CN219766505U - Silicon steel sheet stamping device - Google Patents

Abstract

The utility model discloses a silicon steel sheet stamping device, which belongs to the technical field of stamping, and particularly comprises a bracket, an upper die, a silicon steel sheet and a pressing component, and further comprises: two sets of bed dies, and the top of bed die is equipped with the silicon steel sheet for drive two sets of bed dies and carry out the removal subassembly that removes simultaneously, and remove the subassembly and install on the support, the support of shown includes: the bottom plate, the bottom of bottom plate fixed mounting a plurality of bracing pieces, the top of roof fixed mounting a plurality of bracing pieces, the utility model is through setting up two sets of bed dies to and through setting up the moving assembly and drive two sets of bed dies and remove simultaneously, can realize when punching press the silicon steel sheet on one set of bed die, can take off the silicon steel sheet on another set of bed die, and place new silicon steel sheet on another set of silicon steel sheet, and then can realize carrying out continuous punching press to a plurality of silicon steel sheets, improved punching press efficiency greatly.

Description

Silicon steel sheet stamping device

Technical Field

The utility model relates to the technical field of stamping, in particular to a silicon steel sheet stamping device.

Background

The silicon steel sheet refers to an electrical steel sheet generally, and the electrical steel sheet (also called as silicon steel sheet and silicon steel sheet) refers to a ferrosilicon soft magnetic alloy with extremely low carbon content (the carbon content is below 0.005% after annealing), and the silicon content is generally 0.5% -4.5%, and the resistivity and the maximum magnetic permeability can be improved by adding silicon into iron. The method is mainly used for manufacturing iron cores of various transformers, motors and generators. Electrical steel sheets are divided into two main categories, oriented electrical steel sheets and non-oriented electrical steel sheets.

Currently, when using silicon steel sheets, it is generally required to punch the silicon steel sheets (for example, when using the silicon steel sheets to be applied to a stator of an electric machine, it is generally required to stack the silicon steel sheets and punch the silicon steel sheets). When the silicon steel sheet is stamped, the silicon steel sheet is required to be placed on a die, then stamping is carried out, and after the stamping is finished, the stamped silicon steel sheet is taken away. In the process, when the silicon steel sheet is placed on a die or the punched silicon steel sheet is taken away, an empty space which cannot enable the punching equipment to operate is generated, and then the punching efficiency of the silicon steel sheet is reduced. Therefore, the utility model relates to a silicon steel sheet stamping device.

Disclosure of Invention

The present utility model has been made in view of the above and/or problems occurring in the prior art of a silicon steel sheet stamping device.

It is therefore an object of the present utility model to provide a silicon steel sheet stamping device that can solve the above-mentioned problems that have been proposed.

In order to solve the technical problems, according to one aspect of the present utility model, the following technical solutions are provided:

the utility model provides a silicon steel sheet stamping device, it includes support, goes up mould, silicon steel sheet and pushes down the subassembly, still includes:

two groups of lower dies, and the top of the lower dies is provided with a silicon steel sheet;

and the moving assembly is used for driving the two groups of lower dies to move simultaneously and is arranged on the bracket.

As a preferable mode of the silicon steel sheet stamping device of the utility model, wherein: the illustrated stent comprises:

a bottom plate;

the bottom of the bottom plate is fixedly provided with a plurality of support rods;

the top of roof, a plurality of bracing pieces of top fixed mounting of roof.

As a preferable mode of the silicon steel sheet stamping device of the utility model, wherein: the hold-down assembly includes:

the box body is fixedly arranged on the top of the top plate;

the hydraulic cylinder is fixedly arranged on the inner wall of the box body, and a piston rod in the hydraulic cylinder penetrates through the top plate and is detachably connected with the upper die through the first connecting assembly.

As a preferable mode of the silicon steel sheet stamping device of the utility model, wherein: the first connection assembly includes:

the piston rod in the hydraulic cylinder penetrates through the top plate to fixedly install the fixing block;

the first positioning groove is square in shape and is formed in the inner wall of the bottom end of the fixed block;

the shape of the first positioning block is matched with that of the first positioning groove, the first positioning block is fixedly arranged on the top of the upper die, and the first positioning block is inserted into the first positioning groove and fixed through a screw.

