CN215095868U - Plate frame winding combined type titanium electrode pressing block forming equipment - Google Patents

Abstract

The utility model discloses a plate frame winding combination formula titanium electrode briquetting equipment mainly includes plate frame fuselage, draw pin, winding main cylinder, return stroke jar, slider, floating frame, floating jar, workstation, base, goes up mould, bed die, lower mould, drawing of patterns cushion, material pushing cylinder, drawing of patterns push-and-pull jar, connects the material guide rail, connects the work or material rest and connects the material jar. The combined scheme of the plate frame structure and the winding hydraulic cylinder of the utility model is suitable for the small table surface and large tonnage requirements of titanium electrode briquetting equipment and is easy to realize; meanwhile, an automatic demolding and receiving device is arranged, so that the production efficiency is improved.

Description

Plate frame winding combined type titanium electrode pressing block forming equipment

Technical Field

The utility model relates to a titanium electrode briquetting equipment especially relates to a plate frame winding combination formula titanium electrode briquetting equipment.

Background

The titanium electrode pressing block has small geometric size and large pressing forming force, and the size of a working table surface of forming equipment is required to be small, and the forming tonnage is required to be large; meanwhile, the titanium electrode pressing block finished product has larger quality, and the material and the product must be conveyed and conveyed by a heavy-load automatic device. For the structural schemes of the conventional split prestressed combined frame, the prestressed winding machine body and other equipment, the integration of the small table top, the large tonnage specification contrast and the automation device means high manufacturing cost or high processing difficulty.

Disclosure of Invention

An object of the utility model is to provide a plate frame winding combination formula titanium electrode briquetting equipment can simply realize little mesa, the fuselage structural specification of big tonnage to easily integrated automation equipment.

The technical scheme of the utility model as follows:

a plate frame winding combined titanium electrode briquetting device comprises a plate frame body, a pull rod pin, a winding main cylinder, a return cylinder, a sliding block, a floating frame, a floating cylinder, a workbench, a base, an upper die, a female die, a lower die, a demolding cushion block, a material pushing cylinder, a demolding push-pull cylinder, a material receiving guide rail, a material receiving frame and a material receiving cylinder; the plate frame body is formed by stacking and splicing a plurality of steel plates, positioning holes are processed at the corresponding positions of the steel plates, the pull rod pin penetrates through the positioning holes to realize the positioning of the steel plates, and prestress is applied to the pull rod pin, so that all the steel plates are fixedly connected into the integral plate frame body through the lock nuts on the pull rod pin; the upper side and the lower side of an inner hole of the plate frame body are processing planes, the cylinder bottom of the winding main cylinder is arranged on the upper side plane, and the workbench is arranged on the lower side plane; the cylinder body of the winding main cylinder is of a prestressed wire winding structure, and the cylinder body of the return cylinder is arranged on the lower plane of the cylinder bottom of the winding main cylinder; a piston rod of the winding main cylinder and a piston rod of the return cylinder are both arranged on the upper plane of the sliding block; the cylinder body of the floating cylinder is arranged on the upper plane of the expansion blocks at the four corners of the workbench, and the piston rods of the floating cylinder are arranged on the lower plane of the expansion blocks at the four corners of the floating frame; the expansion blocks at the four corners of the workbench can be detached, and the expansion blocks and the workbench are positioned through round keys and are fixedly connected through bolts; the expansion blocks at the four corners of the floating frame can be detached, the expansion blocks and the floating frame are positioned through round keys and are fixedly connected through bolts, and the guide rails of the floating frame are arranged on the side surfaces of the expansion blocks at the four corners; the front side and the rear side of the plate frame body are provided with guide rails of a sliding block and a floating frame; the base is arranged on the lower plane of the plate frame body and is used as a foundation for supporting the whole equipment; the upper die is arranged on the lower plane of the sliding block, the female die is arranged in an inner hole of the floating frame, and the lower die is arranged on the upper plane of the workbench.

Further, the manufacturing steps of the plate frame body are as follows: 1) welding contact flitch plates at the positioning holes on the two side surfaces of each steel plate, and welding guide rail mounting flitch strips on the outer side surfaces of the foremost side and the rearmost side steel plate; 2) respectively processing two side contact flitch plates of each steel plate into a plane; 3) preliminarily positioning and stacking all the steel plates together, processing the positioning holes one by one, and penetrating a pull rod pin into each positioning hole after processing; 4) after all the positioning holes are machined, the pull rod pin is pre-tightened preliminarily, and then the plate frame body can be integrally machined on the other machining surfaces.

