CN220341183U - Die carrier special for multiple holes of chip bearing disc - Google Patents

Abstract

The utility model discloses a die carrier special for a plurality of holes of a chip bearing disc size, which relates to the technical field of die carriers of the chip bearing disc, and comprises a die carrier main body special for the chip bearing disc, wherein the upper end of the die carrier main body special for the chip bearing disc is connected with a guide post, the upper end of the guide post is connected with an upper template, the upper end of the die carrier main body special for the chip bearing disc is provided with a die carrier main body groove, the upper end of the die carrier main body groove is provided with a die placing hole, an extension plate is fixed on the die carrier main body special for the chip bearing disc, the die carrier special for the chip bearing disc size is provided with a through groove matched with a scraping blade at the bottom of the die placing hole, and the lifting frame can be driven to move up and down through a first piston rod and a first telescopic rod so as to conveniently drive four scraping blades on the scraping blade frame to move along the inner wall of the die placing hole, thus not only realizing the separation of the chip bearing disc and the die placing hole, avoiding adhesion, but also simultaneously processing a plurality of die placing holes.

Description

Die carrier special for multiple holes of chip bearing disc

Technical Field

The utility model relates to the technical field of die carriers for chip bearing trays, in particular to a die carrier special for multiple cavities of the size of a chip bearing tray.

Background

The chip bearing disc has great importance in the back end of chip manufacturing process, and is a plate-shaped structure capable of placing and installing chips, the chips can be orderly stored through the groove body arranged in the chip bearing disc, and the supporting of the die is required to be completed through the special die carrier when the chip bearing disc is produced.

However, in the actual use process of the conventional die carrier of the chip carrier tray, as the chip carrier tray is provided with a plurality of chip placing grooves, the contact area between the chip carrier tray and the die carrier is greatly increased, the adhesion area of the stamped blank is doubled, the stripping difficulty is greatly increased, and the production efficiency is reduced.

Therefore, there is an urgent need to design a die carrier for multiple cavities of chip carrier tray size to solve the above-mentioned technical problems.

Disclosure of Invention

The utility model aims to provide a die carrier special for multiple holes of a chip carrying tray size, so as to solve the problem that in the background art, the die carrier of the chip carrying tray is increased in demolding difficulty due to the fact that the number of placing grooves is large.

In order to achieve the above purpose, the present utility model provides the following technical solutions: the die carrier special for the multiple cavities of the chip carrier tray comprises a die carrier main body special for the chip carrier tray, wherein the upper end of the die carrier main body special for the chip carrier tray is connected with a guide post, the upper end of the guide post is connected with an upper template, the upper end of the die carrier main body special for the chip carrier tray is provided with a die carrier tray body groove, the upper end of the die carrier tray body groove is provided with a die placing cavity, and an extension plate is fixed on the die carrier main body special for the chip carrier tray.

Further, the front of the die carrier main body special for the chip bearing plate is provided with a first pneumatic cylinder, the lower end of the first pneumatic cylinder is connected with a first piston rod, the lower end of the extension plate is connected with a first telescopic rod, the lower ends of the first telescopic rod and the first piston rod are both fixed with a first sliding block, and the first sliding block can be driven to move up and down by starting the first pneumatic cylinder and matching with the extension or shortening of the first telescopic rod.

Further, the front and back two sides of the die carrier main body special for the chip bearing plate are respectively provided with a first sliding rail, the first sliding rails are in sliding connection with the first sliding blocks, one side, far away from the first piston rod, of the first sliding blocks is connected with a lifting frame, and the lifting frame moves up and down in the first sliding rails through the first sliding blocks, so that the lifting frame can stably lift or descend.

Further, the inboard of lift frame is connected with the doctor-bar frame, the upper end of doctor-bar frame is connected with the doctor-bar, the upper edge of doctor-bar flushes with the lower edge that the cave was placed to the chip, through the rising of lift frame, can drive four doctor-bars on the doctor-bar frame and place the inner wall in cave along the chip and remove.

Further, the front face of the die carrier main body special for the chip bearing plate is provided with a second pneumatic cylinder, the lower end of the second pneumatic cylinder is connected with a second piston rod, the lower end of the extension plate is connected with a second telescopic rod, the lower ends of the second telescopic rod and the second piston rod are both fixed with a second sliding block, and the second sliding block can be driven to move up and down by starting the second pneumatic cylinder and matching with the extension or shortening of the second telescopic rod.

Further, the front and back surfaces of the die carrier main body special for the chip bearing plate are respectively provided with a second sliding rail, the second sliding rails are in sliding connection with the second sliding blocks, and the second sliding blocks move up and down in the second sliding rails, so that the lifting plate can stably lift or descend.