As a preferable mode of the silicon steel sheet stamping device of the utility model, wherein: the moving assembly includes:

the two ends of the top of the bottom plate are fixedly provided with side plates;

the screw is rotationally connected between the two groups of side plates through a bearing;

the top of the sliding blocks is detachably connected with the lower die through a second connecting component.

As a preferable mode of the silicon steel sheet stamping device of the utility model, wherein: the mobile assembly further comprises:

the inner walls of each group of sliding blocks are provided with mounting holes;

the nut is fixedly arranged on the inner wall of the mounting hole, and two ends of the screw rod are connected with the nut through threads;

the servo motor is fixedly arranged on one group of side plates, and an output shaft of the servo motor is fixedly connected with the screw rod.

As a preferable mode of the silicon steel sheet stamping device of the utility model, wherein: the mobile assembly further comprises:

the guide plate is fixedly arranged on the top of the bottom plate and is positioned between the two groups of side plates;

the guide groove is formed in the inner wall of the bottom end of the sliding block, the inner cavity of the guide groove is connected with the guide plate in a sliding mode, and a lubricating layer is arranged between the guide groove and the guide plate.

As a preferable mode of the silicon steel sheet stamping device of the utility model, wherein: the second connection assembly includes:

the second positioning groove is square in shape and is formed in the inner wall of the top end of the sliding block;

the shape of the second positioning block is matched with that of the second positioning groove, the second positioning block is fixedly arranged on the bottom of the lower die, and the second positioning block is inserted into the second positioning groove and is fixed through a screw.

Compared with the prior art:

1. by arranging two groups of lower dies and driving the two groups of lower dies to move simultaneously by arranging a moving assembly, the method can realize that when the silicon steel sheets on one group of lower dies are stamped, the silicon steel sheets on the other group of lower dies can be taken down, and new silicon steel sheets are placed on the other group of silicon steel sheets, so that a plurality of silicon steel sheets can be continuously stamped, and the stamping efficiency is greatly improved;

2. the first connecting component and the second connecting component are arranged, so that the effect of being convenient for disassembling and assembling the upper die and the lower die can be realized; in addition, the lubricating layer is arranged, so that the sliding block can move conveniently.

Drawings

FIG. 1 is a schematic elevational view of the structure of the present utility model;

FIG. 2 is an enlarged schematic view of the structure A in FIG. 1 according to the present utility model;

FIG. 3 is an enlarged schematic view of the structure of FIG. 1B according to the present utility model;

FIG. 4 is a schematic view of the structure of the bracket of the present utility model;

FIG. 5 is a schematic top view of a mobile assembly according to the present utility model;

FIG. 6 is a schematic view of a part of the structure of the moving assembly according to the present utility model;

FIG. 7 is a schematic view of a second connecting assembly according to the present utility model;

fig. 8 is a schematic structural view of a first connecting component according to the present utility model.

In the figure: the support frame 10, the bottom plate 11, the support rod 12, the top plate 13, the upper die 20, the lower die 30, the silicon steel sheet 40, the pressing assembly 50, the box body 51, the hydraulic cylinder 52, the first connecting assembly 60, the fixed block 61, the first positioning groove 62, the first positioning block 63, the moving assembly 70, the side plate 71, the screw 72, the sliding block 73, the mounting hole 74, the nut 75, the servo motor 76, the guide plate 77, the lubricating layer 771, the guide groove 78, the second connecting assembly 80, the second positioning groove 81, and the second positioning block 82.

Detailed Description

For the purpose of making the objects, technical solutions and advantages of the present utility model more apparent, embodiments of the present utility model will be described in further detail below with reference to the accompanying drawings.

The utility model provides a silicon steel sheet stamping device, referring to fig. 1-8, comprising a bracket 10, an upper die 20, a silicon steel sheet 40 and a pressing component 50;

further comprises: two groups of lower dies 30 and a moving assembly 70 for driving the two groups of lower dies 30 to move simultaneously;

and the top of the lower mold 30 is provided with a silicon steel sheet 40, and the moving assembly 70 is mounted on the bracket 10.

The illustrated stent 10 comprises: a bottom plate 11, a support rod 12 and a top plate 13;

the bottom of the bottom plate 11 is fixedly provided with a plurality of support rods 12, the top of the top plate 13 is fixedly provided with a plurality of support rods 12, the support rods 12 are arranged into four groups, and the four groups of support rods 12 are arranged in a rectangular shape.

