CN216175902U - Mould for manufacturing ion implanter accessory - Google Patents

Abstract

The utility model discloses a die for manufacturing accessories of an ion implanter, which belongs to the field of mechanical dies and comprises a lower die and an upper die, wherein the lower end of the lower die is provided with a pressing strip, the upper end of the upper die is provided with a pressing groove, guide grooves are formed in the lower die and positioned on two sides of the pressing groove, a sliding frame is obliquely and slidably connected in the guide grooves, the guide grooves are of an upper opening type structure, the upper end of the sliding frame can slide to the upper end of the lower die through an opening in the upper end of the guide grooves, an elastic component for driving the sliding frame to slide upwards is arranged in the guide grooves, an elastic supporting component is also arranged on the lower die and used for reinforcing the accessories, a storage mechanism is also arranged on the die in a matched manner and used for collecting the accessories, the die can realize that the accessories can be automatically taken out and collected after the accessories are processed, and the processes of taking out and collecting the accessories are reduced, the processing efficiency is greatly improved.

Description

Mould for manufacturing ion implanter accessory

Technical Field

The utility model relates to the field of mechanical dies, in particular to a die for manufacturing an ion implanter accessory.

Background

The ion implanter is one of high-voltage small accelerators, which obtains required ions from an ion source, obtains ion beam current with hundreds of kilo-electron volt energy through acceleration, and is used for ion implantation of semiconductor materials, large-scale integrated circuits and devices;

in the production process of an ion implanter accessory, a stamping die is often required to be used for processing the accessory, for example, the stamping die disclosed by the publication with the authorization number of CN208772262U, which is adjustable and can be adapted to various types of products to be stamped, but the problem that the existing die cannot automatically take out and collect the accessory after the accessory is processed, and the process of taking out and collecting the accessory is required, which results in poor processing efficiency, is not solved, and a die for manufacturing the ion implanter accessory is proposed.

SUMMERY OF THE UTILITY MODEL

1. Technical problem to be solved

Aiming at the problems in the prior art, the utility model aims to provide a die for manufacturing accessories of an ion implanter, which can realize that the accessories can be automatically taken out and collected after the accessories are processed, so that the processes of taking out and collecting the accessories are reduced, and the processing efficiency is greatly improved.

2. Technical scheme

In order to solve the above problems, the present invention adopts the following technical solutions.

A die for manufacturing accessories of an ion implanter comprises a lower die and an upper die, wherein a pressing strip is arranged at the lower end of the lower die, a pressing groove is formed in the upper end of the upper die, guide grooves are formed in the lower die and positioned on two sides of the pressing groove, a sliding frame is connected to the inner portion of each guide groove in an inclined sliding mode, each guide groove is of an upper open structure, the upper end of each sliding frame can slide to the upper end of the lower die through an opening in the upper end of each guide groove, and an elastic assembly used for driving the sliding frame to slide upwards is arranged in each guide groove;

the lower die is also provided with an elastic supporting component for reinforcing accessories;

the mould is also provided with a storage mechanism in a matching way for collecting accessories.

Furthermore, elastic component is including first return spring, first return spring is fixed between the inner wall of the lower one end of carriage and guide way, the inside fixedly connected with of guide way and carriage sliding connection's spring locating lever, first return spring cup joints the outside at spring locating lever.

Further, the upper end of carriage is provided with puts the thing board, the upper end of putting the thing board rotates and is connected with a plurality of first cylinders.

Further, the carriage with put and be provided with two connecting rods between the thing board, two the outside sliding connection of connecting rod has the spacing of L shape, the one end of the spacing of L shape is located the one end that first cylinder is close to first return spring, the upper end slidable to the upper end of first cylinder of the spacing one side of L shape, the outside of connecting rod just is located and has cup jointed the second return spring between carriage and the spacing of L shape.

Further, the elastic support assembly is including seting up four working chambers on the lower mould, four the working chamber is located the both sides of indent respectively, the internally mounted of working chamber has third return spring, the inside of working chamber and the upper end sliding connection who is located third return spring have the ejector pin, the upper end of ejector pin extensible to the outside of lower mould.

