CN220613108U - Machine tool die with positioning and mounting structure - Google Patents

Abstract

The utility model discloses a die for a machine tool with a positioning and mounting structure, which comprises a base, wherein mounting grooves are formed in two sides of the top end inside the base, a machine tool die main body is mounted on the top end of the base, and a die cavity is formed in the machine tool die main body. According to the utility model, the machine tool die main body and the base can be initially connected under the action of the mounting block and the mounting groove, then the electric push rod is started to drive the movable plate to move inwards, so that the gear and the second rack are driven to be connected in a meshed manner, and under the action of the meshed connection of the gear and the second rack and the synchronous meshing of the gear and the first toothed plate, the movable block drives the clamping plate and the clamping seat to move inwards, so that the machine tool die main body is clamped and fixed, the positioning effect of the machine tool die main body is improved, and the fixed effect of the machine tool die main body is improved through the limiting and locking effect after connection under the action of the slot and the insert block in the moving process of the clamping plate and the clamping seat.

Description

Machine tool die with positioning and mounting structure

Technical Field

The utility model relates to the technical field of mechanical die machine tools, in particular to a die for a machine tool with a positioning and mounting structure.

Background

A machine tool is a machine for manufacturing machine parts, and many methods for machining machine parts in modern machine manufacturing are available: besides cutting processing, there are casting, forging, welding, stamping, extruding and the like, so that the method generally needs to carry out final processing on parts with higher precision requirements and finer surface roughness requirements by a cutting method on a machine tool;

the machine tool die is common machine tool machining equipment, in the existing die machining, due to the fact that the die is different in size, the die is inconvenient to position when being placed on a machine tool for machining, so that the phenomenon that the die inclines due to shaking is easy to occur in the machining process, the practical effect of the die is affected, machining failure is caused, the die is scrapped, the use cost is increased, the effect of adjusting and positioning cannot be achieved according to the dies with different sizes, the working efficiency of the die is reduced, and therefore the machine tool die with the positioning and mounting structure is designed to solve the problem.

Disclosure of Invention

The utility model aims to provide a die for a machine tool with a positioning and mounting structure, which solves the problem that the die cannot be positioned and adjusted according to different sizes in the prior art.

In order to achieve the above purpose, the present utility model provides the following technical solutions: the utility model provides a mould for lathe with location mounting structure, includes the base, the both sides on the inside top of base all are provided with the mounting groove, the lathe mould main part is installed on the top of base, and the inside of lathe mould main part is provided with the die cavity, the installation piece is evenly installed to the bottom of lathe mould main part, and installation piece and mounting groove are connected, the both sides of lathe mould main part evenly are provided with the slot, the grip block is all installed to the both sides on base top, and the inboard of grip block all installs splint, the inboard of splint evenly installs the inserted block, slot and inserted block are connected, the buffer rod is evenly installed in the outside of splint, the inside of grip block evenly is provided with the buffer tank, and the inside of buffer tank all installs buffer spring, buffer spring all is connected with the buffer rod, the inside of base is provided with the holding tank, and one side on holding tank top installs the movable block, the bottom of movable block installs first pinion rack, the opposite side of holding tank inside installs the fly leaf, and the top of fly leaf has the second rack, the inside mounting pinion rack and the inside of first pinion rack and the inside is connected with the first pinion rack, the inside of movable connection with the first pinion rack, the inside is provided with the inside of movable connection with the push rod, the inside of a movable connection with the inside of a movable support.

When the die for the machine tool with the positioning and mounting structure is used, the clamping plate and the clamping seat are driven to move inwards through the moving block to clamp and fix the machine tool die main body, through the limiting and locking effect after the clamping plate and the clamping seat move in the process under the action of the inserting groove and the inserting block, the fixing effect on the machine tool die main body is improved, the buffer rod drives the buffer spring to extrude inwards to form a certain buffer space through the buffer spring when the machine tool die main body is attached to the clamping plate, so that the damage to the machine tool die main body caused by hard clamping is avoided, the protection effect in the clamping process is improved, meanwhile, the clamping seat is attached to the clamping plate completely after the clamping plate, the phenomenon of inclination caused by shaking is avoided, the positioning effect is influenced, the supporting plate and the ejector rod move upwards, so that the finished product in the machine tool die main body is ejected out, and the demolding operation is completed.

Preferably, the internally mounted in movable groove has the third rack, the worm is installed to the inside bottom in movable groove, and the internally mounted in movable groove in worm top has the worm wheel, the motor is installed to the inside bottom in movable groove, the backup pad is installed on the top of third rack, and the ejector pin is all installed on the both sides on backup pad top.

