purpose of illustration and explanation and not limitation.

Example (b): as shown in fig. 1-6, the three-dimensional storage mechanism for chip production of the present invention comprises a chip storage jig 1, a loading mechanism 2 and a unloading mechanism 3, wherein the loading mechanism 2 comprises a first base frame 4, a vertical first linear sliding table 5 is arranged on the first base frame 4, a first positioning bracket 6 is arranged on the first linear sliding table 5, a first positioning cylinder 7 is arranged above the first positioning bracket 6, the first positioning bracket 6 and the first positioning cylinder 7 form a first positioning clamping opening for fixing the chip storage jig 1, a first feeding conveyer belt 9 for conveying the chip storage jig 1 and matching with the first positioning bracket 6 is arranged on the first base frame 4, a first discharging conveyer belt 10 for outputting the chip storage jig 1 is arranged on the first base frame 4, a chip conveyer belt 11 corresponding to the first positioning bracket 6 is arranged on the first base frame 4, the first base frame 4 is provided with an ejection cylinder 13 which pushes the chip in the chip storage jig 1 out to the chip conveyor belt 11; the blanking mechanism 3 comprises a second base frame 15, a vertical second linear sliding table 16 is arranged on the second base frame 15, a second positioning bracket 17 is arranged on the second linear sliding table 16, a second positioning cylinder 18 is arranged above the second positioning bracket 17, and the second positioning bracket 17 and the second positioning cylinder 18 form a second positioning clamping opening for fixing the chip storage jig 1; the chip storage jig is characterized in that a chip feeding conveyer belt 19 matched with the chip storage jig 1 is arranged on the second base frame 15, a second feeding conveyer belt 20 matched with the second positioning bracket 17 and used for conveying the chip storage jig 1 is arranged on the second base frame 15, and a second discharging conveyer belt 21 for outputting the chip storage jig 1 is arranged on the second base frame 15. The automatic feeding and discharging device can automatically feed and discharge materials on a chip production line, effectively improves the working efficiency and saves a large amount of labor force, when the chip production line is fed, the chip storage jig 1 with chips is placed in the feeding mechanism 2, is fed into the first positioning bracket 6 and the first positioning air cylinder 7 under the action of the first feeding conveying belt 9 to form a first positioning clamping port for fixing the chip storage jig 1 to be positioned, then the first linear sliding table 5 moves to convey the chip storage jig 1 to a position corresponding to the chip conveying belt 11, and then the chips in the chip storage jig 1 are pushed out onto the chip conveying belt 11 by the ejection air cylinder 13, so that the feeding action on the chip production line is completed; wherein carry out the unloading through unloading mechanism 3 to chip production water line, prevent in second feeding conveyer belt 20 with vacant chip storage tool 1, send to second location bracket 17 and second location cylinder 18 and form in the second location centre gripping mouth fixed to chip storage tool 1, then remove through second sharp slip table 16, send chip storage tool 1 to and chip feeding conveyer belt 19 position department of correspondence, then under the effect of chip feeding conveyer belt 19, send into chip storage tool 1 in with the chip, then send out when chip storage tool 1 fills with the chip and under the effect of second ejection of compact conveyer belt 21.

The first positioning bracket 6 is provided with a first material pushing cylinder 14 which pushes the chip storage jig 1 to the first discharging conveyer belt 10, and the chip storage jig 1 is pushed to the first discharging conveyer belt 10 to facilitate discharging of the chip storage jig 1.

And a second pushing cylinder 23 for pushing the chip storage jig 1 to the second discharging conveyer belt 21 is arranged on the second positioning bracket 17, so that the chip storage jig 1 is pushed to the second discharging conveyer belt 21 to facilitate discharging.

The chip storage jig 1 comprises a cubic frame body 24, a plurality of supporting strips 25 which are oppositely arranged are arranged in the frame body 24, and supporting platforms for supporting chips are formed among the supporting strips 25.

All be equipped with feeding electric putter 22 on first feeding conveyer belt 9 and the second feeding conveyer belt 20, be convenient for send into chip storage tool 1.

And a material pushing electric push rod is arranged on the chip feeding conveyer belt 19, so that the feeding mechanism 2 and the discharging mechanism 3 are convenient to use.

