CN219521214U - In-mold tapping continuous die - Google Patents

Abstract

The utility model provides an in-mold tapping screw thread continuous die, which belongs to the technical field of hardware punching, and comprises a workbench; the lower die is fixedly connected to the upper end of the workbench, and an upper die is arranged on the upper side of the lower die; the mounting seat is fixedly connected to the upper inner wall of the upper die, the lower end of the mounting seat is fixedly connected with a transmission screw, and the lower inner wall of the lower die is fixedly connected with a tapping machine; the two groups of buffer mechanisms are arranged in the workbench to realize the function of buffering the pressure born by the workbench; and the force release mechanism is arranged in the workbench to realize the effect of releasing force on the impact force received by the workbench, so that production and use equipment and occupied space are reduced, meanwhile, production and use manpower is reduced, and the number of product turnover times in production is reduced, thereby reducing the production cost of products and improving the tapping efficiency of the die.

Description

In-mold tapping continuous die

Technical Field

The utility model belongs to the technical field of hardware stamping, and particularly relates to an in-mold tapping screw tooth continuous mold.

Background

The tapping machine is a machining device for machining internal threads, screws or tooth buckles on the hollow inner side surfaces of various workpieces with through holes or blind holes of different specifications, such as workpiece shells, equipment end surfaces, nuts, flanges and the like, and is widely applied to the field of manufacturing of hardware products.

The automatic tapping machine comprises a base, a control panel, a vibration feeding disc, a feeding channel, a reloading rotary disc and a divider, wherein the vibration feeding disc, the feeding channel, the reloading rotary disc and the divider are sequentially connected on the base, the divider is arranged below the reloading rotary disc, the tapping mechanism is arranged above the reloading rotary disc, a material clamping block connected with the reloading rotary disc is arranged on one side of the reloading rotary disc, the control panel is electrically connected with the vibration feeding disc, the reloading rotary disc, the divider, the tapping mechanism and the material clamping block, the tapping mechanism comprises a servo motor, a stand column, a cutter arranged below the stand column and a stand column fixing device connected with the stand column, and the stand column fixing device is integrally formed. The utility model provides an automatic tapping machine capable of rapidly installing a tapping mechanism, which can enable an installer to rapidly install the tapping mechanism, does not need to correct verticality, greatly improves the installation efficiency and has reliable precision.

The above-mentioned patent can let the installer install fast and attack tooth mechanism to do not need to correct the straightness that hangs down, improve installation effectiveness greatly, and the precision is reliable, but in the production of taking the spiral shell tooth on to the hardware stamping workpiece in above-mentioned patent, all accomplish punching press production earlier, then the separate tooth machine of attacking accomplishes the tooth, but production using equipment and occupation place are more, and production use is manual many simultaneously, need have more to the number of times of product turnover in the production, thereby improved the manufacturing cost of product, and reduced the efficiency of attacking the tooth to the mould.

Disclosure of Invention

The utility model aims to provide an in-mold tapping continuous die, which aims to solve the problems that in the prior art, the production of products with threads on hardware stamping parts is finished firstly, then tapping is finished by a single tapping machine, but the production and use equipment and occupied space are more, the production and use labor are more, and the number of times of product turnover in production is more, so that the production cost of the products is increased, and the tapping efficiency of the die is reduced.

In order to achieve the above purpose, the present utility model provides the following technical solutions:

an in-mold tap continuous die comprising:

a work table;

the lower die is fixedly connected to the upper end of the workbench, and an upper die is arranged on the upper side of the lower die;

the mounting seat is fixedly connected to the upper inner wall of the upper die, the lower end of the mounting seat is fixedly connected with a transmission screw, and the lower inner wall of the lower die is fixedly connected with a tapping machine;

the two groups of buffer mechanisms are arranged in the workbench to realize the function of buffering the pressure born by the workbench; and

the force release mechanism is arranged in the workbench to realize the effect of releasing force on impact force received by the workbench.

As a preferable scheme of the utility model, the inner surface of the workbench is connected with a buffer plate in a sliding manner, and the lower end of the buffer plate is fixedly connected with a plurality of universal wheels.