Further, store the mechanism including the bin, the upper end of bin rotates and is connected with the baffle, fourth return spring is installed to bin and spring locating lever inner wall near the position of its junction.

Furthermore, a plurality of second rollers are rotatably connected to the upper end of the baffle.

3. Advantageous effects

Compared with the prior art, the utility model has the advantages that:

(1) this scheme can throw out the accessory automatically after the accessory processing is accomplished through the cooperation of each accessory to collect the accessory through storing the mechanism, thereby can reduce the process of taking out and collecting the accessory, great promotion machining efficiency.

(2) This scheme is through the cooperation of storing each accessory of mechanism, can effectually cushion the power of accessory whereabouts to reduce the probability that the accessory damaged because the impact force of whereabouts is too big.

Drawings

FIG. 1 is a schematic structural view of the present invention;

FIG. 2 is a cut-away side view of the lower die of the present invention;

FIG. 3 is an enlarged view taken at A of FIG. 2 in accordance with the present invention;

FIG. 4 is a cross-sectional elevation view of the lower die of the present invention;

figure 5 is a cut-away elevation view of the storage mechanism of the present invention.

The reference numbers in the figures illustrate:

1. a lower die; 2. an upper die; 3. a storage tank; 4. layering; 5. pressing a groove; 6. a top rod; 7. a guide groove; 8. a carriage; 9. a spring positioning rod; 10. a first return spring; 11. a connecting rod; 12. a second return spring; 13. a storage plate; 14. a first drum; 15. an L-shaped limiting frame; 16. a working chamber; 17. a third return spring; 18. a second drum; 19. a baffle plate; 20. and a fourth return spring.

Detailed Description

The technical solution in the embodiments of the present invention will be clearly and completely described below with reference to the accompanying drawings in the embodiments of the present invention; it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all embodiments, and all other embodiments obtained by those skilled in the art without any inventive work are within the scope of the present invention.

Example 1:

referring to fig. 1 to 5, a mold for manufacturing accessories of an ion implanter includes a lower mold 1 and an upper mold 2, a bead 4 is disposed at a lower end of the lower mold 1, and a groove 5 is disposed at an upper end of the upper mold 2, when the accessories are machined, a raw material is placed at the upper end of the lower mold 1, and then the upper mold 2 is rapidly pressed down, so that the bead 4 and the groove 5 shape the raw material, and the raw material is machined into the accessories.

Referring to fig. 1-3, the lower mold 1 has guide grooves 7 formed therein at both sides of the pressure groove 5, a sliding frame 8 is slidably connected to the guide grooves 7, the guide grooves 7 are open upward, an upper end of the sliding frame 8 can slide to an upper end of the lower mold 1 through an opening at an upper end of the guide grooves 7, and the guide grooves 7 drive the sliding frame 8 to slide upward.

When going up mould 2 and driving the raw materials and push down, the raw materials can drive carriage 8 and move down together, makes carriage 8 carry out the slant slip in the inside of guide way 7, and the slip in-process carries out the energy storage through elastic component, and elastic component can drive carriage 8 and reset after last mould 2 and raw materials separation, and carriage 8 resets and can apply the oblique thrust to the accessory, makes the accessory throw according to the parabola to can take out from the mould with the accessory of processing completion automatically.

Here, the elastic component includes a first return spring 10, the first return spring 10 is fixed between the inner walls of the lower ends of the sliding frame 8 and the guide groove 7, in order to position the first return spring 10, the offset of the first return spring 10 is reduced, the spring positioning rod 9 of the inner fixed connection of the guide groove 7 and the sliding frame 8 is in sliding connection, the first return spring 10 is sleeved outside the spring positioning rod 9, when the sliding frame 8 is pressed downwards, the sliding frame 8 can slide towards one end close to the spring positioning rod 9, the sliding frame 8 can extrude the first return spring 10 in the sliding process, the first return spring 10 is enabled to store energy, after the upper die 2 and the raw material are separated, the first return spring 10 can push the sliding frame 8, and the sliding frame 8 is enabled to reset.

