CS258784B1 - Hydro-mechanical tool - Google Patents

Abstract

The tool consists of a puller, a holder, pull containers and a transfer system. The pull containers are placed in a movable block, which is slidably mounted on a guide. transfer system. The press work table is equipped with centering elements for the pull containers and the puller.

Description

BACKGROUND OF THE INVENTION The present invention relates to a hydromechanical drawing tool comprising a punch, a retainer, a drawing vessel and a hydraulic assembly.

The hitherto known principle of hydromechanical drawing consists in that the lower part of the tool consists of a drawing vessel, which either passes into the drawing ring or the drawing ring is placed over it and sealed. The draw ring has the shape of the largest cross-section of the separation perpendicular to the axis of the separation.

At a distance from the edge of the draw ring, a groove is formed into which a wear-resistant plastic seal is received. When using a single-acting press, the retainer can be spring operated from below. In double-action presses, the retainer is mounted on the retaining ram.

The punch, similar to the traditional punch, has a positive shape of the extract. The fluid pressure in the working space is generated by the movement of the punch and is controlled by a control valve depending on the movement of the press ram. The pressure control is then preferably provided by means of a template connected to the press ram. Another way of regulating is by using a battery of pressure cylinders having different pressures set. The most technically advanced method of pressure control is by electrically controlling the pressure of the liquid in the drawing vessel controlled by the microprocessor. The liquid for subsequent drawing is pumped from the tank to the pressure space by the pump through a non-return valve.

The drawing process is carried out by pumping liquid from the liquid reservoir through the pump through the non-return valve to the collar up to the upper edge of the pull ring. A blank is placed on the front face of the die.

After the press is actuated, the retainer is pressed against the blank and the blank onto the seal, thereby closing the pressure space. When the punch comes down and enters the pressure liquid, the pressure of the liquid develops in the pressure chamber. The punch forms the blank, whereby the increasing pressure of the liquid acts even in the non-retained surface, deforming it into the shape of the anulbid surface, thus preventing loss of stability. In this case, the free part of the blank between the punch and the retainer is bent upwards by the bending moment caused by the pressure of the liquid and the material is drawn into the resulting bend. The drawing itself takes place through the mentioned arching and not over the drawing edge of the drawing die. Because of this, passive drag resistances are lower, which means that the pulling force is less than that of conventional drag.

The fluid pressure is controlled by a pressure relief valve. Seals between the pulling ring and the pressure vessel, and the pulling ring and the cutter, respectively. the workpiece maintains the applied pressure. Excess liquid flows into the reservoir during drawing. When the drawing is completed, the handle is opened, the extract is removed and the whole cycle is repeated. Simultaneously with the drawing is finished, the liquid is pumped, eventually transferred by means of compressed air into the working space. During hydromechanical drawing, there is a considerable time loss due to the removal of the extract, the filling of the drawing vessel with liquid and the insertion of the blank directly in the working space of the press, and the press does not operate in these time periods.

These drawbacks are largely overcome by the hydromechanical drawing tool of the invention consisting of a punch, a retainer, a drawing container and a transfer assembly. SUMMARY OF THE INVENTION The invention is based on the fact that two drawbars are arranged in a movable block which is slidably supported on the guide of the transfer assembly. The working table of the press is equipped with centering elements of the drawing container and punch.

By the construction according to the invention, the hydromechanical drawing tool enables to increase the productivity of work, decrease the total cost of production of extracts, it also enables easier mechanization of production etc. The double drawing vessel can be moved so that one of the vessels is always in working position, . The lower part of the tool is movable perpendicular to the axis of movement of the punch, the lower part comprising at least two drawing vessels. In each case, one of the containers is in the working position, i.e. in the axis of movement of the punch, and the molding to be produced is drawn into it. At the same time, a preparation for drawing another molding is carried out in the adjacent vessel. The main advantage of the hydromechanical drawing tool according to the invention is that the extra times required to fill the drawing vessel with liquid and to deposit the blank on the die are eliminated.

\

An exemplary embodiment of the device according to the invention is shown schematically in the attached illustration of the overall assembly of the hydromechanical drawing tool assembly.

The hydromechanical drawing tool consists of two drawing vessels 4 disposed in a movable block 3 displaceable to guide the transfer assembly 7 and is further provided with a punch 1 and a retainer 2. The work table 6 is provided with two centering elements 9 of the drawing vessel 4 and punches 1.

During the operation, the drawers 2 together with the pressure of the liquid in the draw container 4 deform the blank 2 in the desired shape. When the drawing is finished, the punch 2 moves to the upper position and the retainer 2 is released. ^{with the} pulling vessel 4 and the extract from the press working space to the preparation position in which the extract is removed, the pulling vessel 2 is filled with liquid and the blank 3 is placed on the upper part of the pulling vessel 4. The second drawing container 4 in the movable block 2 is moved ^{from the} preparatory position on the opposite side of the press to the working position above the press table 6. The shifting assembly 2 lowers the whole assembly to the lower position, thereby centering the movable block 5 and the drawbar. container 4 by means of centering elements 2 in the right the press table, so the tool is ready for further drawing.

Claims (1)

A hydromechanical drawing tool consisting of punches, retainer, movable block pulling container and transfer system, characterized in that two movable containers (4) are disposed in the movable block (5) displaceably mounted on the guide (8) of the transfer system (7), the working table (6) of the press is provided with centering elements (9) of the drawing container (4) and of the punches (1).