As a preferred embodiment of the present utility model, each set of the buffer mechanisms includes:

the two fixing plates are respectively and fixedly connected to the upper inner wall of the workbench and the upper end of the buffer plate, and the upper ends and the lower ends of the two fixing plates are fixedly connected with two fixing seats;

the connecting plates are respectively connected to the inner surfaces of the fixing seats in a rotating mode through rotating shafts, and one side ends of the connecting plates are respectively connected with two connecting seats in a rotating mode through rotating shafts;

the elastic component is arranged in the workbench and connected with the two connecting seats to realize the effect of buffering the pressure born by the two connecting seats.

As a preferred aspect of the present utility model, each set of the elastic members includes:

the sliding shell is fixedly connected to one side end of one connecting seat, and one side end of the other connecting seat is fixedly connected with a sliding rod;

the first spring is fixedly connected to one side inner wall of the sliding shell, the extruding plate is slidably connected to the circumference inner wall of the sliding shell, and one side end of the sliding rod is fixedly connected with one side end of the extruding plate.

As a preferable scheme of the utility model, the upper end of the buffer plate is fixedly connected with the base, the upper end of the base is fixedly connected with the plurality of support plates, and the upper end of the base is in threaded connection with the plurality of bolts.

As a preferred embodiment of the present utility model, the force release mechanism includes:

the sliding tube is fixedly connected to the upper end of the buffer plate, and the second spring is fixedly connected to the inner wall of the circumference of the sliding tube;

the force release plate is fixedly connected to the upper inner wall of the workbench, and the lower end of the force release plate is fixedly connected with a limiting pipe;

and the extrusion assembly is arranged in the sliding tube and connected with the second spring so as to realize the effect of extrusion buffering of the second spring.

As a preferred aspect of the present utility model, the pressing assembly includes:

the extrusion seat is fixedly connected to the upper end of the buffer plate, and the upper end of the extrusion seat is fixedly connected with an extrusion block;

the third spring is fixedly connected to the upper end of the extrusion block, and the circumferential surface of the extrusion block is in sliding connection with the circumferential inner wall of the limiting pipe.

Compared with the prior art, the utility model has the beneficial effects that:

1. in this scheme, through placing the mould in the inside of bed die, the mould is extruded downwards to the mould of placing in the simultaneous control, then carry out the altitude mixture control according to the pivoted drive of control drive screw and attack the tooth machine, accomplish the mould of processing and carry out the work of the separate tooth machine of attacking and accomplish the tooth, reduced production and use equipment and occupation place, reduced the manual work of production and use simultaneously, reduced the number of times of product turnover in the production to reduced the manufacturing cost of product, and improved the tooth efficiency of attacking of mould.

2. In this scheme, promote the sliding tube and upwards slide when upwards sliding through the buffer board, extrude the shrink to the second spring according to fixed extrusion seat simultaneously, accomplish the effect that carries out first buffering to the impact force that receives, promote extrusion piece and slide at the circumference inner wall of spacing pipe under the effect, play and extrude the effect that makes it carry out the length shrink to fixed third spring, accomplish the effect that carries out secondary buffering to the pressure that the buffer board received.

Drawings

The accompanying drawings are included to provide a further understanding of the utility model and are incorporated in and constitute a part of this specification, illustrate the utility model and together with the embodiments of the utility model, serve to explain the utility model. In the drawings:

FIG. 1 is a perspective view of the present utility model;

FIG. 2 is a first perspective cross-sectional view of the present utility model;

FIG. 3 is an enlarged view of a portion of the utility model at A in FIG. 2;

FIG. 4 is a second perspective cross-sectional view of the present utility model;

FIG. 5 is an enlarged view of a portion of the utility model at B in FIG. 4;

fig. 6 is a third perspective cross-sectional view of the present utility model.

In the figure: 1. a work table; 2. a lower die; 3. an upper die; 4. a universal wheel; 5. a buffer plate; 6. a mounting base; 7. a drive screw; 8. tapping machine; 9. a fixing plate; 10. a fixing seat; 11. a connecting plate; 12. a connecting seat; 13. a sliding housing; 14. a slide bar; 15. an extrusion plate; 16. a first spring; 17. a base; 18. a support plate; 19. a bolt; 20. a sliding tube; 21. extruding a base; 22. a second spring; 23. extruding a block; 24. a force release plate; 25. a limiting tube; 26. and a third spring.

