CN102327972A - High-speed transmission universal serial bus (USB) iron shell mold - Google Patents

Abstract

The invention discloses a high-speed transmission universal serial bus (USB) iron shell mold. The high-speed transmission USB iron shell mold comprises an upper die and a lower die opposite to the upper die, wherein a first working station for forming an angle of 45 DEG, a second working station for forming an angle of 90 DEG, a third working station for forming an angle of 45 DEG, a fourth working station for forming an angle of 90 DEG and a fifth working station for riveting are arranged between the upper die and the lower die sequentially. In the invention, a peripheral material connection mode is utilized, so that the mold is stable in the feeding process; during formation, a bridging mode is utilized, so that a product can be fed on a material bridge in a floating mode; the mold is processed in a domestic advanced slow wire mode, namely is trimmed for three times after a cutting process, so that the accuracy of the mold is guaranteed in processing aspect; the mold is made of Japan imported SKH-9 materials, so that the service life of the mold is greatly prolonged; and the mold is not required to be frequently maintained during production, so that human power is saved, and production efficiency is greatly improved.

Description

A kind of high-speed transfer USB iron-clad mould

Technical field

The present invention relates to a kind of mould, relate in particular to a kind of high-speed transfer USB iron-clad mould.

Background technology

Diel is meant in cold stamping processing, metal or nonmetallic materials is processed into a kind of special process equipment of part.Punching press is at room temperature, utilizes the mould that is installed on the forcing press that material is exerted pressure, and makes it produce separation or plastic deformation, thereby obtains a kind of pressure processing method of required part.

The form of diel is a lot, generally can classify by following principal character:

1. classify according to technological property

Blanking die: the mould that makes the material production separation along the outline line that seals or open wide.Like blanking die, perforating die, knife edge die, notch die, edger, parting die etc.

Bending die: make plate blank or other blanks produce flexural deformation, thereby obtain the mould of the workpiece of certain angle and shape along straight line (sweep).

Drawing Die: be to process the open hollow part to the plate blank, or make hollow element further change the mould of shape and size.

Finishing die: be that blank or semi-finished product workpiece are directly duplicated shaping by figure shape protruding, die, and material itself only produces the mould of local plastic deformation.Like bulging die, reducing die, flaring die, embossing die, flange die, sizing die etc.

2. classify according to the operation combined level

Single die: in the one stroke of forcing press, only accomplish the mould of one stamping procedure.

Compound die: have only a station, in the one stroke of forcing press, on same station, accomplish the mould of twice or the above stamping procedure of twice simultaneously.

Progressive die: also claim the progressive die, refer on the feeding direction of blank, to have two or more stations, in the one stroke of forcing press, on different stations, accomplish the mould of twice or the above stamping procedure of twice one by one.

USB (Universal Serial BUS, USB) Chinese is abbreviating logical getting lines crossed as, is an external bus standard, is used for being connected and communication of standard computer and external equipment.It is the interfacing that is applied in the PC field.The plug and play of USB interface support equipment and hot plug function.USB will unite proposition in the end of the year 1994 by many companies such as Intel, Compaq, IBM, Microsoft.

For high-speed transfer USB iron-clad mould, generally require product 3.8cm and 11.3cm size, in the margin of tolerance, opening can not be out of shape.

Summary of the invention

Technical problem to be solved by this invention provided a kind of high-speed transfer USB iron-clad mould; Connect the material mode around adopting, make it steady in the feeding process, aspect shaping; Adopt the gap bridge mode; Make its product in the feeding of bridge float, guaranteed the stable of production, reached the dimensional tolerance of product.

To achieve these goals; The invention provides a kind of high-speed transfer USB iron-clad mould; Said high-speed transfer USB iron-clad mould comprises patrix and faces the counterdie of said patrix; Be provided with between said patrix and the said counterdie be used to be shaped 45 ° first worker station, be used to be shaped 90 ° second worker station, be used to be shaped 45 ° the 3rd worker station, be used to be shaped 90 ° the 4th worker station and the 5th worker station that is used for riveted, said first worker station, second worker station, the 3rd worker station, the 4th worker station and the 5th worker station are arranged in order between said patrix and said counterdie.

Above-mentioned high-speed transfer USB iron-clad mould, preferred, the said first worker station comprises pressing block and first time pressing block on first, and pressing block is connected in said patrix on said first, and said first time pressing block is connected in said bed die.

Above-mentioned high-speed transfer USB iron-clad mould, preferred, the end that said first time pressing block faced pressing block on said first is provided with the first shaping convexity.

