CN212469604U - Forging die for long-service-life titanium alloy fastener - Google Patents

Abstract

The utility model discloses a high life titanium alloy fastener forges mould, including placing the case down, forging the board, removing slider, fixed sleeve and accepting the pole on, place the bottom half down and install the support base, and place down and install the cylinder on the case, on forge the upper end interconnect of board bottom and connecting rod, and go up and forge board and adjusting screw interconnect to the top interconnect of adjusting screw and attaching plate, remove slider and last forging mutually laminating mutually, and remove the slider and install on attaching plate to on forge and install the protection pad. This mould is forged to high life titanium alloy fastener adopts the mode of forging three screw simultaneously to can effectual promotion work efficiency, through the position change to the attaching plate, thereby carry out the forging and pressing of different degrees to the fastener, application range is wider, through damping device, thereby lets can effectually protect the device, thereby can effectual extension fixture's life.

Description

Forging die for long-service-life titanium alloy fastener

Technical Field

The utility model relates to a fastener processing technology field specifically is a high life titanium alloy fastener forges mould.

Background

The fastener is not strange to people, has wide application range, can be seen everywhere in life, and is used in the fields of machinery, electricity, buildings, chemical engineering and the like, and has the characteristics of multiple functions, lower cost and various specifications, so the fastener is popular with people.

However, there are some problems in the process of processing the fastening piece, for example, in the process of processing the fastening piece such as a screw, sequential processing is often required, which is time-consuming and labor-consuming, and in the process of processing, a damping device is lacked, so that the service life of the die is influenced to a certain extent, and the processing cost is increased.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a high life titanium alloy fastener forges mould to it needs to process in proper order to put forward in the solution above-mentioned background art wastes time and energy, lacks the problem that damping device caused the influence to the life of mould.

In order to achieve the above object, the utility model provides a following technical scheme: a forging die for a high-service-life titanium alloy fastener comprises a lower placing box, an upper forging plate, a movable slider, a fixed sleeve and a bearing rod, wherein a supporting base is installed at the bottom end of the lower placing box, an air cylinder is installed on the lower placing box, a connecting rod is installed on the air cylinder, the bottom end of the upper forging plate is connected with the upper end of the connecting rod, the upper forging plate is connected with an adjusting screw rod, the adjusting screw rod is connected with the top end of an attaching plate, the attaching plate is attached with the upper forging plate, the movable slider is installed on the attaching plate, a protective pad is installed on the upper forging plate, the protective pad is installed at the upper end of the lower placing box, the fixed sleeve is installed on the lower placing box, a placing cavity is formed in the lower placing box, a heating device is installed on the lower placing box, the bearing rod is attached with the fixed sleeve, and the fixed sleeve is provided with a damping spring, the damping spring is arranged at the bottom end of the bearing rod, and the bearing rod is arranged at the lower end of the upper forging plate.

Preferably, the connecting rods are symmetrically distributed about the center of the lower placing box, and 4 connecting rods and the upper forging plate are arranged.

Preferably, the adjusting screw rod forms a rotating mechanism with the attachment plate through a bearing installed on the attachment plate, and the adjusting screw rod is connected with the upper forging plate through a threaded hole formed in the upper forging plate.

Preferably, the number of the movable sliding blocks is 2 about the center symmetry of the attaching plate, and the movable sliding blocks are in sliding connection with the upper forging plate through grooves formed in the upper forging plate.

Preferably, the placing cavity is provided with 3 placing cavities at equal distances below the placing box, and the placing cavity arranged on the placing box is smooth.

Preferably, the bearing rod is T-shaped, and the bearing rod is in sliding connection with the fixing sleeve through a hole formed in the fixing sleeve.

Compared with the prior art, the beneficial effects of the utility model are that: according to the high-service-life titanium alloy fastener forging die, the mode of forging three screws simultaneously is adopted, so that the working efficiency can be effectively improved, the position of the attaching plate is changed, so that the fasteners can be forged and pressed to different degrees, the application range is wider, and the device can be effectively protected through the damping device, so that the service life of the device can be effectively prolonged;

1. the adjusting screw rod is rotated to drive the attaching plate to move up and down under the action of the movable sliding block, so that the fasteners are forged and pressed to different degrees, the application range of the fasteners is wider, and the forging and pressing effect is better;

2. thereby fixed sleeve, bolster and damping spring forge the board at the in-process of forging and pressing and carry out the shock attenuation on going up, carry out supplementary protection through the protection pad to at last forge the impact force of the downward work in-process ability effectual reduction of board to placing the case down, the extension fixture's of being convenient for life.

