CN107497915A - A kind of corrugated plating rubber pocket shaped by fluid pressure Fixture Design method - Google Patents

Abstract

The invention belongs to the field shaping technique of aircraft ripple plate parts, discloses a kind of corrugated plating rubber pocket shaped by fluid pressure Fixture Design method.The present invention uses reverse engineering design rubber pocket hydroforming die, and uses digital control processing, ensure that the quality of mould.Using rubber pocket hydroforming process, solve the problems such as domestic air mail circle ripple plate parts explosive forming manufacturing cycle length, unstable product quality, danger is high, working environment is severe, realize the rapidly and efficiently shaping of ripple plate parts.The structure of the present invention can also be applied in the manufacture of civilian such peculiar part.

Description

A kind of corrugated plating rubber pocket shaped by fluid pressure Fixture Design method

Technical field

The invention belongs to the field shaping technique of aircraft ripple plate parts, is related to a kind of corrugated plating rubber pocket shaped by fluid pressure Fixture Design method.

Background technology

In airplane parts, ripple plate parts are largely used.Some metal plate covering class accessory sizes are larger, installation position It is more special to put, and in order to strengthen the self-strength of such part, some reinforcements are specially made on part.It is commonly called as " ripple Plate ".Such part is wide in variety, and specification is also more.Generally use be explosive forming method.What the mould of explosive forming used It is that epoxy plastics adds iron powder, is made by handwork using model.Mould is being used and is being easily damaged in handling process, it is necessary to often reprocess Mould.Affect the manufacturing cycle of part.Part after explosive forming is influenceed by manufacturing process, and local pad pasting effect is poor, type Face is of poor quality.Need a large amount of schools type by hand.Cause product manufacturing cycle length, unstable product quality, dangerous high, building ring The problems such as border is severe.It is difficult to meet research and production needs.Bottleneck problem into airplane parts manufacturing process.In order to solve this Problem, is badly in need of a kind of new forming frock, and new forming frock just must have new Fixture Design method.

The content of the invention

Goal of the invention：The present invention by scanner scanning corrugated fittings, establish the threedimensional model of part, using Q235 steel Plate is mold materials, and numerical control manufacture explosive forming mould simultaneously uses rubber pocket hydroforming process, solves domestic air mail circle ripple Plate parts explosive forming manufacturing cycle length, unstable product quality, the problems such as dangerous high, working environment is severe, realize The rapidly and efficiently shaping of ripple plate parts.

Technical scheme：A kind of corrugated plating rubber pocket shaped by fluid pressure Fixture Design method, it is characterised in that swept by scanner Retouch corrugated fittings；Establish the threedimensional model of part；Numerical control is manufactured into pattern；The upper surface numerical control of rubber pocket hydroforming die adds Work reinforcement type face；Dowel hole is manufactured on the die face of mould, the mushroom pin of locating element passes through dowel hole Part is positioned.

The rubber pocket shaped by fluid pressure frock uses Q235 steel plates as mold materials.

The dowel hole is beyond the External Shape line of die face.

Itself quantity of the quantity and corrugated fittings in the processing reinforcement type face is consistent.

The dowel hole is beyond the External Shape line of mould at 10mm.

Steam vent is provided with the rubber pocket hydroforming die reinforcement type face.

Beneficial effect：

1st, the rubber pocket hydroforming die using reverse engineering design, and use digital control processing.It ensure that mould Quality.And use rubber pocket hydroforming process, solve the domestic air mail circle ripple plate parts explosive forming manufacturing cycle it is long, Unstable product quality, the problems such as dangerous high, working environment is severe, realize the rapidly and efficiently shaping of ripple plate parts.

2nd, structure of the invention can also be applied in the manufacture of civilian such peculiar part.

Brief description of the drawings

Fig. 1 is " corrugated plating " part schematic diagram；

Fig. 2 is " corrugated plating " part blank schematic diagram；

Fig. 3 is the rubber pocket hydroforming die for being used to be molded " corrugated plating " part.

Fig. 4 is mushroom finger setting schematic diagram on rubber pocket hydroforming die.

Fig. 5 is rubber pocket hydroforming die upper air-vent schematic diagram.

Fig. 6 is rubber pocket hydroforming die detail of construction.

Wherein：1- mould 2- mushroom pins

Embodiment：

The present invention is described in further detail below in conjunction with the accompanying drawings, refers to Fig. 1 to Fig. 6.

A kind of corrugated plating rubber pocket shaped by fluid pressure Fixture Design method, it is characterised in that pass through scanner scanning corrugated plating Part；Establish the threedimensional model of part；Numerical control is manufactured into pattern；Q235 steel plates are used to use rubber pocket hydraulic pressure for mold materials Moulding process is molded corrugated fittings；Rubber pocket hydroforming die upper surface digital control processing reinforcement type face, process reinforcement Itself quantity of the quantity in type face and corrugated fittings is consistent；The steam vent processed at reinforcement type face；Outside the part of mould Dowel hole is manufactured beyond shape line at 10mm；For the mushroom pin of locating element, mushroom pin is arranged on to the positioning of die face Pin-and-hole mold is placed on rubber pad hydraulic press workbench.Rubber after part blank is fixed on mould by mushroom pin Cyst fluid press is started working, and is molded " corrugated plating " part.

Embodiment：

1. using the method for photograph, corrugated fittings are taken a picture.Obtain the threedimensional model (Fig. 1) of part.

2. the three-dimension modeling for the passing through part threedimensional model of forming frock.Part is contained on frock threedimensional model Reinforcement, the trim line and surplus line (Fig. 3) of part.

3. design when at reinforcement type face steam vent (Fig. 5) processed.

4. manufacturing dowel hole beyond the External Shape line of mould at 10mm, and increase mushroom pin (Fig. 4).

5. rubber pad hydraulic press carries out part manufacture on.

6. taking out part, examine.

This method needs the workload of hand finish small, realizes the rapidly and efficiently shaping of ripple plate parts.(Fig. 6).

Claims (6)

1. A kind of 1. corrugated plating rubber pocket shaped by fluid pressure Fixture Design method, it is characterised in that pass through scanner scanning corrugated plating zero Part；Establish the threedimensional model of part；Numerical control is manufactured into pattern；Rubber pocket hydroforming die upper surface digital control processing reinforcement type Face；Dowel hole is manufactured on the die face of mould, the mushroom pin of locating element is positioned part by dowel hole.
2. 2. corrugated plating rubber pocket shaped by fluid pressure Fixture Design method as claimed in claim 1, it is characterised in that the rubber pocket Shaped by fluid pressure frock uses Q235 steel plates as mold materials.
3. 3. corrugated plating rubber pocket shaped by fluid pressure Fixture Design method as claimed in claim 2, it is characterised in that the alignment pin Hole is beyond the External Shape line of die face.
4. 4. corrugated plating rubber pocket shaped by fluid pressure Fixture Design method as claimed in claim 3, it is characterised in that the processing adds Itself quantity of the quantity and corrugated fittings in strengthening tendons type face is consistent.
5. 5. the corrugated plating rubber pocket shaped by fluid pressure Fixture Design method as described in claim 3 or 4, it is characterised in that described fixed Position pin-and-hole is beyond the External Shape line of mould at 10mm.
6. 6. corrugated plating rubber pocket shaped by fluid pressure Fixture Design method as claimed in claim 5, it is characterised in that the rubber pocket Hydroforming die reinforcement type is provided with steam vent at face.