Furthermore, the material receiving guide rail is arranged on a die holder of the lower die and penetrates through an opening between the floating frame and the workbench; a piston rod of the material pushing cylinder is aligned with the center of the titanium electrode pressing block; a piston rod of the demoulding push-pull cylinder is connected with a demoulding cushion block, and the demoulding cushion block is arranged on the material receiving guide rail and driven by the demoulding push-pull cylinder to move back and forth; a piston rod of the receiving cylinder is connected with a receiving frame, the receiving frame is arranged on the receiving guide rail and driven by the receiving cylinder to move back and forth, and the upper plane of the receiving frame is slightly lower than the upper plane of the lower die; the material pushing cylinder, the demoulding push-pull cylinder and the material receiving cylinder are all arranged on the upper plane of the material receiving guide rail.

Further, the titanium electrode briquetting is blocked in the female die because of frictional force after the shaping, and the automatic material process of connecing is: 1) the slide block and the upper die are driven by the return cylinder to ascend, and the upper die is separated from the female die; 2) the floating frame and the female die are driven by the floating cylinder to ascend; 3) the demolding cushion block is pushed between the floating frame and the workbench by the demolding push-pull cylinder, the material receiving frame is pushed by the material receiving cylinder, and the material receiving frame is attached to the lower die; 4) the floating cylinder drives the floating frame to descend, and the lower plane of the floating frame is attached to the upper plane of the demolding cushion block; 5) the winding main cylinder drives the sliding block and the upper die to descend, and the upper die is inserted into the female die and pushes the titanium electrode pressing block downwards; 6) a fixed-height opening is formed between the floating frame and the workbench under the support of the demolding cushion block, and the titanium electrode pressing block is pushed out of the female die by the upper die and then falls on the lower die; 7) a piston rod of the material pushing cylinder extends out to push the titanium electrode pressing block from the lower die to the material receiving frame; 8) the material receiving cylinder pulls out the material receiving frame, the titanium electrode pressing block moves out of the plate frame body along with the material receiving frame, and meanwhile, other hydraulic cylinders reset.

The utility model has the advantages that: the utility model discloses a sheet frame winding combination formula fuselage structural scheme that titanium electrode briquetting equipment, easily realize little mesa large-tonnage specification, reduced manufacturing cost to the integrated requirement of unloader in the adaptation automation.

Drawings

Fig. 1 is a front view of the structure of the present invention.

Fig. 2 is a side view of the structure of the present invention.

Fig. 3 is a schematic top view of the floating frame of the present invention.

In fig. 1: 101-plate frame body, 102-pull rod pin, 103-winding main cylinder, 104-return cylinder, 105-slide block, 106-floating frame, 107-floating cylinder, 108-workbench, 109-base, 201-upper die, 202-female die, 203-lower die, 301-demoulding cushion block, 500-titanium electrode pressing block and 702-lower die holder.

In fig. 2: 101-plate frame body, 102-pull rod pin, 106-floating frame, 107-floating cylinder, 108-workbench, 109-base, 202-female die, 203-lower die, 301-demoulding cushion block, 302-material pushing cylinder, 303-demoulding push-pull cylinder, 304-material receiving guide rail, 305-material receiving frame, 306-material receiving cylinder, 500-titanium electrode pressing block, 701-pull rod pin locking nut and 702-lower die holder.

In fig. 3: 106-floating frame, 601-expanding block, 602-round pin.

Detailed Description

The present invention will be further described with reference to the accompanying drawings.

Referring to fig. 1, 2 and 3, a plate frame winding combined type titanium electrode compact forming device comprises:

the device comprises a plate frame body 101, a pull rod pin 102, a winding main cylinder 103, a return cylinder 104, a sliding block 105, a floating frame 106, a floating cylinder 107, a workbench 108, a base 109, an upper die 201, a female die 202, a lower die 203, a demolding cushion block 301, a material pushing cylinder 302, a demolding push-pull cylinder 303, a material receiving guide rail 304, a material receiving frame 305 and a material receiving cylinder 306; the plate frame body 101 is formed by stacking and splicing a plurality of steel plates, positioning holes are formed in the positions corresponding to the steel plates, the pull rod pin 102 penetrates through the positioning holes to realize the positioning of the steel plates, and prestress is applied to the pull rod pin 102, so that all the steel plates are fixedly connected into the integral plate frame body 101 through the lock nuts 701 on the pull rod pin 102; the upper side and the lower side of an inner hole of the plate frame body 101 are processing planes, the cylinder bottom of the winding main cylinder 103 is arranged on the upper side plane, and the workbench 108 is arranged on the lower side plane; the cylinder body of the winding main cylinder 103 is of a prestressed wire winding structure, and the cylinder body of the return cylinder 104 is arranged on the lower plane of the cylinder bottom of the winding main cylinder 103; the piston rod of the winding main cylinder 103 and the piston rod of the return cylinder 104 are both arranged on the upper plane of the slide block 105; the cylinder body of the floating cylinder 107 is arranged on the upper plane of the expansion block 601 at the four corners of the workbench 108, and the piston rod of the floating cylinder 107 is arranged on the lower plane of the expansion block 601 at the four corners of the floating frame 106; the expansion blocks 601 at the four corners of the workbench 108 can be detached, and the expansion blocks 601 and the workbench 108 are positioned through round keys 602 and are fixedly connected through bolts; the expansion blocks 601 at the four corners of the floating frame 106 can be detached, the expansion blocks 601 and the floating frame 106 are positioned through round keys 602 and are fixedly connected through bolts, and the guide rails of the floating frame 106 are arranged on the side surfaces of the expansion blocks 601 at the four corners; guide rails of a sliding block 105 and a floating frame 106 are arranged on the front side and the rear side of the plate frame body 101; the base 109 is arranged on the lower plane of the plate frame body 101 and is used as a foundation for supporting the whole equipment; the upper mold 201 is mounted on the lower surface of the slide 105, the female mold 202 is mounted on the inner hole of the floating frame 106, and the lower mold 203 is mounted on the upper surface of the table 108.

The manufacturing steps of the plate frame body 101 are as follows:

1) and contact flitch plates are welded at the positioning holes on the two side surfaces of each steel plate, and guide rail mounting flitch strips are welded on the outer side surfaces of the foremost side steel plate and the rearmost side steel plate.

2) The two side contact flitch plates of each steel plate are respectively processed into a plane.

3) All the steel plates are preliminarily positioned and stacked together, positioning holes are machined one by one, and the pull rod pin 102 is inserted into each positioning hole after machining is completed.

4) After all the positioning holes are machined, the pull rod pin 102 is pre-tightened, and then the plate frame body 101 can be integrally machined to form the rest machined surfaces.

Referring to fig. 2, the receiving guide rail 304 of the present invention is installed on the die holder 702 of the lower die 203, and the receiving guide rail 304 passes through the opening between the floating frame 106 and the workbench 108; the piston rod of the material pushing cylinder 302 is aligned with the center of the titanium electrode pressing block 500; a piston rod of the demoulding push-pull cylinder 303 is connected with a demoulding cushion block 301, and the demoulding cushion block 301 is arranged on the material receiving guide rail 304 and driven by the demoulding push-pull cylinder 303 to move back and forth; a piston rod of the material receiving cylinder 306 is connected with the material receiving rack 305, the material receiving rack 305 is arranged on the material receiving guide rail 304 and driven by the material receiving cylinder 306 to move back and forth, and the upper plane of the material receiving rack 305 is slightly lower than that of the lower die 203; the material pushing cylinder 302, the demoulding push-pull cylinder 303 and the material receiving cylinder 306 are all arranged on the upper plane of the material receiving guide rail 304.

Titanium electrode briquetting 500 shaping back is because of the frictional force card in bed die 202, connects the material process automatically to be:

1) the slide 105 and the upper die 201 are lifted by the return cylinder 104, and the upper die 201 is separated from the female die 202.

2) The floating frame 106 and the female mold 202 are driven by the floating cylinder 107 to ascend.

3) The demolding push-pull cylinder 303 pushes the demolding cushion block 301 into the space between the floating frame 106 and the workbench 108, meanwhile, the material receiving cylinder 306 also pushes the material receiving frame 305, and the material receiving frame 305 is attached to the lower die 203.

4) The floating cylinder 107 drives the floating frame 106 to descend, and the lower plane of the floating frame 106 is attached to the upper plane of the demolding cushion block 301.

5) The winding main cylinder 103 drives the slider 105 and the upper die 201 to descend, and the upper die 201 is inserted into the female die 202 and pushes the titanium electrode compact 500 downward.