The pressing down assembly 50 includes: a box 51, a hydraulic cylinder 52;

the box body 51 is fixedly installed on the top of the top plate 13, the hydraulic cylinder 52 is fixedly installed on the inner wall of the box body 51, the box body 51 has the function of protecting the hydraulic cylinder 52, and a piston rod in the hydraulic cylinder 52 penetrates through the top plate 13 and is detachably connected with the upper die 20 through the first connecting assembly 60.

The first connection assembly 60 includes: a fixed block 61, a first positioning groove 62 with a square shape, and a first positioning block 63 with a shape matched with the shape of the first positioning groove 62;

the piston rod in the hydraulic cylinder 52 passes roof 13 fixed mounting fixed block 61, and first constant head tank 62 is seted up on the bottom inner wall of fixed block 61, and first constant head tank 63 fixed mounting is on the top of last mould 20, and first constant head tank 63 inserts in first constant head tank 62 to fix through the screw, through setting the shape of first constant head tank 62 and first constant head tank 63 to square, has to realize fixing a position upper mould 20 fast, need not angle regulation.

The moving assembly 70 includes: a side plate 71, a screw 72, two groups of sliding blocks 73, a mounting hole 74, a nut 75, a servo motor 76, a guide plate 77 and a guide groove 78;

the top both ends of bottom plate 11 all fixed mounting curb plate 71, screw 72 pass through the bearing and rotate and connect between two sets of curb plates 71, the outer lane of this bearing is fixed on curb plate 71, the inner circle fixed screw 72 of this bearing, the inner chamber sliding connection deflector 77 of slider 73 is passed through second coupling assembling 80, mounting holes 74 are all offered to the inner wall of every group slider 73, nut 75 fixed mounting is on the inner wall of mounting holes 74, and the both ends of screw 72 all screw thread connection nut 75, servo motor 76 fixed mounting is on a set of curb plate 71, and servo motor 76's output shaft and screw 72 fixed connection, servo motor 76's output shaft diameter is the same with screw 72's diameter, deflector 77 fixed mounting is on the top of bottom plate 11, and deflector 77 is located between two sets of curb plates 71, deflector 77 is offered on the bottom inner wall of slider 73, the inner chamber sliding connection deflector 77 of deflector 78, through setting up deflector 77 and deflector 78, and the movement of slider 73 is guided, and can also realize utilizing bottom plate 11 to bear to the lower mould 30 on slider 73, in order to avoid the screw 72 to take place crooked bottom plate phenomenon, slider 73 and the bottom plate 11 and the gap between the bottom plate, and the bottom plate 11 and the layer of lubricant 771 have the friction between the deflector 77 and the deflector 77, and the layer 771 can be reduced, and the lubricant layer 771 is provided with the deflector 77.

The second connection assembly 80 includes: a second positioning groove 81 with a square shape and a second positioning block 82 with a shape matched with that of the second positioning groove 81;

the second positioning groove 81 is formed in the inner wall of the top end of the sliding block 73, the second positioning block 82 is fixedly mounted on the bottom of the lower die 30, the second positioning block 82 is inserted into the second positioning groove 81 and fixed through a screw, and the second positioning groove 81 and the second positioning block 82 are square in shape, so that the lower die 30 can be positioned quickly without adjusting an angle.

Working principle: after the silicon steel sheet 40 is placed on a group of lower dies 30, the screw 72 is rotated through the servo motor 76, when the screw 72 rotates, the slide block 73 drives the lower dies 30 to move under the action of the nut 75 until the silicon steel sheet 40 on the lower dies 30 is positioned right below the upper dies 20 (when the lower dies 30 on the left are positioned right below the upper dies 20, the lower dies 30 on the right are positioned right below the upper dies 20, the lower dies 30 on the left are positioned left), when the silicon steel sheet 40 on one group of lower dies 30 are positioned right below the upper dies 20, the upper dies 20 are lowered through the hydraulic cylinder 52, so that the lowered upper dies 20 stamp the silicon steel sheet 40, and then the silicon steel sheet 40 is stamped, and after the silicon steel sheet 40 on one group of lower dies 30 is stamped, the silicon steel sheet 40 on the other group of lower dies 30 is positioned right below the upper dies 20, the silicon steel sheet 40 is circulated in such a way, so that continuous stamping of the silicon steel sheet 40 can be realized;

when the silicon steel sheet 40 on one set of lower dies 30 is stamped, the stamped silicon steel sheet 40 on the other set of lower dies 30 can be removed, and after the silicon steel sheet 40 is removed, a new silicon steel sheet 40 is placed on the other set of lower dies 30.