Further, one side of the second slider away from the second piston rod is connected with the lifter plate, the upper end of lifter plate is fixed with the ejector pin, the upper edge of ejector pin flushes with the lower edge of chip placement hole, through the rise of lifter plate, can drive the ejector pin and place the bottom in hole from the chip and move up.

Compared with the prior art, the utility model has the beneficial effects that:

1. according to the die carrier special for the chip carrying tray with the multiple holes, through the through grooves matched with the scraping blades are formed in the bottoms of the chip placing holes, the lifting frame can be driven to move up and down through the first piston rods and the first telescopic rods, so that the four scraping blades on the scraping blade frame can be driven to move along the inner wall of the chip placing holes conveniently, separation between the chip carrying tray and the chip placing holes can be realized, adhesion is avoided, a plurality of chip placing holes can be simultaneously treated, and the demolding difficulty is effectively reduced;

2. this special die carrier in many caves of chip loading tray size is provided with through placing cave bottom at the chip and is provided with the circular slot with ejector pin assorted to through second piston rod and second telescopic link, can drive the lifter plate and reciprocate, thereby be convenient for the ejector pin to rise and bear the weight of the ejection of tray with the chip, it is more convenient to use, improves production efficiency greatly.

Drawings

FIG. 1 is a schematic perspective view of the present utility model;

FIG. 2 is a schematic diagram of the main structure of a die carrier for a chip carrier tray according to the present utility model;

FIG. 3 is a schematic view of a lifting frame according to the present utility model;

fig. 4 is a schematic view of a lifter plate structure according to the present utility model.

In the figure: 1. a die carrier main body special for the chip carrying tray; 2. a guide post; 3. an upper template; 4. a chip carrying tray body groove; 5. placing the chip in the hole; 6. an extension plate; 7. a first pneumatic cylinder; 8. a first piston rod; 9. a first telescopic rod; 10. a first slider; 11. a first slide rail; 12. a lifting frame; 13. a wiper blade frame; 14. a wiper blade; 15. a second pneumatic cylinder; 16. a second piston rod; 17. a second telescopic rod; 18. a second slider; 19. a second slide rail; 20. a lifting plate; 21. and (5) a push rod.

Detailed Description

Referring to fig. 1-4, the present utility model provides a technical solution: the die carrier special for the multiple cavities of the chip carrier tray comprises a die carrier main body 1 special for the chip carrier tray, wherein the upper end of the die carrier main body 1 special for the chip carrier tray is connected with a guide post 2, the upper end of the guide post 2 is connected with an upper template 3, the upper end of the die carrier main body 1 special for the chip carrier tray is provided with a die carrier tray body groove 4, the upper end of the die carrier tray body groove 4 is provided with a die placement cavity 5, and an extension plate 6 is fixed on the die carrier main body 1 special for the chip carrier tray.

Simultaneously, the front surface of special die carrier main part 1 of chip loading tray installs first pneumatic cylinder 7, the lower extreme of first pneumatic cylinder 7 is connected with first piston rod 8, the lower extreme of extension board 6 is connected with first telescopic link 9, the lower extreme of first telescopic link 9 and first piston rod 8 all is fixed with first slider 10, through starting first pneumatic cylinder 7 to and the extension or the shortening of cooperation first telescopic link 9, can drive first slider 10 and reciprocate, the front and back both sides of special die carrier main part 1 of chip loading tray all are provided with first slide rail 11, first slide rail 11 and first slider 10 sliding connection, one side that first slider 10 kept away from first piston rod 8 is connected with lifting frame 12, goes up and down in first slide rail 11 through first slider 10 for lifting frame 12 can steadily go up or descend, the inboard of lifting frame 12 is connected with doctor-bar frame 13, the upper end of doctor-bar frame 13 is connected with 14, the upper edge of doctor-bar 14 and the top edge of doctor-bar 5 of doctor-bar can be placed along the top edge of chip 5 and the top edge of four hole frames that can be placed along the lifting frame 13 of doctor-bar 5.

In addition, the front surface of the die carrier main body 1 special for the chip carrier tray is provided with a second pneumatic cylinder 15, the lower end of the second pneumatic cylinder 15 is connected with a second piston rod 16, the lower end of the extension plate 6 is connected with a second telescopic rod 17, the lower ends of the second telescopic rod 17 and the second piston rod 16 are both fixedly provided with a second sliding block 18, the second sliding block 18 can be driven to move up and down by starting the second pneumatic cylinder 15 and matching with the extension or shortening of the second telescopic rod 17, the front surface and the rear surface of the die carrier main body 1 special for the chip carrier tray are both provided with second sliding rails 19, the second sliding rails 19 are in sliding connection with the second sliding block 18, the second sliding blocks 18 move up and down in the second sliding rails 19, so that the lifting plate 20 can stably lift or descend, one side of the second sliding block 18 far away from the second piston rod 16 is connected with a lifting plate 20, the upper end of the lifting plate 20 is fixedly provided with a lifting rod 21, the upper edge of the lifting rod 21 is flush with the lower edge of the chip placing cavity 5, and the lifting plate 20 can be driven to move up and down from the chip placing cavity 5 through the lifting plate 20.