Preferably, guide blocks are arranged on two sides of the movable groove, guide grooves are uniformly arranged on the outer side of the supporting plate, and the guide grooves are connected with the guide blocks.

Preferably, the guide grooves are symmetrically arranged about the central axis of the support plate, and the width of each guide groove is matched with that of each guide block.

Preferably, the slots and the plug blocks are provided with two groups, and each group is provided with four groups.

Preferably, the size of the installation blocks is matched with the size of the installation groove, and the installation blocks are symmetrically arranged relative to the central axis of the machine tool die main body.

Compared with the prior art, the utility model has the beneficial effects that: the die with the positioning and mounting structure for the machine tool not only realizes the function of positioning and mounting conveniently according to dies with different specifications and sizes, but also realizes the functions of facilitating demoulding and improving the buffering property of the die.

The machine tool die main body is initially connected with the base, and then the electric push rod drives the movable plate to move inwards, so that the gear and the second rack are driven to be meshed and connected, under the action of the meshing connection of the gear and the second rack and the synchronous meshing action of the gear and the first toothed plate, the movable block drives the clamping plate and the clamping seat to move inwards so as to clamp and fix the machine tool die main body, the positioning effect is improved, the limiting locking effect after connection is achieved under the action of the inserting grooves and the inserting blocks in the moving process of the clamping plate and the clamping seat, the fixing effect on the machine tool die main body is improved, the buffer rod drives the buffer spring to squeeze inwards through the buffer spring when the machine tool die main body is attached to the clamping plate, a certain buffer space is formed, so that damage to the machine tool die main body is avoided, the protection effect in the clamping process is improved, meanwhile, the clamping seat is completely attached to the clamping plate after the clamping plate is closed, the phenomenon of inclination caused by shaking is avoided, the positioning and clamping can be carried out according to dies with different sizes under the operation, the protection effect on the machine tool die main body is improved, and the positioning stability of the machine tool die main body is ensured when the clamping is carried out;

through when need carrying out the drawing of patterns to the lathe mould main part, drive worm inwards through starter motor to in order to drive the upward movement of third rack, thereby drive backup pad and ejector pin upward movement, in order to push out the finished product in the lathe mould main part, accomplish the drawing of patterns operation, improve its work efficiency and convenience, reduce manual operation's time and labour.

Drawings

In order to more clearly illustrate the embodiments of the present utility model or the technical solutions in the prior art, the drawings that are required in the embodiments or the description of the prior art will be briefly described, and it is obvious that the drawings in the following description are some embodiments of the present utility model, and other drawings may be obtained according to these drawings without inventive effort for a person skilled in the art.

FIG. 1 is a schematic cross-sectional elevation view of the present utility model;

FIG. 2 is a schematic elevational view of the present utility model;

FIG. 3 is a schematic view of the internal structure of the splint according to the present utility model;

FIG. 4 is a schematic view of a three-dimensional structure of a splint according to the present utility model;

fig. 5 is a schematic bottom view of the machine tool die body according to the present utility model.

Reference numerals in the drawings illustrate: 1. a mold cavity; 2. a machine tool die body; 3. a clamping plate; 4. a clamping seat; 5. a mounting block; 6. a mounting groove; 7. a base; 8. a moving block; 9. a receiving groove; 10. a first toothed plate; 11. a guide groove; 12. a gear; 13. a movable plate; 14. a second rack; 15. a movable groove; 16. a third rack; 17. a worm wheel; 18. a worm; 19. a motor; 20. an electric push rod; 21. a slot; 22. inserting blocks; 23. a buffer rod; 24. a buffer tank; 25. a buffer spring; 26. a guide block; 27. a support plate; 28. and (5) a push rod.

Detailed Description

For the purpose of making the objects, technical solutions and advantages of the embodiments of the present utility model more apparent, the technical solutions of the embodiments of the present utility model will be clearly and completely described below with reference to the accompanying drawings in the embodiments of the present utility model, and it is apparent that the described embodiments are some embodiments of the present utility model, but not all embodiments of the present utility model. All other embodiments, which can be made by one of ordinary skill in the art without inventive faculty, are intended to be within the scope of the present utility model, based on the embodiments of the present utility model.