Drawings

FIG. 1 is a schematic view of the cross-sectional structure of the lower box of the present invention;

FIG. 2 is a schematic side view of the upper forging plate of the present invention;

FIG. 3 is a schematic top view of the protection pad of the present invention;

FIG. 4 is a schematic view of the sectional structure of the cylinder in front view;

fig. 5 is a schematic view of the sectional structure of the movable slider in a bottom view.

In the figure: 1. a lower placing box; 2. a support base; 3. a cylinder; 4. a connecting rod; 5. upper forging the plate; 6. adjusting the screw rod; 7. attaching a plate; 8. moving the slide block; 9. a protection pad; 10. fixing the sleeve; 11. a placement chamber; 12. a heating device; 13. a bearing rod; 14. a shock absorbing spring.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

Referring to fig. 1-5, the present invention provides a technical solution: a forging die for a high-service-life titanium alloy fastener comprises a lower placing box 1, a supporting base 2, a cylinder 3, a connecting rod 4, an upper forging plate 5, an adjusting screw 6, an attaching plate 7, a movable slider 8, a protection pad 9, a fixing sleeve 10, a placing cavity 11, a heating device 12, a bearing rod 13 and a damping spring 14, wherein the supporting base 2 is installed at the bottom end of the lower placing box 1, the cylinder 3 is installed on the lower placing box 1, the connecting rod 4 is installed on the cylinder 3, the bottom end of the upper forging plate 5 is connected with the upper end of the connecting rod 4, the upper forging plate 5 is connected with the adjusting screw 6, the adjusting screw 6 is connected with the top end of the attaching plate 7, the attaching plate 7 and the upper forging plate 5 are attached to each other, the movable slider 8 is installed on the attaching plate 7, the protection pad 9 is installed on the upper forging, meanwhile, the protection pad 9 is installed at the upper end of the lower placing box 1, the fixing sleeve 10 is installed on the lower placing box 1, the placing cavity 11 is formed in the lower placing box 1, the heating device 12 is installed on the lower placing box 1, the bearing rod 13 is attached to the fixing sleeve 10, the damping spring 14 is installed on the fixing sleeve 10, the damping spring 14 is installed at the bottom end of the bearing rod 13, and the bearing rod 13 is installed at the lower end of the upper forging plate 5.

In this example, the connecting rods 4 are symmetrically distributed about the center of the lower placing box 1, and 4 connecting rods 4 and 4 upper forging plates 5 are arranged, so that the positions of the upper forging plates 5 can be changed conveniently through the connecting rods 4, and forging and pressing are performed;

the adjusting screw 6 and the attaching plate 7 form a rotating mechanism through a bearing arranged on the attaching plate 7, and the adjusting screw 6 is connected with the upper forging plate 5 through a threaded hole formed in the upper forging plate 5, so that the adjusting screw 6 can freely rotate and can move up and down while the adjusting screw 6 rotates;

2 movable sliding blocks 8 are symmetrically arranged about the center of the attaching plate 7, the movable sliding blocks 8 are in sliding connection with the upper forging plate 5 through grooves formed in the upper forging plate 5, the attaching plate 7 is conveniently supported through the movable sliding blocks 8 through the structure, the movable sliding blocks 8 are in sliding connection with the upper forging plate 5 through grooves formed in the upper forging plate 5, and the movable sliding blocks 8 can freely move on the upper forging plate 5;

3 placing cavities 11 are arranged on the lower placing box 1 at equal distances, and the placing cavities 11 arranged on the lower placing box 1 are smooth, so that a plurality of fasteners can be conveniently processed at the same time through the structure;

the adapting rod 13 is arranged in a T shape, and the adapting rod 13 forms a sliding connection with the fixing sleeve 10 through a hole formed in the fixing sleeve 10, so that the adapting rod 13 can move up and down on the fixing sleeve 10 conveniently through the structure.

