CN216540692U - Adjustable die for forging and pressing sliding block - Google Patents

Abstract

The utility model provides an adjustable die for forging and pressing a sliding block, which not only has a good effect of fixing a forging and pressing die, but also is convenient to disassemble and assemble. It includes the workstation, be equipped with the mount pad on the workstation, the inside first screw rod of connecting that is equipped with to rotate of mount pad, first screw rod both ends are provided with opposite screw thread, it is equipped with in opposite directions to run through first screw rod, threaded connection's first installation piece, press from both sides between two first installation pieces and be equipped with down the forging and pressing module, the top of workstation is equipped with the support, there is the clamping case at the top of running through the support through drive shaft connection, forging and pressing power unit is connected at the top of drive shaft, clamping incasement portion is equipped with the second screw rod of rotating the connection, the both ends of second screw rod are equipped with opposite screw thread, it is equipped with in opposite directions to run through the second screw rod, threaded connection's second installation piece, two second installation piece lower extremes stretch out and can dismantle the forging and pressing with last forging and pressing module from the bottom of clamping case and be connected through locking mechanism.

Description

Adjustable die for forging and pressing sliding block

Technical Field

The utility model relates to the technical field of sliding block forging and pressing dies, in particular to an adjustable die for sliding block forging and pressing.

Background

As shown in fig. 1, for the sliding block with linear guide matched with, it needs to use corresponding forging mould to assist outside forging power and accomplish in manufacturing process, because sliding block model specification is various, therefore in manufacturing process, need frequently change different forging moulds, because current forging mould adopts setting elements such as bolt to fix mostly, need frequently rotating the bolt during dismouting, easily lead to the emergence smooth silk or do not revolve and target in place etc. unusually, influence fixed effect, the speed of dismouting is slower simultaneously, influence the work efficiency of forging and pressing.

SUMMERY OF THE UTILITY MODEL

The utility model provides an adjustable die for forging and pressing a sliding block, which aims to solve the problems that the prior forging and pressing die is fixed by bolts, the sliding wire or the non-rotation is easy to occur during the dismounting, the dismounting speed is low, and the fixing effect and the working efficiency are influenced.

The technical scheme is as follows: the utility model provides an adjustable mould is used in slider forging and pressing, its includes the workstation, its characterized in that: be equipped with the mount pad on the workstation, the inside first screw rod of connecting that is equipped with of mount pad rotates, first screw rod both ends are provided with opposite screw thread, run through first screw rod is equipped with in opposite directions, threaded connection's first installation piece, two press from both sides between the first installation piece and be equipped with down the forging and pressing module, the top of workstation is equipped with the support, and the top that runs through the support has the clamping case through drive shaft connection, forging and pressing power unit is connected at the top of drive shaft, clamping incasement portion is equipped with the second screw rod of rotation connection, the both ends of second screw rod are equipped with opposite screw thread, run through the second screw rod is equipped with in opposite directions, threaded connection's second installation piece, two second installation piece lower extreme is followed the bottom of clamping case is stretched out and can be dismantled with last forging and pressing module through locking mechanism and be connected.

It is further characterized in that: the locking mechanism comprises positioning grooves arranged at two ends of the upper forging module, positioning blocks are connected inside the positioning grooves through springs, L-shaped locking blocks are connected outside the positioning blocks, outward locking protrusions are arranged at one ends of the tops of the locking blocks, locking grooves matched with the tops of the locking blocks are formed in the lower ends of the second mounting blocks, jacking grooves are formed in the other ends of the tops of the locking blocks, and jacking blocks are connected inside the jacking grooves through springs;

the top of the positioning block is also connected with a supporting block, and a supporting groove matched with the supporting block is formed in the side end of the second mounting block;

the top of the first mounting block is L-shaped, a pressing groove is formed in the side wall of the first mounting block, a pressing block is connected to the inside of the pressing groove through a spring, and a pressing rack is arranged on the outer side face of the pressing block.

After having adopted above-mentioned structure, through adjusting first screw rod, then can adjust the position of first installation piece for compress tightly down the forging and pressing module, rethread adjustment second screw rod then can adjust the position of second installation piece, rethread locking mechanical system presss from both sides tightly the upper forging and pressing module, thereby realizes the forging and pressing through outside forging and pressing power, not only adjusts simply conveniently, and the dismouting of being convenient for simultaneously has improved work efficiency.

Drawings

FIG. 1 is a schematic structural diagram of a slider;

FIG. 2 is a schematic view of the overall structure of the present invention;

FIG. 3 is an enlarged view of the structure of FIG. 2;

FIG. 4 is an enlarged view of the structure of FIG. 2 at B in accordance with the present invention;

in the figure: 1. a work table; 2. a mounting base; 21. a first screw; 22. a first power motor; 23. a first mounting block; 231. a compaction groove; 232. a compression block; 3. a lower forging module; 4. a support; 5. a drive shaft; 6. clamping the box; 61. a second screw; 62. a second power motor; 63. a second mounting block; 631. a locking groove; 632. a support groove; 7. an upper forging module; 71. positioning a groove; 72. positioning blocks; 73. a locking block; 74. and (7) a supporting block.