As shown in fig. 2 and 3, in order to reduce the friction between the sliding rack 8 and the accessories, an object placing plate 13 is disposed at the upper end of the sliding rack 8, and a plurality of first rollers 14 are rotatably connected to the upper end of the object placing plate 13;

in order to ensure that the thrust of the sliding frame 8 can be effectively transmitted to the accessories, two connecting rods 11 are arranged between the sliding frame 8 and the object placing plate 13, the outer sides of the two connecting rods 11 are connected with an L-shaped limiting frame 15 in a sliding manner, one end of the L-shaped limiting frame 15 is positioned at one end of the first roller 14 close to the first return spring 10, the upper end of one side of the L-shaped limiting frame 15 can slide to the upper end of the first roller 14, a second return spring 12 is sleeved outside the connecting rods 11 and positioned between the sliding frame 8 and the L-shaped limiting frame 15, when the accessory is pushed down to drive the sliding frame 8 to move, the first roller 14 can reduce the friction force between the sliding frame 8 and the accessory until one end of the L-shaped limiting frame 15 slides to one end of the accessory close to the first return spring 10, at the moment, the upper end of one side of the L-shaped limiting frame 15 is attached to the side edge of the accessory, and the accessory can be pushed through the L-shaped limiting frame 15 when the sliding frame 8 is reset.

Referring to fig. 1 and 4, the lower mold 1 is further provided with an elastic supporting component for reinforcing the fitting;

elastic support subassembly is including offering four working chambers 16 on lower mould 1, four working chambers 16 are located the both sides of indent 5 respectively, the internally mounted of working chamber 16 has third return spring 17, the inside of working chamber 16 and the upper end sliding connection who is located third return spring 17 have ejector pin 6, the upper end extensible of ejector pin 6 to the outside of lower mould 1, add man-hour to the raw materials, place the raw materials in the upper end of four ejector pins 6, when last mould 2 pushes down the raw materials, ejector pin 6 can move down along with the raw materials together, until ejector pin 6 gets into the inside of working chamber 16 completely.

Referring to fig. 1 and 5, the mold is further provided with a storage mechanism for collecting accessories;

the storage mechanism comprises a storage box 3, the upper end of the storage box 3 is rotatably connected with a baffle plate 19, a fourth return spring 20 is arranged on the inner wall of the storage box 3 and the spring positioning rod 9 close to the connection position of the storage box and the spring positioning rod, when the accessories fall to the upper end of the baffle plate 19, the baffle plate 19 can automatically rotate, and the falling force of the accessories is buffered through the fourth return spring 20, so that the probability that the accessories are damaged due to overlarge falling impact force is reduced;

and the upper end of baffle 19 is connected with a plurality of second cylinders 18 in a rotating way, and when the accessory slides at the upper end of baffle 19, second cylinder 18 can effectively alleviate the frictional force between accessory and baffle 19, protects accessory and baffle 19.

When in use: the raw materials are placed at the upper ends of the four ejector rods 6, and when the upper die 2 presses the raw materials, the ejector rods 6 move downwards along with the raw materials until the ejector rods 6 completely enter the working cavity 16;

meanwhile, when the upper die 2 drives the raw material to press down, the raw material can drive the sliding frame 8 to move downwards together, so that the sliding frame 8 slides obliquely in the guide groove 7, energy is stored through the elastic component in the sliding process until one end of the L-shaped limiting frame 15 slides to one end, close to the first return spring 10, of the accessory, at the moment, the upper end of one side of the L-shaped limiting frame 15 is attached to the side edge of the accessory, the elastic component can drive the sliding frame 8 to reset after the upper die 2 and the raw material are separated, the accessory is pushed through the L-shaped limiting frame 15 when the sliding frame 8 resets, oblique thrust is applied to the accessory, the accessory is thrown out according to a parabola, and the machined accessory can be automatically taken out of the die;

