CN109849415B - Thin-wall part die - Google Patents

Abstract

The invention provides a thin-wall part die, wherein an upper laminated board I and a bottom laminated board II in the die are arranged in parallel; a rubber plate I and a rubber plate II are arranged in parallel between the upper laminated board I and the bottom laminated board II; the piece to be processed which is required to be processed is attached to the periphery of the template and is arranged between the rubber plate I and the rubber plate II; the upper laminated board I and the lower laminated board II are fixedly connected together through screws and nuts. The invention can improve the processing efficiency and the processing precision of the thin-wall part, and has simple structure and convenient operation.

Description

Thin-wall part die

Technical Field

The invention belongs to the field of inertial confinement fusion, and particularly relates to a thin-wall part die which is suitable for processing inertial confinement fusion target parts.

Background

In modern scientific research production, particularly in the field of inertial confinement fusion, thin-wall parts with small dimensions and high precision become important points and difficulties in processing, and how to improve the processing efficiency and precision becomes a problem to be solved.

Disclosure of Invention

The invention aims to provide a thin-wall part die which is suitable for processing inertial confinement fusion target parts.

The technical scheme of the invention is as follows:

the invention relates to a thin-wall part die which is characterized by comprising an upper laminated board I, a bottom laminated board II, a rubber plate I, a rubber plate II, screws, nuts, a template and a piece to be processed. The connection relation of the die is as follows: the upper laminated board I and the lower laminated board II are arranged in parallel. A rubber plate I and a rubber plate II are arranged in parallel between the upper laminated board I and the bottom laminated board II. The piece to be processed that needs to process is laminated in the periphery of template, is arranged in between rubber slab I and the rubber slab II. The upper laminated board I and the lower laminated board II are fixedly connected together through screws and nuts.

The upper laminated board I, the bottom laminated board II, the rubber board I and the rubber board II are provided with notches, the shapes and the sizes of the notches are consistent, the notches are aligned, and the template and the piece to be processed are exposed out of the notch.

And through holes are symmetrically formed in the two ends of the upper laminated board I and the bottom laminated board II and used for allowing screws to pass through.

The mounting process of the thin-wall part die comprises the steps of firstly processing a template into a required shape, then attaching a piece to be processed to the periphery of the template, placing the template and the piece to be processed together between two rubber plates, pressing a pressing plate on the outer side of the rubber plates, aligning gaps of the pressing plate and the rubber plates, connecting the pressing plate together through screws and nuts, tightly screwing the screws and the nuts to press the pressing plate, tightly pressing the rubber plates again, and tightly attaching the piece to be processed to the template through compression deformation of the rubber plates to enable the piece to be processed to be in the shape of the template.

The die clamp disclosed by the invention is clamped on a linear cutting or laser processing machine tool, and the to-be-processed piece exposed from the notch of the pressing plate and the rubber plate is cut, so that the thin-wall part with the required shape can be obtained.

The invention has the advantages of improving the processing efficiency and processing precision of the thin-wall part, along with simple structure and convenient operation.

Drawings

FIG. 1 is an isometric view of a thin-walled part mold of the present invention;

FIG. 2 is a front view of a thin-walled part mold of the present invention;

FIG. 3 is a left side view of FIG. 2;

FIG. 4 is a top view of FIG. 2;

in the figure, 1, an upper laminated board I2, a rubber board I3, screws 4, nuts 5, a template 6, a piece to be processed 11, a bottom laminated board II 21 and a rubber board II.

Detailed Description

The invention will be further described with reference to the drawings and examples.

Example 1

Fig. 1 is an isometric view of a thin-walled part mold according to the present invention, fig. 2 is a front view of the thin-walled part mold according to the present invention, fig. 3 is a left side view of fig. 2, and fig. 4 is a top view of fig. 2. In fig. 1 to 4, the thin-walled part mold of the present invention comprises an upper laminate plate i 1, a lower laminate plate ii 11, a rubber plate i 2, a rubber plate ii 21, two screws 3, two nuts 4, a die plate 5, and a sheet to be processed 6. The connection relation of the die is as follows: the upper laminated board I1 is arranged in parallel with the bottom laminated board II 11. A rubber plate I2 and a rubber plate II 21 which are parallel to each other are arranged between the upper laminated board I1 and the bottom laminated board II 11. The piece 6 to be processed which needs to be processed is attached to the periphery of the template 5 and is integrally arranged between the rubber plate I2 and the rubber plate II 21. The upper laminated board I1 and the bottom laminated board II 11 are fixedly connected together through the screw 3 and the nut 4.

The upper laminated board I1, the bottom laminated board II 11, the rubber plate I2 and the rubber plate II 21 are all provided with notches, the shapes and the sizes of the notches are consistent, the notches are aligned, and the template 5 and the piece 6 to be processed are exposed out of the parts of the notches.

Through holes are symmetrically formed in the two ends of the upper laminated board I1 and the bottom laminated board II 11 and used for the screws 3 to penetrate through.

In the present embodiment, the screw 3 is one of two screws, and the nut 4 is one of two nuts.

The mounting process of the thin-wall part die comprises the steps of firstly processing a template 5 into a required shape, attaching a piece 6 to be processed to the periphery of the template 5, then placing the template 5 and the piece 6 to be processed together between a rubber plate I2 and a rubber plate II 21, mounting a laminated board I1 on the outer side of the rubber plate I2, mounting a bottom pressing plate II 11 on the outer side of the rubber plate II 21, aligning gaps on the laminated board I1, the bottom pressing plate II 11, the rubber plate I2 and the rubber plate II 21, and exposing the template 5 and the piece 6 to be processed at the gaps. The upper laminated board I1 is connected with the bottom layer pressing board II 11 through the screw 3 and the nut 4, the screw 3 and the nut 4 are tightly screwed to tightly press the upper laminated board I1 and the bottom layer pressing board II 11, the upper laminated board I1 and the bottom layer pressing board II 11 are tightly pressed with the rubber plate, the rubber plate is tightly pressed with the piece 6 to be processed, and the piece 6 to be processed is tightly attached to the template 5 through compression deformation of the rubber plate and presents the shape of the template 5. The die clamp disclosed by the invention is clamped on a linear cutting or laser processing machine tool, and the to-be-processed piece 6 exposed from the notch of the pressing plate 1 and the notch of the rubber plate 2 is cut, so that the thin-wall part with the required shape can be obtained.

Claims (1)

1. The utility model provides a thin wall part mould which characterized in that:

the die comprises an upper laminated board I (1), a bottom laminated board II (11), a rubber plate I (2), a rubber plate II (21), screws (3), nuts (4), a die plate (5) and a piece to be processed (6); the connection relation of the die is as follows: the upper laminated board I (1) and the bottom laminated board II (11) are arranged in parallel; a rubber plate I (2) and a rubber plate II (21) are arranged in parallel between the upper laminated board I (1) and the bottom laminated board II (11); the piece (6) to be processed is attached to the periphery of the template (5), is arranged between the rubber plate I (2) and the rubber plate II (21), and is in direct contact with the rubber plate I (2) and the rubber plate II (21);

the upper laminated board I (1) and the bottom laminated board II (11) are fixedly connected together through a screw (3) and a nut (4); the upper laminated board I (1), the bottom laminated board II (11), the rubber board I (2) and the rubber board II (21) are provided with notches, and the shapes and the sizes of the notches are consistent; through holes are symmetrically formed in the two ends of the upper laminated board I (1) and the bottom laminated board II (11) and used for allowing screws (3) to penetrate through.