Above-mentioned high-speed transfer USB iron-clad mould, preferred, the said second worker station comprises pressing block and second time pressing block on second, and pressing block is connected in said patrix on said second, and said second time pressing block is connected in said bed die.

Above-mentioned high-speed transfer USB iron-clad mould, preferred, the end that said second time pressing block faced pressing block on said second is provided with the second shaping convexity.

Above-mentioned high-speed transfer USB iron-clad mould, preferred, said the 3rd worker station comprises pressing block and the 3rd time pressing block on the 3rd, and pressing block is connected in said patrix on the said the 3rd, and said the 3rd time pressing block is connected in said bed die.

Above-mentioned high-speed transfer USB iron-clad mould, preferred, the end that said the 3rd time pressing block faced pressing block on the said the 3rd is provided with the 3rd shaping convexity.

Above-mentioned high-speed transfer USB iron-clad mould, preferred, said the 4th worker station comprises pressing block and the 4th time pressing block on the 4th, and pressing block is connected in said patrix on the said the 4th, and said the 4th time pressing block is connected in said bed die.

Above-mentioned high-speed transfer USB iron-clad mould, preferred, the end that said the 4th time pressing block faced pressing block on the said the 4th is provided with the 4th shaping convexity.

Above-mentioned high-speed transfer USB iron-clad mould, preferred, said the 5th worker station comprises a riveted construction.

Technique effect of the present invention is: the present invention connects the material mode around adopting, and makes it steady in the feeding process, aspect shaping, adopts the gap bridge mode; Make its product in the feeding of bridge float, domestic advanced person's slow silk processing is adopted in processing, cuts one and repaiies three; Aspect processing, ensure its precision, mold material has improved die life with Japanese import SKH-9 material greatly; Mould need not often keep in repair aborning, has practiced thrift manpower, has improved production efficiency greatly.

Description of drawings

Fig. 1 is high-speed transfer USB iron-clad mould of the present invention 45 ° first worker sketch map of standing that is used to be shaped;

Fig. 2 is high-speed transfer USB iron-clad mould of the present invention 90 ° second worker sketch map of standing that is used to be shaped;

Fig. 3 is high-speed transfer USB iron-clad mould of the present invention 45 ° the 3rd worker sketch map of standing that is used to be shaped;

Fig. 4 is high-speed transfer USB iron-clad mould of the present invention 90 ° the 4th worker sketch map of standing that is used to be shaped;

The 5th worker that Fig. 5 is used for riveted for the high-speed transfer USB iron-clad mould of the present invention sketch map of standing.

The specific embodiment

Below, in conjunction with accompanying drawing the present invention is done further explanation.

A kind of high-speed transfer USB iron-clad mould; Said high-speed transfer USB iron-clad mould comprises patrix and faces the counterdie of said patrix; Be provided with between said patrix and the said counterdie be used to be shaped 45 ° first worker station, be used to be shaped 90 ° second worker station, be used to be shaped 45 ° the 3rd worker station, be used to be shaped 90 ° the 4th worker station and the 5th worker station that is used for riveted, said first worker station, second worker station, the 3rd worker station, the 4th worker station and the 5th worker station are arranged in order between said patrix and said counterdie.

Please refer to Fig. 1, Fig. 1 is high-speed transfer USB iron-clad mould of the present invention 45 ° first worker sketch map of standing that is used to be shaped.The said first worker station comprises pressing block and first time pressing block on first, and pressing block is connected in said patrix on said first, and said first time pressing block is connected in said bed die.The end that said first time pressing block faced pressing block on said first is provided with the first shaping convexity.

Please refer to Fig. 2, Fig. 2 is high-speed transfer USB iron-clad mould of the present invention 90 ° second worker sketch map of standing that is used to be shaped; The said second worker station comprises pressing block and second time pressing block on second, and pressing block is connected in said patrix on said second, and said second time pressing block is connected in said bed die.The end that said second time pressing block faced pressing block on said second is provided with the second shaping convexity.

Please refer to Fig. 3, Fig. 3 is high-speed transfer USB iron-clad mould of the present invention 45 ° the 3rd worker sketch map of standing that is used to be shaped.Said the 3rd worker station comprises pressing block and the 3rd time pressing block on the 3rd, and pressing block is connected in said patrix on the said the 3rd, and said the 3rd time pressing block is connected in said bed die.The end that said the 3rd time pressing block faced pressing block on the said the 3rd is provided with the 3rd shaping convexity.

Please refer to Fig. 4, Fig. 4 is high-speed transfer USB iron-clad mould of the present invention 90 ° the 4th worker sketch map of standing that is used to be shaped.Said the 4th worker station comprises pressing block and the 4th time pressing block on the 4th, and pressing block is connected in said patrix on the said the 4th, and said the 4th time pressing block is connected in said bed die.The end that said the 4th time pressing block faced pressing block on the said the 4th is provided with the 4th shaping convexity.