Detailed Description

The following description of the embodiments of the present utility model will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present utility model, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the utility model without making any inventive effort, are intended to be within the scope of the utility model.

Example 1

Referring to fig. 1-5, the present utility model provides the following technical solutions:

an in-mold tap continuous die comprising:

a work table 1;

the lower die 2 is fixedly connected to the upper end of the workbench 1, and an upper die 3 is arranged on the upper side of the lower die 2;

the mounting seat 6 is fixedly connected to the upper inner wall of the upper die 3, the lower end of the mounting seat 6 is fixedly connected with the driving screw 7, and the lower inner wall of the lower die 2 is fixedly connected with the tapping machine 8;

the two groups of buffer mechanisms are arranged in the workbench 1 to realize the function of buffering the pressure born by the workbench 1; and

the force release mechanism is arranged in the workbench 1 to realize the effect of releasing force on impact force received by the workbench 1.

In the specific embodiment of the utility model, the workbench 1 is arranged to perform the functions of installing and fixing the lower die 2, meanwhile, the upper die 3 is arranged on the upper side of the lower die 2, when the upper die 3 slides downwards, the grinding tool placed at the upper end of the lower die 2 is stamped, the mounting seat 6 is arranged to facilitate the installation of the transmission screw 7, thereby driving the transmission screw 7 to rotate, simultaneously driving the tapping machine 8 to perform height adjustment, then finishing the function of tapping the machined die, the buffer plate 5 slides upwards in the workbench 1, the distance between the two fixing plates 9 is adjusted under the action of force, then the four connecting plates 11 are subjected to angle adjustment, the lengths of the four connecting plates 11 are stretched, thereby shortening the lengths between the two connecting seats 12, and the sliding rod 14 slides on the circumferential inner wall of the sliding shell 13 under the action of force, and simultaneously, the fixed first spring 16 is extruded under the action of force according to the extruding plate 15, thereby causing the extrusion length shrinkage of the first spring 16, completing the function of tapping the buffer plate 5, reducing the production cost of the die is reduced, the production and the production cost is reduced, and the production cost is reduced by using the production equipment is reduced, and the production cost is reduced: the lower die 2, the upper die 3, the mounting seat 6, the driving screw 7 and the tapping machine 8 of which model is specifically used are selected by the related person familiar with the art, and the lower die 2, the upper die 3, the mounting seat 6, the driving screw 7 and the tapping machine 8 all belong to the prior art, and the scheme is not repeated.

Referring to fig. 1 and 2, a buffer plate 5 is slidably connected to an inner surface of the table 1, and a plurality of universal wheels 4 are fixedly connected to a lower end of the buffer plate 5.

In this embodiment: the buffer plate 5 slides in the workbench 1, and meanwhile, the buffer mechanism and the force release mechanism arranged in the workbench 1 are extruded, so that the buffer plate 5 is buffered under pressure, and the device is convenient to move according to the fixed four universal wheels 4.

Referring specifically to fig. 3, each set of buffering mechanisms includes:

the two fixing plates 9 are respectively and fixedly connected to the upper inner wall of the workbench 1 and the upper end of the buffer plate 5, and the upper end and the lower end of the two fixing plates 9 are fixedly connected with two fixing seats 10;

the connecting plates 11, the inner surface that all rotates respectively in a plurality of fixing bases 10 through the pivot to a plurality of connecting plates 11, and a side of a plurality of connecting plates 11 all rotates respectively through the pivot and is connected with two connecting seats 12:

the elastic component is arranged in the workbench 1 and connected with the two connecting seats 12 to realize the function of buffering the pressure born by the two connecting seats 12.

In this embodiment: through buffer board 5 at the inside of workstation 1 upwards slides, adjusts the distance between two fixed plates 9 under the effect, then makes four connecting plates 11 carry out angle modulation, make the length of four connecting plates 11 stretch to make the length between two connecting seats 12 shorten, make slide bar 14 slide at the circumference inner wall of sliding shell 13 under the effect, simultaneously slide at the inner wall of sliding shell 13 according to stripper plate 15, extrude fixed first spring 16 under the effect, thereby cause the extrusion to carry out length contraction to first spring 16, accomplish the effect of buffering the pressure that buffer board 5 received.

