CN212371600U - Double-material-in-one forming and welding die - Google Patents

Abstract

The utility model discloses a two material unification forming and welding moulds. The die comprises an upper die block and a lower die block, wherein the upper die block is positioned above the lower die block, and a strip of material passes between the upper die block and the lower die block; the upper module is provided with a processing hole penetrating through the upper surface and the lower surface of the upper module, the lower module is provided with a jig plate, and the processing hole is positioned right above the jig plate; the jig plate can be provided with first material parts, and the material belt can be provided with second material parts in rows. The double-material-in-one forming and welding die can machine and form different parts in the die, and directly weld and pull the parts to move after forming, on one hand, the investment of processing jigs, detection equipment and the like is reduced, and the production and processing cost is reduced; on the other hand, different processes are operated in the same die, so that the time consumed by loading and unloading and other work is saved, and the working efficiency and the productivity are improved.

Description

Double-material-in-one forming and welding die

Technical Field

The utility model relates to the field of dies, in particular to two material unification forming and welding moulds.

Background

In the process of producing some small-sized part products, the processes of processing and forming a material part, welding two different material parts and the like are often performed, when the small-sized part products are processed, the forming, the welding and the like generally need to be respectively performed by transferring the material part to different jigs, more processing jigs, lens and other detection equipment and the like need to be used, and the production and processing cost is increased; in the welding process, the material pieces are generally used as bulk materials to be independently fed on corresponding jigs and welded by using equipment, so that the feeding and discharging time is longer, and the working efficiency and the productivity are low.

SUMMERY OF THE UTILITY MODEL

In order to solve the problem, the utility model provides a two-in-one forming and welding mould.

According to the utility model discloses an aspect provides a two material unification forming and welding mould, including an upper module and a lower module, upper module is located the top of lower module, and upper module with through a material area between the lower module.

The upper module is provided with a processing hole penetrating through the upper surface and the lower surface of the upper module, the lower module is provided with a jig plate, and the processing hole is positioned right above the jig plate;

the jig plate can be provided with first material parts, and the material belt can be provided with second material parts in rows.

The double-material-in-one forming and welding die can machine and form different parts in the die, and directly weld and pull the parts to move after forming, on one hand, the investment of processing jigs, detection equipment and the like is reduced, and the production and processing cost is reduced; on the other hand, different processes are operated in the same die, so that the time consumed by loading and unloading and other work is saved, and the working efficiency and the productivity are improved.

In some embodiments, the tooling hole is in the shape of an inverted cone. From this, set up the concrete shape of processing hole, the upper portion broad of the processing hole of obconic shape conveniently stretches into processing equipment, and the lower part is narrower, then conveniently carries out accurate processing.

In some embodiments, a fixing hole communicated with the machining hole is formed in the side face of the machining hole, a fixing block is installed in the fixing hole, and the bottom of the fixing block presses the material belt. From this, set up the fixed orifices and install the fixed block wherein, can compress tightly the location through the installation fixed block to material area and tool board in the processing.

In some embodiments, recessed edge grooves are provided at both side edges of the lower module. Therefore, during processing, the idle second material part which does not participate in processing on the material belt can not collide with the lower module in an extrusion manner.

In some embodiments, two rows of locating pins are mounted in the lower module; wherein the top of the locating pin penetrates through the material belt and is inserted into the upper module. From this, can carry out whole location to last module, lower module and material area through the locating pin.

In some embodiments, both sides of the material belt are provided with a row of positioning holes matched with the positioning pins. Thereby, the specific structure of the material belt is further arranged.

In some embodiments, the upper module is provided with two machining holes, the lower module is provided with two jig plates, and the material belt is provided with two rows of the second material parts. From this, through setting up two machining hole, two tool boards and two rows of second material spare can carry out the processing of two stations simultaneously.

In some embodiments, the two machining holes, the two jig plates and the two rows of second material pieces are all arranged in opposite directions. From this, through carrying out reverse setting with the structure that two stations are relevant, can make full use of device's space, make not conflict mutually between two stations when guaranteeing to process smoothly.

Drawings

Fig. 1 is a schematic structural view of a two-in-one forming and welding mold according to an embodiment of the present invention;

FIG. 2 is a schematic structural diagram of the upper module shown in FIG. 1;

FIG. 3 is a schematic structural view of the lower module shown in FIG. 1;

fig. 4 is a schematic structural diagram of the tape shown in fig. 1.

In the figure: go up module 1, lower module 2, material area 3, first material 4, second material 5, machining hole 11, fixed orifices 12, fixed block 13, tool board 21, marginal groove 22, locating pin 23, locating hole 31.

Detailed Description

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

Fig. 1 schematically shows a structure of a two-in-one forming and welding mold according to an embodiment of the present invention, fig. 2 shows a structure of an upper module in fig. 1, fig. 3 shows a structure of a lower module in fig. 1, and fig. 4 shows a structure of a material belt in fig. 1. As shown in fig. 1-4, the mold is mainly composed of an upper mold block 1 and a lower mold block 2, and during processing, the upper mold block 1 is pressed onto the lower mold block 2 from above, and a strip 3 passes between the upper mold block 1 and the lower mold block 2. Wherein, can install first material 4 on the module 2 down, can install the second material 5 in row on the material area 3, then the processing equipment can process each material through last module 1.

The upper module 1 is provided with a processing hole 11, and the processing hole 11 penetrates through the upper surface and the lower surface of the upper module 1; and install tool board 21 on lower module 2, the top surface of tool board 21 exposes the upper surface of lower module 2, and first material 4 can install on tool board 21 to when going up module 1 and lower module 2 when the pressfitting, processing hole 11 is located tool board 21 directly over. Therefore, during machining, the cutter head, the welding gun and other structures of the machining equipment can perform forming and welding work on each material piece positioned on the lower module 2 and the material belt 3 through the machining hole 11.