The working principle is as follows: the automatic loading and unloading device has the advantages that automatic loading and unloading can be carried out on a chip production line, the working efficiency is effectively improved, a large amount of labor force is saved, when the chip production line is loaded, a chip storage jig 1 with chips is placed in the loading mechanism 2, the chip storage jig 1 is fed into the first positioning bracket 6 and the first positioning air cylinder 7 under the action of the first feeding conveying belt 9 to form a first positioning clamping port for fixing the chip storage jig 1 to be positioned, then the first linear sliding table 5 moves to convey the chip storage jig 1 to the position corresponding to the chip conveying belt 11, and then the chips in the chip storage jig 1 are pushed out onto the chip conveying belt 11 through the ejection air cylinder 13, so that the loading action on the chip production line is completed; wherein carry out the unloading through unloading mechanism 3 to chip production water line, prevent in second feeding conveyer belt 20 with vacant chip storage tool 1, send to second location bracket 17 and second location cylinder 18 and form in the second location centre gripping mouth fixed to chip storage tool 1, then remove through second sharp slip table 16, send chip storage tool 1 to and chip feeding conveyer belt 19 position department of correspondence, then under the effect of chip feeding conveyer belt 19, send into chip storage tool 1 in with the chip, then send out when chip storage tool 1 fills with the chip and under the effect of second ejection of compact conveyer belt 21.

Finally, it should be noted that: although the present invention has been described in detail with reference to the foregoing embodiments, those skilled in the art will understand that various changes, modifications and substitutions can be made without departing from the spirit and scope of the utility model as defined by the appended claims. Any modification, equivalent replacement, or improvement made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims (5)

1. The utility model provides a three-dimensional storage mechanism of chip production which characterized in that: comprises a chip storage jig (1), a feeding mechanism (2) and a blanking mechanism (3), wherein the feeding mechanism (2) comprises a first base frame (4), a vertical first linear sliding table (5) is arranged on the first base frame (4), a first positioning bracket (6) is arranged on the first linear sliding table (5), a first positioning cylinder (7) is arranged above the first positioning bracket (6), the first positioning bracket (6) and the first positioning cylinder (7) form a first positioning clamping opening for fixing the chip storage jig (1), a first feeding conveyer belt (9) which is used for conveying the chip storage jig (1) and is matched with the first positioning bracket (6) is arranged on the first base frame (4), a first discharging conveyer belt (10) for outputting the chip storage jig (1) is arranged on the first base frame (4), and a chip conveyer belt (11) corresponding to the first positioning bracket (6) is arranged on the first base frame (4), the first base frame (4) is provided with an ejection cylinder (13) which pushes the chip in the chip storage jig (1) out to the chip conveyor belt (11); the blanking mechanism (3) comprises a second base frame (15), a vertical second linear sliding table (16) is arranged on the second base frame (15), a second positioning bracket (17) is arranged on the second linear sliding table (16), a second positioning cylinder (18) is arranged above the second positioning bracket (17), and the second positioning bracket (17) and the second positioning cylinder (18) form a second positioning clamping opening for fixing the chip storage jig (1); be equipped with on second bed frame (15) with chip storage tool (1) matched with chip feeding conveyer belt (19), be equipped with on second bed frame (15) be used for carrying chip storage tool (1) and with second location bracket (17) matched with second feeding conveyer belt (20), be equipped with on second bed frame (15) with the second ejection of compact conveyer belt (21) of chip storage tool (1) output.

2. The stereoscopic chip storage mechanism according to claim 1, wherein the first positioning bracket (6) is provided with a first pushing cylinder (14) for pushing the chip storage jig (1) to the first discharging conveyor belt (10).

3. The stereoscopic chip storage mechanism according to claim 1, wherein the second positioning bracket (17) is provided with a second pushing cylinder (23) for pushing the chip storage jig (1) to the second discharging conveyor belt (21).

4. The three-dimensional chip production storage mechanism according to claim 1, wherein the chip storage jig (1) comprises a cubic frame (24), a plurality of opposite supporting bars (25) are arranged in the frame (24), and supporting platforms for supporting chips are formed between the supporting bars (25).

5. The stereoscopic chip storage mechanism according to claim 1, wherein the first feeding conveyor belt (9) and the second feeding conveyor belt (20) are respectively provided with a feeding electric push rod (22).

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