Please refer to Fig. 5, the 5th worker that Fig. 5 is used for riveted for the high-speed transfer USB iron-clad mould of the present invention sketch map of standing.Said the 5th worker station comprises a riveted construction.

When using the present invention that high-speed transfer USB iron-clad is cut edge, earlier sheathing material is fixed through a clamp mechanism.Clamp mechanism can be arranged on the patrix, also can be arranged on the side of upper die and lower die, and this clamp mechanism must not be a necessary component of the present invention.The operating process of high-speed transfer USB iron-clad mould of the present invention is following:

Step 1: start lathe, patrix pressed down, make sheathing material first worker station first on effect 45 ° of shapings of completion down of pressing block and first time pressing block;

Step 2: upper die and lower die separate, and sheathing material is stood mobile to second worker;

Step 3: patrix is pressed down, make sheathing material second worker station second on effect 90 ° of shapings of completion down of pressing block and second time pressing block;

Step 4: upper die and lower die separate, and sheathing material is stood mobile to the 3rd worker;

Step 5: patrix is pressed down, make sheathing material the 3rd worker station the 3rd on effect 45 ° of shapings of completion down of pressing block and the 3rd time pressing block;

Step 6: upper die and lower die separate, and sheathing material is stood mobile to the 4th worker;

Step 7: patrix is pressed down, make sheathing material the 4th worker station the 4th on effect 90 ° of shapings of completion down of pressing block and the 4th time pressing block;

Step 8: upper die and lower die separate, and sheathing material is stood mobile to the 5th worker;

Step 9: patrix is pressed down, and sheathing material is stood the 5th worker and is accomplished last riveted shaping.

Though oneself discloses the present invention as above with preferred embodiment, the present invention is defined in this.Any those skilled in the art are not breaking away from the spirit and scope of the present invention, all can do various changes and modification, so protection scope of the present invention should be as the criterion with claim institute restricted portion.

Claims (10)

1. high-speed transfer USB iron-clad mould, said high-speed transfer USB iron-clad mould comprise patrix and in the face of the counterdie of said patrix, it is characterized in that:

Be provided with between said patrix and the said counterdie be used to be shaped 45 ° first worker station, be used to be shaped 90 ° second worker station, be used to be shaped 45 ° the 3rd worker station, be used to be shaped 90 ° the 4th worker station and the 5th worker station that is used for riveted, said first worker station, second worker station, the 3rd worker station, the 4th worker station and the 5th worker station are arranged in order between said patrix and said counterdie.

2. according to the said high-speed transfer USB iron-clad of claim 1 mould, it is characterized in that:

The said first worker station comprises pressing block and first time pressing block on first, and pressing block is connected in said patrix on said first, and said first time pressing block is connected in said bed die.

3. according to the said high-speed transfer USB iron-clad of claim 2 mould, it is characterized in that:

The end that said first time pressing block faced pressing block on said first is provided with the first shaping convexity.

4. high-speed transfer USB iron-clad mould according to claim 1 is characterized in that:

The said second worker station comprises pressing block and second time pressing block on second, and pressing block is connected in said patrix on said second, and said second time pressing block is connected in said bed die.

5. high-speed transfer USB iron-clad mould according to claim 4 is characterized in that:

The end that said second time pressing block faced pressing block on said second is provided with the second shaping convexity.

6. according to the said high-speed transfer USB iron-clad of claim 1 mould, it is characterized in that:

Said the 3rd worker station comprises pressing block and the 3rd time pressing block on the 3rd, and pressing block is connected in said patrix on the said the 3rd, and said the 3rd time pressing block is connected in said bed die.

7. high-speed transfer USB iron-clad mould according to claim 6 is characterized in that:

The end that said the 3rd time pressing block faced pressing block on the said the 3rd is provided with the 3rd shaping convexity.

8. according to the said high-speed transfer USB iron-clad of claim 1 mould, it is characterized in that:

Said the 4th worker station comprises pressing block and the 4th time pressing block on the 4th, and pressing block is connected in said patrix on the said the 4th, and said the 4th time pressing block is connected in said bed die.

9. high-speed transfer USB iron-clad mould according to claim 8 is characterized in that:

The end that said the 4th time pressing block faced pressing block on the said the 4th is provided with the 4th shaping convexity.

10. according to the said high-speed transfer USB iron-clad of claim 1 mould, it is characterized in that:

Said the 5th worker station comprises a riveted construction.

Images