Referring specifically to fig. 3, each elastic assembly includes:

the sliding shell 13, the sliding shell 13 is fixedly connected to one side end of one connecting seat 12, and one side end of the other connecting seat 12 is fixedly connected with a sliding rod 14;

the first spring 16, the first spring 16 fixed connection is in the one side inner wall of sliding shell 13, and the circumference inner wall sliding connection of sliding shell 13 has stripper plate 15, and one side end of slide bar 14 and one side end fixed connection of stripper plate 15.

In this embodiment: the sliding rod 14 slides on the circumferential inner wall of the sliding shell 13, and simultaneously slides on the inner wall of the sliding shell 13 according to the extrusion plate 15, and the fixed first spring 16 is extruded under the action of force, so that the first spring 16 is extruded to shrink in length, and the buffer plate 5 is buffered under the pressure.

Referring to fig. 5 specifically, a base 17 is fixedly connected to an upper end of the buffer plate 5, a plurality of support plates 18 are fixedly connected to an upper end of the base 17, and a plurality of bolts 19 are screwed to an upper end of the base 17.

In this embodiment: the four support plates 18 are conveniently fixed through the fixed base 17, the supporting and limiting functions for the sliding tube 20 are achieved according to the fixed four support plates 18, the supporting and fixing strength of the sliding tube 20 is enhanced, and the base 17 is fixedly installed at the upper end of the buffer plate 5 according to the fixed four bolts 19.

Referring specifically to fig. 5, the force release mechanism includes:

the sliding tube 20, the sliding tube 20 is fixedly connected to the upper end of the buffer plate 5, and the second spring 22 is fixedly connected to the circumferential inner wall of the sliding tube 20;

the force release plate 24, the force release plate 24 is fixedly connected to the upper inner wall of the workbench 1, and the lower end of the force release plate 24 is fixedly connected with a limiting pipe 25;

the extrusion assembly is arranged in the sliding tube 20 and connected with the second spring 22 to realize the extrusion buffering effect on the second spring 22.

In this embodiment: the sliding tube 20 is pushed to slide upwards when the buffer plate 5 slides upwards, meanwhile, the second spring 22 is extruded and contracted according to the fixed extrusion seat 21, the effect of first buffering the received impact force is achieved, the extrusion block 23 is pushed to slide on the circumferential inner wall of the limiting tube 25 under the action of force, the effect of extruding the fixed third spring 26 to enable the third spring to shrink in length is achieved, and the effect of secondary buffering of the pressure received by the buffer plate 5 is achieved.

Referring specifically to fig. 5, the extrusion assembly includes:

the extrusion seat 21 is fixedly connected to the upper end of the buffer plate 5, and the upper end of the extrusion seat 21 is fixedly connected with an extrusion block 23;

and the third spring 26 is fixedly connected to the upper end of the extrusion block 23, and the circumferential surface of the extrusion block 23 is in sliding connection with the circumferential inner wall of the limiting tube 25.

In this embodiment: the fixed extrusion seat 21 plays a role in mounting and fixing the extrusion block 23, and simultaneously pushes the extrusion block 23 to slide on the circumferential inner wall of the limiting pipe 25 under the action of force, so that the fixed third spring 26 is extruded to shrink the length of the third spring.

The working principle and the using flow of the utility model are as follows: through placing the mould in the lower mould 2, the mould is pushed down to be extruded simultaneously and to be stamped to the mould of placing, then carry out the altitude mixture control according to the pivoted drive of control drive screw 7 and attack tooth machine 8, accomplish the work of carrying out the isolated tooth machine 8 of attacking to the mould of processing, slide at the inner wall of workstation 1 when buffer board 5 receives the impact force, the distance between two fixed plates 9 is adjusted under the effect even then make four connecting plates 11 carry out the angle modulation, thereby shorten the length between two connecting seats 12, make squeeze board 15 slide at the inner wall of sliding shell 13 under the effect, extrude fixed first spring 16 under the effect, accomplish the effect of buffering the pressure that buffer board 5 received, simultaneously extrude shrink second spring 22 according to fixed extrusion seat 21, accomplish the effect of carrying out first buffering to the impact force that receives, promote extrusion piece 23 and slide at the circumference inner wall of spacing pipe 25 under the effect, extrude the effect of making it carry out length shrink to fixed third spring 26, accomplish the effect of carrying out the effect of buffering to the pressure that receives to buffer board 5.