The working principle is as follows: when a fastener needs to be forged and pressed, the connecting rod 4 in fig. 4 starts to work, the connecting rod 4 starts to drive the upper forging plate 5 to move upwards, at this time, the upper forging plate 5 in fig. 1 drives the carrying rod 13 to move upwards, the damping spring 14 mounted at the lower end of the carrying rod 13 is stretched and deformed, as the upper forging plate 5 moves upwards, a fastening screw can be placed in the placing cavity 11, the heating device 12 is connected with an external power supply, the heating device 12 starts to work, namely, the heating device 12 starts to heat the fastener, the adjusting screw 6 is rotated according to the forging degree, as the adjusting screw 6 forms a rotating mechanism with the attaching plate 7 through a bearing mounted on the attaching plate 7, the adjusting screw 6 starts to rotate, and as the adjusting screw 6 is connected with the upper forging plate 5 through a threaded hole formed on the upper forging plate 5, as the adjusting screw 6 rotates, the attaching plate 7 starts to move up and down under the action of the moving slide block 8, after the attaching plate moves to a proper position, the rotation of the adjusting screw rod 6 is stopped, then the air cylinder 3 and the connecting rod 4 start to work, namely the connecting rod 4 starts to drive the upper forging plate 5 to move downwards, in the moving process, the bearing rod 13 also starts to move downwards, along with the compression deformation of the damping spring 14, the damping spring 14 starts to push the bearing rod 13 upwards, namely, the upper forging plate 5 is pushed upwards, so that the upper forging plate 5 is damped in the downward moving process of the upper forging plate 5, along with the downward movement of the upper forging plate 5, the attaching plate 7 arranged on the upper forging plate 5 starts to forge and press a fastener at the lower end of the attaching plate.

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

Claims (6)

1. The utility model provides a high life titanium alloy fastener forges mould, includes down places case (1), goes up and forges board (5), removes slider (8), fixed sleeve (10) and bolster (13), its characterized in that: the lower placing box (1) is provided with a supporting base (2) at the bottom end, the lower placing box (1) is provided with a cylinder (3) and a connecting rod (4) at the cylinder (3), the bottom end of an upper forging plate (5) is connected with the upper end of the connecting rod (4), the upper forging plate (5) is connected with an adjusting screw (6), the adjusting screw (6) is connected with the top end of an attaching plate (7), the attaching plate (7) is attached with the upper forging plate (5), a movable slider (8) is attached with the upper forging plate (5), the movable slider (8) is mounted on the attaching plate (7), a protective pad (9) is mounted on the upper forging plate (5), the protective pad (9) is mounted at the upper end of the lower placing box (1), a fixed sleeve (10) is mounted on the lower placing box (1), and a placing cavity (11) is formed in the lower placing box (1), and a heating device (12) is arranged on the lower placing box (1), the bearing rod (13) is attached to the fixing sleeve (10), the fixing sleeve (10) is provided with a damping spring (14), the damping spring (14) is arranged at the bottom end of the bearing rod (13), and the bearing rod (13) is arranged at the lower end of the upper forging plate (5).

2. The forging die for the long-life titanium alloy fastener according to claim 1, wherein: the connecting rods (4) are symmetrically distributed about the center of the lower placing box (1), and 4 connecting rods (4) and the upper forging plate (5) are arranged.

3. The forging die for the long-life titanium alloy fastener according to claim 1, wherein: adjusting screw (6) constitute slewing mechanism through the bearing of installation on binding plate (7) and binding plate (7), and adjusting screw (6) are connected with last forging board (5) through the screw hole of seting up on last forging board (5).

4. The forging die for the long-life titanium alloy fastener according to claim 1, wherein: the number of the movable sliding blocks (8) is 2 about the center symmetry of the attaching plate (7), and the movable sliding blocks (8) are in sliding connection with the upper forging plate (5) through grooves formed in the upper forging plate (5).

5. The forging die for the long-life titanium alloy fastener according to claim 1, wherein: place chamber (11) and place case (1) equidistance under and seted up 3, and place chamber (11) of placing that set up on case (1) under and set up to smooth.

6. The forging die for the long-life titanium alloy fastener according to claim 1, wherein: the bearing rod (13) is T-shaped, and the bearing rod (13) is in sliding connection with the fixing sleeve (10) through a hole formed in the fixing sleeve (10).

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