Referring to fig. 1-5, an embodiment of the present utility model is provided: the utility model provides a lathe is with mould with location mounting structure, includes base 7, and the both sides on the inside top of base 7 all are provided with mounting groove 6, and lathe mould main part 2 is installed on the top of base 7, and the inside of lathe mould main part 2 is provided with die cavity 1, and mounting block 5 is evenly installed to the bottom of lathe mould main part 2, and mounting block 5 and mounting groove 6 are connected;

the size of the mounting blocks 5 is matched with that of the mounting grooves 6, and the mounting blocks 5 are symmetrically arranged relative to the central axis of the machine tool die main body 2;

specifically, as shown in fig. 1, in use, the mounting groove 6 and the mounting block 5 are provided, so that the machine tool die main body 2 and the base 7 can be conveniently mounted or dismounted;

slots 21 are uniformly formed in two sides of the machine tool die main body 2, clamping seats 4 are arranged on two sides of the top end of the base 7, clamping plates 3 are arranged on the inner sides of the clamping seats 4, inserting blocks 22 are uniformly arranged on the inner sides of the clamping plates 3, and the slots 21 are connected with the inserting blocks 22;

two groups of slots 21 and plug blocks 22 are arranged, and each group is provided with four slots;

specifically, as shown in fig. 1 and 3, when in use, the clamping plate 3 and the machine tool die main body 2 can be connected preliminarily by arranging the slot 21 and the insert block 22;

buffer rods 23 are uniformly arranged on the outer side of the clamping plate 3, buffer grooves 24 are uniformly arranged in the clamping seat 4, buffer springs 25 are arranged in the buffer grooves 24, the buffer springs 25 are connected with the buffer rods 23, an accommodating groove 9 is formed in the base 7, a movable block 8 is arranged on one side of the top end of the accommodating groove 9, a first toothed plate 10 is arranged at the bottom end of the movable block 8, a movable plate 13 is arranged on the other side of the inner side of the accommodating groove 9, a second rack 14 is arranged at the top end of the movable plate 13, a gear 12 is arranged in the accommodating groove 9, the gear 12 is meshed with the first toothed plate 10 and the second rack 14, the movable plate 13 and the top end of the movable block 8 are connected with the bottom end of the clamping seat 4, an electric push rod 20 is arranged on one side of the inner side of the accommodating groove 9, the electric push rod 20 is connected with the movable plate 13, and a movable groove 15 is formed in the inner side of the base 7;

a third rack 16 is arranged in the movable groove 15, a worm 18 is arranged at the bottom end in the movable groove 15, a worm wheel 17 is arranged in the movable groove 15 above the worm 18, a motor 19 is arranged at the bottom end in the movable groove 15, a supporting plate 27 is arranged at the top end of the third rack 16, and ejector rods 28 are arranged on two sides of the top end of the supporting plate 27;

specifically, as shown in fig. 1, during use, the worm wheel 17, the worm 18, the motor 19, the support plate 27 and the ejector rod 28 are arranged so as to eject a finished product in the machine tool die main body 2, and demoulding operation is completed;

guide blocks 26 are arranged on two sides of the movable groove 15, guide grooves 11 are uniformly arranged on the outer sides of the support plates 27, the guide grooves 11 are connected with the guide blocks 26, the width of each guide groove 11 is matched with the width of each guide block 26, and the guide grooves 11 are symmetrically arranged relative to the central axis of the support plates 27;

specifically, as shown in fig. 1, when in use, the guide groove 11 and the guide block 26 are arranged, so that the support plate 27 during movement can be guided and limited;

working principle: when the clamp is used, firstly, the machine tool die main body 2 and the base 7 can be initially connected under the action of the mounting block 5 and the mounting groove 6, then the electric push rod 20 is started to drive the movable plate 13 to move inwards, so that the gear 12 and the second rack 14 are driven to be in meshed connection, the clamp plate 3 and the clamping seat 4 are driven to move inwards by the movable block 8 under the meshed connection of the gear 12 and the second rack 14 and the synchronous meshing action of the gear 12 and the first rack 10 so as to clamp and fix the machine tool die main body 2, the slot 21 and the insert block 22 play a role of limiting and locking after connection in the moving process of the clamp plate 3 and the clamping seat 4, the buffer rod 23 drives the buffer spring 25 to squeeze inwards through the buffer spring 25 when the machine tool die main body 2 and the clamp plate 3 are jointed, a certain buffer space can be formed, so that the damage to the machine tool die main body 2 caused by hard clamping is avoided, and meanwhile, the clamping seat 4 is completely jointed with the clamp plate 3 after being close to the clamp plate 3, the phenomenon of tilting caused is avoided, the positioning effect is influenced, and meanwhile, the protection effect on the machine tool die main body 2 during clamping can be improved;

secondly, when the machine tool die main body 2 needs to be demolded, the starting motor 19 drives the worm 18 to rotate inwards so as to drive the third rack 16 to move upwards, and accordingly the supporting plate 27 and the ejector rod 28 are driven to move upwards so as to eject a finished product in the machine tool die main body 2, and the demolding operation is completed.