Preferably, the machining hole 11 has an inverted conical shape. The upper part of the fixture is wider, the processing equipment can be conveniently stretched into the fixture, the lower part of the fixture is narrower, and the fixing and processing accuracy can be improved.

Preferably, a fixing hole 12 is formed at a side surface of the processing hole 11 to communicate with the processing hole, and the fixing hole 12 also penetrates through the upper and lower surfaces of the upper module 1. And a fixed block 13 is installed in the fixed hole 12, the fixed block 13 can be conveniently installed and taken out from the fixed hole 12, and after the fixed block 13 is installed, the bottom of the fixed block is pressed on the material belt 3, so that the part of the material belt 3 is pressed on the jig plate 21 of the lower module 2, and the second material part 5 is pressed on the first material part 4.

Preferably, considering that the strip 3 is generally provided with second material pieces 5 arranged in a row, and in order to save material and space, the distance between adjacent second material pieces 5 is not so large, when a certain second material piece 5 is moved to the processing position, the adjacent second material pieces 5 on both sides thereof tend to still be located in the range directly above the lower module 2. When the material belt 3 is pressed down, the second material pieces 5 on two sides of the processing position are often pressed onto the top surface of the lower module 2, so that a pressing error or a material piece scratch is caused. Therefore, the edge grooves 22 can be recessed at both edges of the lower module 2 to accommodate the second material 5 at both sides of the processing position, so as to ensure smooth operation of the pressing operation, and the length and width of the edge grooves 22 can be designed and selected as required.

Preferably, a plurality of positioning pins 23 divided into two rows are installed in the lower module 2, the tops of the positioning pins 23 extend out of the upper surface of the lower module 2, a row of positioning holes 31 are formed in both sides of the material belt 3, and two rows of corresponding holes are also formed in the bottom of the upper module 1, so that when the material belt 3 is pressed, the tops of the positioning pins 23 can penetrate through the material belt 3 and be inserted into the upper module 1, and thus the upper module 1, the lower module 2 and the material belt 3 are accurately positioned.

In order to improve the processing efficiency, two processing holes 11 can be formed in the upper module 1, two corresponding jig plates 21 can be arranged and mounted on the lower module 2, two rows of second material pieces 5 are also mounted on the material belt 3, two processing positions can be provided, and two groups of material pieces are processed simultaneously. Preferably, the two machining holes 11, the two jig plates 21 and the two rows of second material parts 5 are arranged in opposite directions, and the other two fixing holes 12 and the fixing blocks 13 are also arranged in opposite directions. Therefore, the space of the device can be fully utilized, and the mutual interference between the two groups of processing structures and the work is reduced.

When the die is used, the first material parts 4 are installed on the jig plate 21 of the lower die plate, the rows of second material parts 5 are installed on the material belt 3, the material parts are pulled to enable one of the second material parts 5 to move to the position above the first material part 4, the upper die block 1 moves downwards to conduct pressing and fastening on the lower die block 2 and the material belt 3, then the second material parts 5 can be machined and formed through the machining holes 11 by using corresponding machining equipment and are welded with the first material parts 4. Then, the upper module 1 is lifted to replace the first material 4 on the lower module 2, and the material belt 3 is pulled to make the next second material 5 reach the processing position, so that the above actions can be repeated to continue the processing.

The double-material-in-one forming and welding die can machine and form different parts in the die, and directly weld and pull the parts to move after forming, on one hand, the investment of processing jigs, detection equipment and the like is reduced, and the production and processing cost is reduced; on the other hand, different processes are operated in the same die, so that the time consumed by loading and unloading and other work is saved, and the working efficiency and the productivity are improved.

What has been described above are only some embodiments of the invention. For those skilled in the art, without departing from the inventive concept, several modifications and improvements can be made, which are within the scope of the invention.

Claims (8)

1. The utility model provides a two material unification shaping welding mould which characterized in that: the device comprises an upper module (1) and a lower module (2), wherein the upper module (1) is positioned above the lower module (2), and a strip of material (3) passes between the upper module (1) and the lower module (2);

the upper module (1) is provided with a processing hole (11) penetrating through the upper surface and the lower surface of the upper module, the lower module (2) is provided with a jig plate (21), and the processing hole (11) is positioned right above the jig plate (21);

the jig plate (21) can be provided with first material parts (4), and the material belt (3) can be provided with second material parts (5) in rows.

2. The two-in-one forming and welding mold according to claim 1, wherein: the processing hole (11) is in an inverted cone shape.

3. The two-in-one forming and welding mold according to claim 1, wherein: the side of the processing hole (11) is provided with a fixing hole (12) communicated with the processing hole, a fixing block (13) is installed in the fixing hole (12), and the bottom of the fixing block (13) is pressed on the material belt (3).

4. The two-in-one forming and welding mold according to claim 1, wherein: the edge of the two sides of the lower module (2) is provided with a sunken edge groove (22).

5. The two-in-one forming and welding mold according to claim 1, wherein: two rows of positioning pins (23) are installed in the lower module (2), and the tops of the positioning pins (23) penetrate through the material belt (3) and are inserted into the upper module (1).

6. The two-in-one forming and welding mold according to claim 5, wherein: and a row of positioning holes (31) matched with the positioning pins (23) are formed in both sides of the material belt (3).

7. The two-in-one forming and welding mold according to claim 1, wherein: the upper module (1) is provided with two machining holes (11), the lower module (2) is provided with two jig plates (21), and the material belt (3) is provided with two rows of second materials (5).

8. The two-in-one forming and welding mold according to claim 7, wherein: the two processing holes (11), the two jig plates (21) and the two rows of second material parts (5) are arranged in opposite directions.

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