Detailed Description

As shown in fig. 2 to 4, an adjustable die for forging and pressing a slider comprises a workbench 1, wherein a mounting seat 2 is arranged on the workbench 1, a first screw 21 connected in a rotating manner is arranged inside the mounting seat 2, a first power motor 22 in power connection with the first screw 21 is arranged outside the mounting seat 2, opposite threads are arranged at two ends of the first screw 21, two opposite first mounting blocks 23 connected in a threaded manner are arranged through the first screw 21, the lower forging and pressing module 3 is arranged between the two first mounting blocks 23, and the first power motor 22 drives the two first mounting blocks 23 to move in opposite directions so as to clamp and fix the lower forging and pressing module 3. The top of workstation 1 is equipped with support 4, the lower extreme of drive shaft 5 runs through the top of support 4 and is connected with clamping case 6, forging and pressing power unit is connected to the upper end of drive shaft 5, this forging and pressing power unit can be power units such as drop cylinder, clamping case 6 is inside to be equipped with the second screw rod 61 of rotation connection, the outside of clamping case 6 is equipped with the second motor power 62 of being connected with second screw rod 61 power, the both ends of second screw rod 61 are equipped with opposite screw thread, it is equipped with two opposite, threaded connection's second installation piece 63 to run through second screw rod 61, the lower extreme of two second installation pieces 63 stretches out and can dismantle with last forging and pressing module 7 through locking mechanism from the bottom of clamping case 6 and be connected. During the change, respectively through adjusting first motor power 22, second motor power 62 to can adjust the relative clamping position of first installation piece 23, second installation piece 63, thereby easy to assemble the last forging and pressing module 7 of different models and forging and pressing module 3 down, go up forging and pressing module 3 and second installation piece 63 and pass through locking mechanism and be connected, then during the dismouting, only can accomplish the dismouting through adjusting locking mechanism, the dismouting is convenient, and is fixed effectual simultaneously.

Specifically, locking mechanism is including locating the constant head tank 71 at last forging and pressing module 7 both ends, there is the locating piece 72 constant head tank 71 is inside through spring coupling, the external connection of locating piece 72 has "L" shape latch segment 73, the top one end of latch segment 73 is equipped with outside locking protrusion 731, the lower extreme of second installation piece 63 is equipped with the top matched with locking groove 631 with latch segment 73, the other end at the top of latch segment 73 is equipped with the tight groove 732 in top, there is the tight piece in top through spring coupling in the tight groove 732 in top. The during operation, the latch segment 73 pops out outwards under the effect of spring, the protruding 731 locking groove 631 with the second installation piece 63 lower extreme of locking segment 73 top locks, it is ejecting to the outside under the effect of spring to push up the tight piece simultaneously, make to push up tight piece and locking groove 631 further locking, thereby make and go up forging and pressing module 7 and the fixed locking of second installation piece 63, press latch segment 73, then can relieve the locking of latch segment 73 and locking groove 631, thereby will go up forging and pressing module 7 and take out the change, not only the dismouting is convenient, it is fixed effectual to lock when fixed simultaneously.

Furthermore, the top of the positioning block 72 is further connected with a supporting block 74, a supporting groove 632 matched with the supporting block 74 is formed at the side end of the second mounting block 63, and the fixing effect of the upper forging module 7 and the second mounting block 63 can be further ensured through the matching of the supporting block 74 and the supporting groove 632.

Further, the top of first installation piece 23 is L shape, conveniently places down forging and pressing module 3, is equipped with on the lateral wall of first installation piece 23 and compresses tightly groove 231, and the inside that compresses tightly groove 231 has compact heap 232 through spring coupling, is equipped with on the lateral surface of compact heap 232 and compresses tightly the rack. Through compact heap 232 and the setting that compresses tightly groove 231 to can press from both sides tightly fixedly with forging and pressing module 3 down, simultaneously through the setting that compresses tightly the rack, then increased the frictional force that compresses tightly, make to compress tightly the effect better, in order to prevent forging and pressing module 3 under the fish tail, then with all be equipped with the elastic rubber layer on the forging and pressing module 3 contact surface down.

The above description is only for the preferred embodiment of the present invention, but the scope of the present invention is not limited thereto, and any changes or substitutions that can be easily conceived by those skilled in the art within the technical scope of the present invention are included in the scope of the present invention. Therefore, the protection scope of the present invention shall be subject to the protection scope of the claims.

Claims (4)

1. The utility model provides an adjustable mould is used in slider forging and pressing, its includes the workstation, its characterized in that: be equipped with the mount pad on the workstation, the inside first screw rod of connecting that is equipped with of mount pad rotates, first screw rod both ends are provided with opposite screw thread, run through first screw rod is equipped with in opposite directions, threaded connection's first installation piece, two press from both sides between the first installation piece and be equipped with down the forging and pressing module, the top of workstation is equipped with the support, and the top that runs through the support has the clamping case through drive shaft connection, forging and pressing power unit is connected at the top of drive shaft, clamping incasement portion is equipped with the second screw rod of rotation connection, the both ends of second screw rod are equipped with opposite screw thread, run through the second screw rod is equipped with in opposite directions, threaded connection's second installation piece, two second installation piece lower extreme is followed the bottom of clamping case is stretched out and can be dismantled with last forging and pressing module through locking mechanism and be connected.

2. The adjustable die for forging sliders as claimed in claim 1, wherein: locking mechanism is including locating the constant head tank at last forging and pressing module both ends, there is the locating piece constant head tank inside through spring coupling, the external connection of locating piece has "L" shape latch segment, the top one end of latch segment is equipped with outside locking arch, the lower extreme of second installation piece be equipped with the top matched with locking groove of latch segment, the other end at the top of latch segment is equipped with the tight groove in top, there is the tight piece in top through spring coupling in the tight inslot in top.

3. The adjustable die for forging sliders as claimed in claim 2, wherein: the top of the positioning block is also connected with a supporting block, and a supporting groove matched with the supporting block is formed in the side end of the second mounting block.

4. The adjustable die for forging sliders as claimed in claim 3, wherein: the top of the first mounting block is L-shaped, a pressing groove is formed in the side wall of the first mounting block, a pressing block is connected to the inside of the pressing groove through a spring, and a pressing rack is arranged on the outer side face of the pressing block.

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