In the description of the present utility model, it should be noted that, unless explicitly specified and limited otherwise, the terms "mounted," "connected," and "connected" are to be construed broadly, and may be either fixedly connected, detachably connected, or integrally connected, for example; can be mechanically or electrically connected; can be directly connected or indirectly connected through an intermediate medium, and can be communication between two elements. The specific meaning of the above terms in the present utility model will be understood in specific cases by those of ordinary skill in the art.

The apparatus embodiments described above are merely illustrative, wherein the elements illustrated as separate elements may or may not be physically separate, and the elements shown as elements may or may not be physical elements, may be located in one place, or may be distributed over a plurality of network elements. Some or all of the modules may be selected according to actual needs to achieve the purpose of the solution of this embodiment. Those of ordinary skill in the art will understand and implement the present utility model without undue burden.

Finally, it should be noted that: the above embodiments are only for illustrating the technical solution of the present utility model, and are not limiting; although the utility model has been described in detail with reference to the foregoing embodiments, it will be understood by those of ordinary skill in the art that: the technical scheme described in the foregoing embodiments can be modified or some technical features thereof can be replaced by equivalents; such modifications and substitutions do not depart from the spirit and scope of the technical solutions of the embodiments of the present utility model.

Claims (6)

1. The utility model provides a lathe is with mould with location mounting structure, includes base (7), its characterized in that: the utility model discloses a tooth-holding device, including base (7), buffer bar (23), buffer bar (25), buffer bar (23) are all installed on the both sides on base (7), clamping seat (4) are all installed on the both sides on base (7), and clamping seat (4) inboard all installs splint (3), inserted block (22) are evenly installed on the inboard of splint (3), slot (21) and inserted block (22) are connected, buffer bar (23) are evenly installed in the outside of splint (3), buffer bar (24) are evenly installed in the inside of clamping seat (4), and buffer bar (25) are all installed to the inside of buffer bar (24), buffer bar (25) are all connected with buffer bar (23), base (7) are installed on the both sides on top, one side of holding plate (9) is installed to the inside of splint (3), one side of holding plate (8) is installed to the holding plate (8), the movable plate (13) is installed to the opposite side of holding tank (9) inside, and second rack (14) are installed on the top of movable plate (13), the internally mounted of holding tank (9) has gear (12), and gear (12) are connected with first pinion rack (10) and second rack (14) meshing, the top of movable plate (13) and movable block (8) is all connected with the bottom of grip slipper (4), electric putter (20) are installed to one side of holding tank (9) inside, and electric putter (20) are connected with movable plate (13), the inside of base (7) is provided with movable groove (15).

2. A die for a machine tool having a positioning and mounting structure according to claim 1, wherein: the internally mounted of movable groove (15) has third rack (16), worm (18) are installed to the inside bottom of movable groove (15), and internally mounted of movable groove (15) of worm (18) top has worm wheel (17), motor (19) are installed to the inside bottom of movable groove (15), backup pad (27) are installed on the top of third rack (16), and ejector pin (28) are all installed on both sides on backup pad (27) top.

3. A die for a machine tool having a positioning and mounting structure according to claim 2, wherein: guide blocks (26) are arranged on two sides of the movable groove (15), guide grooves (11) are uniformly arranged on the outer sides of the supporting plates (27), and the guide grooves (11) are connected with the guide blocks (26).

4. A die for a machine tool having a positioning and mounting structure according to claim 3, wherein: the width of the guide groove (11) is matched with the width of the guide block (26), and the guide groove (11) is symmetrically arranged relative to the central axis of the support plate (27).

5. A die for a machine tool having a positioning and mounting structure according to claim 1, wherein: the slots (21) and the plug blocks (22) are respectively provided with two groups, and each group is respectively provided with four groups.

6. A die for a machine tool having a positioning and mounting structure according to claim 1, wherein: the size of the installation blocks (5) is matched with that of the installation grooves (6), and the installation blocks (5) are symmetrically arranged relative to the central axis of the machine tool die main body (2).