6) The floating frame 106 forms a fixed height opening between the work table 108 and the mold release spacer 301, and the titanium electrode compact 500 is pushed out of the female mold 202 by the upper mold 201 and then dropped onto the lower mold 203.

7) The piston rod of the material pushing cylinder 302 extends out to push the titanium electrode pressing block 500 from the lower die 203 to the material receiving frame 305.

8) The material receiving frame 305 is pulled out by the material receiving cylinder 306, the titanium electrode pressing block 500 is moved out of the plate frame body 101 along with the material receiving frame 305, and meanwhile, other hydraulic cylinders are reset.

The combined scheme of the plate frame structure and the winding hydraulic cylinder of the utility model is suitable for the small table surface and large tonnage requirements of titanium electrode briquetting equipment and is easy to realize; meanwhile, an automatic demolding and receiving device is arranged, so that the production efficiency is improved.

Claims (2)

1. The utility model provides a plate frame winding combination formula titanium electrode briquetting equipment which characterized by: the device mainly comprises a plate frame body (101), a pull rod pin (102), a winding main cylinder (103), a return cylinder (104), a sliding block (105), a floating frame (106), a floating cylinder (107), a workbench (108), a base (109), an upper die (201), a female die (202), a lower die (203), a demolding cushion block (301), a material pushing cylinder (302), a demolding push-pull cylinder (303), a material receiving guide rail (304), a material receiving frame (305) and a material receiving cylinder (306); the plate frame body (101) is formed by stacking and splicing a plurality of steel plates, positioning holes are formed in the positions corresponding to the steel plates, the pull rod pin (102) penetrates through the positioning holes to realize the positioning of the steel plates, and prestress is applied to the pull rod pin (102), so that all the steel plates are fixedly connected into the integral plate frame body (101) through the lock nuts on the pull rod pin (102); the upper side and the lower side of an inner hole of the plate frame body (101) are processing planes, the cylinder bottom wound around the main cylinder (103) is arranged on the upper side plane, and the workbench (108) is arranged on the lower side plane; the cylinder body of the winding main cylinder (103) is of a prestressed steel wire winding structure, and the cylinder body of the return cylinder (104) is arranged on the lower plane of the cylinder bottom of the winding main cylinder (103); a piston rod of the winding main cylinder (103) and a piston rod of the return cylinder (104) are both arranged on the upper plane of the sliding block (105); the cylinder body of the floating cylinder (107) is arranged on the upper plane of the expansion blocks at the four corners of the workbench (108), and the piston rod of the floating cylinder (107) is arranged on the lower plane of the expansion blocks at the four corners of the floating frame (106); the expansion blocks at four corners of the workbench (108) can be detached, and the expansion blocks and the workbench (108) are positioned through round keys and are fixedly connected through bolts; the expansion blocks at the four corners of the floating frame (106) can be detached, the expansion blocks and the floating frame (106) are positioned through round keys and are fixedly connected through bolts, and the guide rails of the floating frame (106) are arranged on the side surfaces of the expansion blocks at the four corners; the front side and the rear side of the plate frame body (101) are provided with guide rails of a sliding block (105) and a floating frame (106); the base (109) is arranged on the lower plane of the plate frame body (101) and is used as a foundation for supporting the whole equipment; an upper die (201) is arranged on the lower plane of the slide block (105), a female die (202) is arranged in an inner hole of the floating frame (106), and a lower die (203) is arranged on the upper plane of the workbench (108).

2. The plate-frame-wound combined type titanium electrode compact forming equipment according to claim 1, characterized in that: the material receiving guide rail (304) is arranged on a die holder of the lower die (203), and the material receiving guide rail (304) penetrates through an opening between the floating frame (106) and the workbench (108); a piston rod of the material pushing cylinder (302) is aligned with the center of the titanium electrode pressing block; a piston rod of the demoulding push-pull cylinder (303) is connected with a demoulding cushion block (301), and the demoulding cushion block (301) is arranged on the material receiving guide rail (304) and driven by the demoulding push-pull cylinder (303) to move back and forth; a piston rod of the receiving cylinder (306) is connected with the receiving frame (305), the receiving frame (305) is arranged on the receiving guide rail (304) and driven by the receiving cylinder (306) to move back and forth, and the upper plane of the receiving frame (305) is lower than that of the lower die (203); the material pushing cylinder (302), the demoulding push-pull cylinder (303) and the material receiving cylinder (306) are arranged on the upper plane of the material receiving guide rail (304).

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