Although the utility model has been described hereinabove with reference to embodiments, various modifications thereof may be made and equivalents may be substituted for elements thereof without departing from the scope of the utility model. In particular, the features of the disclosed embodiments may be combined with each other in any manner as long as there is no structural conflict, and the exhaustive description of these combinations is not given in this specification merely for the sake of omitting the descriptions and saving resources. Therefore, it is intended that the utility model not be limited to the particular embodiment disclosed, but that the utility model will include all embodiments falling within the scope of the appended claims.

Claims (8)

1. The utility model provides a silicon steel sheet stamping device, includes support (10), goes up mould (20), silicon steel sheet (40) and pushes down subassembly (50), its characterized in that still includes:

two groups of lower dies (30), and the top of the lower dies (30) is provided with a silicon steel sheet (40);

and the moving assembly (70) is used for driving the two groups of lower dies (30) to move simultaneously, and the moving assembly (70) is arranged on the bracket (10).

2. A sheet silicon steel stamping device according to claim 1, characterized in that the support (10) comprises:

a bottom plate (11);

the support rods (12) are fixedly arranged at the bottoms of the bottom plates (11);

the top plate (13), a plurality of bracing pieces (12) are fixed mounting at the top of roof (13).

3. The silicon steel sheet stamping device as set forth in claim 2, wherein the pressing assembly (50) includes:

the box body (51) is fixedly arranged on the top of the top plate (13);

the hydraulic cylinder (52) is fixedly arranged on the inner wall of the box body (51), and a piston rod in the hydraulic cylinder (52) penetrates through the top plate (13) and is detachably connected with the upper die (20) through the first connecting assembly (60).

4. A silicon steel sheet stamping device as claimed in claim 3, wherein the first connecting assembly (60) comprises:

a fixed block (61), wherein a piston rod in the hydraulic cylinder (52) penetrates through the top plate (13) to fixedly install the fixed block (61);

the first positioning groove (62) is square in shape, and the first positioning groove (62) is formed in the inner wall of the bottom end of the fixed block (61);

and a first positioning block (63) with a shape matched with that of the first positioning groove (62), wherein the first positioning block (63) is fixedly arranged on the top of the upper die (20), and the first positioning block (63) is inserted into the first positioning groove (62) and is fixed by a screw.

5. The silicon steel sheet stamping device as recited in claim 2, wherein the moving assembly (70) comprises:

the side plates (71) are fixedly arranged at the two ends of the top of the bottom plate (11);

the screw (72) is rotationally connected between the two groups of side plates (71) through bearings;

and the top parts of the two groups of sliding blocks (73) are detachably connected with the lower die (30) through a second connecting assembly (80).

6. The silicon steel sheet stamping device as set forth in claim 5, wherein the moving assembly (70) further includes:

the inner wall of each group of sliding blocks (73) is provided with a mounting hole (74);

the nut (75) is fixedly arranged on the inner wall of the mounting hole (74), and two ends of the screw rod (72) are connected with the nut (75) through threads;

and the servo motor (76) is fixedly arranged on the group of side plates (71), and an output shaft of the servo motor (76) is fixedly connected with the screw rod (72).

7. The silicon steel sheet stamping device as set forth in claim 6, wherein the moving assembly (70) further includes:

the guide plate (77), the said guide plate (77) is fixedly mounted on top of the bottom plate (11), and the guide plate (77) locates between two sets of side plates (71);

the guide groove (78), guide groove (78) is seted up on the bottom inner wall of slider (73), the inner chamber sliding connection deflector (77) of guide groove (78), and be equipped with lubrication layer (771) between guide groove (78) and deflector (77).

8. The silicon steel sheet stamping device as recited in claim 5, wherein the second connection assembly (80) comprises:

the second positioning groove (81) is square in shape, and the second positioning groove (81) is formed in the inner wall of the top end of the sliding block (73);

the shape of the second positioning block (82) is matched with that of the second positioning groove (81), the second positioning block (82) is fixedly arranged on the bottom of the lower die (30), and the second positioning block (82) is inserted into the second positioning groove (81) and is fixed through screws.