when the accessories fall to the upper end of the baffle plate 19, the baffle plate 19 can automatically rotate, and the falling force of the accessories is buffered through the fourth return spring 20, so that the probability that the accessories are damaged due to overlarge falling impact force is reduced;

in conclusion, the parts can be automatically ejected after the parts are machined through the matching of the parts, the parts are collected through the storage mechanism, so that the processes of taking out and collecting the parts can be reduced, the machining efficiency is greatly improved, the falling force of the parts can be effectively buffered through the matching of the parts of the storage mechanism, and the probability that the parts are damaged due to overlarge falling impact force is reduced.

The foregoing is only a preferred embodiment of the present invention; the scope of the utility model is not limited thereto. Any person skilled in the art should be able to cover the technical scope of the present invention by equivalent or modified solutions and modifications within the technical scope of the present invention.

Claims (7)

1. The utility model provides a mould is used in manufacturing of ion implantation machine accessory, includes lower mould (1) and last mould (2), and the lower extreme of lower mould (1) is provided with layering (4), the upper end of going up mould (2) is provided with indent (5), its characterized in that: guide grooves (7) are formed in the lower die (1) and located on two sides of the pressure groove (5), a sliding frame (8) is obliquely and slidably connected to the inner portion of each guide groove (7), each guide groove (7) is of an upper open type structure, the upper end of each sliding frame (8) can slide to the upper end of the lower die (1) through an opening in the upper end of each guide groove (7), and an elastic assembly is arranged in each guide groove (7) and used for driving each sliding frame (8) to slide upwards;

the lower die (1) is also provided with an elastic supporting component for reinforcing accessories;

the mould is also provided with a storage mechanism in a matching way for collecting accessories.

2. The mold for manufacturing an ion implanter component as defined in claim 1, wherein: the elastic assembly comprises a first return spring (10), the first return spring (10) is fixed between the inner walls of the lower ends of the sliding frame (8) and the guide groove (7), the spring positioning rod (9) of the guide groove (7) is fixedly connected with the sliding frame (8) in a sliding mode, and the first return spring (10) is sleeved on the outer side of the spring positioning rod (9).

3. The mold for manufacturing an ion implanter component as defined in claim 1, wherein: the upper end of carriage (8) is provided with puts thing board (13), the upper end of putting thing board (13) is rotated and is connected with a plurality of first cylinders (14).

4. A mold for use in fabricating an ion implanter component as defined in claim 3, wherein: carriage (8) and put and be provided with two connecting rod (11), two between thing board (13) the outside sliding connection of connecting rod (11) has spacing (15) of L shape, the one end of spacing (15) of L shape is located first cylinder (14) and is close to the one end of first power spring (10), the upper end slidable of spacing (15) one side of L shape is to the upper end of first cylinder (14), the outside of connecting rod (11) just is located and has cup jointed second power spring (12) between carriage (8) and the spacing (15) of L shape.

5. The mold for manufacturing an ion implanter component as defined in claim 1, wherein: elastic support subassembly is including offering four working chamber (16), four on lower mould (1) working chamber (16) are located the both sides of indent (5) respectively, the internally mounted of working chamber (16) has third return spring (17), the inside of working chamber (16) and the upper end sliding connection who is located third return spring (17) have ejector pin (6), the upper end extensible of ejector pin (6) is to the outside of lower mould (1).

6. The mold for manufacturing an ion implanter component as defined in claim 1, wherein: the storage mechanism comprises a storage box (3), a baffle (19) is rotatably connected to the upper end of the storage box (3), and a fourth return spring (20) is installed at a position, close to the joint, of the inner wall of the storage box (3) and the inner wall of the spring positioning rod (9).

7. The mold for manufacturing an ion implanter component as defined in claim 6, wherein: the upper end of the baffle (19) is rotatably connected with a plurality of second rollers (18).

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