Finally, it should be noted that: the foregoing description is only a preferred embodiment of the present utility model, and the present utility model is not limited thereto, but it is to be understood that modifications and equivalents of some of the technical features described in the foregoing embodiments may be made by those skilled in the art, although the present utility model has been described in detail with reference to the foregoing embodiments. Any modification, equivalent replacement, improvement, etc. made within the spirit and principle of the present utility model should be included in the protection scope of the present utility model.

Claims (7)

1. An in-mold tap continuous die, comprising:

a work table (1);

the lower die (2) is fixedly connected to the upper end of the workbench (1), and an upper die (3) is arranged on the upper side of the lower die (2);

the mounting seat (6), the upper inner wall of the upper die (3) is fixedly connected with the mounting seat (6), the lower end of the mounting seat (6) is fixedly connected with the driving screw (7), and the lower inner wall of the lower die (2) is fixedly connected with the tapping machine (8);

the two groups of buffer mechanisms are arranged in the workbench (1) to realize the function of buffering the pressure born by the workbench (1); and

the force release mechanism is arranged in the workbench (1) to realize the effect of releasing force on impact force received by the workbench (1).

2. An in-mold tap progressive die as defined in claim 1, wherein: the workbench is characterized in that the inner surface of the workbench (1) is connected with a buffer plate (5) in a sliding mode, and the lower end of the buffer plate (5) is fixedly connected with a plurality of universal wheels (4).

3. An in-mold tap progressive die as defined in claim 2, wherein: each group of the buffer mechanisms comprises:

the two fixing plates (9), the two fixing plates (9) are respectively and fixedly connected to the upper inner wall of the workbench (1) and the upper end of the buffer plate (5), and the upper ends and the lower ends of the two fixing plates (9) are respectively and fixedly connected with two fixing seats (10);

the connecting plates (11) are respectively and rotatably connected to the inner surfaces of the fixing seats (10) through rotating shafts, and one side ends of the connecting plates (11) are respectively and rotatably connected with the two connecting seats (12) through rotating shafts;

the elastic component is arranged in the workbench (1) and is connected with the two connecting seats (12) to realize the function of buffering the pressure born by the two connecting seats (12).

4. An in-mold tap progressive die as defined in claim 3, wherein: each set of said elastic assemblies comprises:

the sliding shell (13), the sliding shell (13) is fixedly connected to one side end of one connecting seat (12), and one side end of the other connecting seat (12) is fixedly connected with a sliding rod (14);

the sliding device comprises a sliding shell (13), a first spring (16), wherein the first spring (16) is fixedly connected to one side inner wall of the sliding shell (13), an extrusion plate (15) is slidably connected to the circumference inner wall of the sliding shell (13), and one side end of a sliding rod (14) is fixedly connected with one side end of the extrusion plate (15).

5. An in-mold tap progressive die as defined in claim 4, wherein: the upper end fixedly connected with base (17) of buffer board (5), the upper end fixedly connected with of base (17) a plurality of backup pads (18), the upper end threaded connection of base (17) has a plurality of bolts (19).

6. An in-mold tap progressive die in accordance with claim 5 wherein: the force release mechanism comprises:

the sliding tube (20), the upper end of the buffer plate (5) is fixedly connected with the sliding tube (20), and the second spring (22) is fixedly connected with the circumferential inner wall of the sliding tube (20);

the force release plate (24), the force release plate (24) is fixedly connected to the upper inner wall of the workbench (1), and the lower end of the force release plate (24) is fixedly connected with a limiting pipe (25);

and the extrusion assembly is arranged in the sliding tube (20) and is connected with the second spring (22) so as to realize the extrusion buffering effect on the second spring (22).

7. An in-mold tap progressive die in accordance with claim 6 wherein: the extrusion assembly includes:

the extrusion seat (21), the upper end of the buffer plate (5) is fixedly connected with the extrusion seat (21), and the upper end of the extrusion seat (21) is fixedly connected with an extrusion block (23);

the third spring (26), the upper end in extrusion piece (23) is fixed connection to third spring (26), the circumference surface and the circumference inner wall sliding connection of spacing pipe (25) of extrusion piece (23).