When the die carrier special for the chip carrier tray with multiple holes in the technical scheme is used, firstly, after blanks in the chip carrier tray body groove 4 are punched into the chip carrier tray, the first pneumatic cylinder 7 is started firstly, meanwhile, the first telescopic rod 9 is matched for shortening, the first sliding block 10 can be driven to move upwards in the first sliding rail 11, the lifting frame 12 can be stably carried out, the four scraping blades 14 on the scraping blade frame 13 can be driven to move along the inner wall of the chip placement hole 5, the effect that the chip carrier tray is separated from the chip placement hole 5 is achieved, finally, the second pneumatic cylinder 15 is started, the second sliding block 18 can be driven to move upwards in the second sliding rail 19 in a matched mode of shortening the second telescopic rod 17, the lifting plate 20 can be stably lifted, the ejector rod 21 is driven to move upwards from the bottom end of the chip placement hole 5, and the chip carrier tray is conveniently ejected.

Although embodiments of the present utility model have been shown and described, it will be understood by those skilled in the art that various changes, modifications, substitutions and alterations can be made therein without departing from the principles and spirit of the utility model, the scope of which is defined in the appended claims and their equivalents.

Claims (7)

1. The die carrier special for the multiple cavities of the chip carrying tray comprises a die carrier main body (1) special for the chip carrying tray, and is characterized in that: the die carrier comprises a die carrier body (1) special for a chip carrier, a guide column (2) is connected to the upper end of the die carrier body (1), an upper template (3) is connected to the upper end of the guide column (2), a die carrier body groove (4) is formed in the upper end of the die carrier body (1) special for the chip carrier, a die placing hole (5) is formed in the upper end of the die carrier body groove (4), and an extension plate (6) is fixed to the die carrier body (1) special for the chip carrier.

2. The die carrier for chip carrier tray size multi-cavity application of claim 1, wherein: the die carrier is characterized in that a first pneumatic cylinder (7) is arranged in front of the die carrier main body (1) special for the chip carrying tray, a first piston rod (8) is connected to the lower end of the first pneumatic cylinder (7), a first telescopic rod (9) is connected to the lower end of the extension plate (6), and first sliding blocks (10) are fixed to the lower ends of the first telescopic rod (9) and the first piston rod (8).

3. The die carrier for chip carrier tray size multi-cavity application of claim 2, wherein: the die carrier is characterized in that first sliding rails (11) are arranged on the front surface and the rear surface of the die carrier main body (1) special for the chip carrying tray, the first sliding rails (11) are in sliding connection with first sliding blocks (10), and a lifting frame (12) is connected to one side, far away from the first piston rod (8), of the first sliding blocks (10).

4. A die carrier for chip tray size multi-cavity application as defined in claim 3, wherein: the inner side of the lifting frame (12) is connected with a scraping blade frame (13), the upper end of the scraping blade frame (13) is connected with a scraping blade (14), and the upper edge of the scraping blade (14) is flush with the lower edge of the chip placing hole (5).

5. The die carrier for chip carrier tray size multi-cavity application of claim 2, wherein: the die carrier is characterized in that a second pneumatic cylinder (15) is arranged in front of the die carrier main body (1) special for the chip carrying tray, a second piston rod (16) is connected to the lower end of the second pneumatic cylinder (15), a second telescopic rod (17) is connected to the lower end of the extension plate (6), and second sliding blocks (18) are fixed to the lower ends of the second telescopic rod (17) and the second piston rod (16).

6. The die carrier for chip tray size multi-cavity application of claim 5, wherein: the die carrier is characterized in that the front surface and the rear surface of the die carrier main body (1) special for the chip carrying tray are respectively provided with a second sliding rail (19), and the second sliding rails (19) are in sliding connection with the second sliding blocks (18).

7. The die carrier for chip tray size multi-cavity application of claim 6, wherein: one side of the second sliding block (18) far away from the second piston rod (16) is connected with a lifting plate (20), the upper end of the lifting plate (20) is fixedly provided with a push rod (21), and the upper edge of the push rod (21) is flush with the lower edge of the chip placing hole (5).