CS256089B1 - Hydrostatic drive of forming machine with parallel motion of two rectilinear hydraulic motors - Google Patents

Abstract

The hydrostatic drive remains two linear motors, with space above the piston of the first hydraulic motor is permanent coupled to the pump and the control connected by a distribution valve located at the age of the hydraulic motor with the waste. Space under the piston of the second hydraulic motor is connected by a second distribution element with hydropneumatic accumulator. The advantage equipment is reducing hydraulic loss, increase operational safety and divorce.

Description

The invention relates to the connection of a hydrostatic drive of a forming machine with the simultaneous movement of two linear motors, e.g.

In the known hydraulic plate shears with two linear hydraulic motors, the space above the piston of the first hydraulic motor is connected via a pressure line to a pressure medium distributor which alternately connects the space above the piston of the first hydraulic motor with a pressure source during stroke traverse stroke wherein the space under the piston of the second hydraulic motor is permanently connected to the pressure accumulator. The parallel movement of the pistons of the two hydraulic motors connected to the shear beam is ensured by the equality of the active area pcd by the piston of the first hydraulic motor and the area above the piston of the second hydraulic motor so that both said spaces are permanently hydraulically connected by pressure piping.

To increase machine output, the shear traverse speed is selected to be substantially greater than the shear speed (downward), which adversely affects the increased flow and losses in the pipeline connecting the space above the piston of the first hydraulic motor to the distributor.

A further disadvantage of the known drive is the fact that the shear beam always returns to the upper starting position when the power supply is interrupted, which can have undesirable consequences in terms of work safety when shifting the machine, changing tools or the like.

The above-mentioned disadvantages are overcome by the hydrostatic drive according to the invention, which is characterized in that the pressure space above the piston of the first hydraulic motor is permanently connected to the high pressure source and controllable by a manifold located in the lid of the first hydraulic motor. controllable by the second distribution element to the accumulator.

The advantage of the described connection is that the primary connection of the pump to the first hydraulic motor without the inclusion of additional hydraulic elements and the positioning of the distribution element directly on the hydraulic motor lid reduces substantial hydraulic losses, increases operational safety and simplifies high pressure distribution by eliminating a separate breather element. Its function is taken over by the distribution element on the lid of the hydraulic motor. A further increase in operational safety is achieved by inserting a second distribution element into the battery discharge. Element for accidental interruption of el. current is closed by the discharge from the accumulator and thus prevents spontaneous movement of the shear beam. High-pressure distribution is simpler than the known design with increased efficiency and safety.

An exemplary embodiment of the invention is illustrated in the drawing, which is a schematic diagram of the hydrostatic drive of the table shears.

The drive of the shear beam 1.2 is provided by two double-acting hydraulic motors 1 and 2, wherein the pressure space below the piston of the first hydraulic motor 1 is permanently bi-directionally connected via a pressure line 3 to the space above the piston of the second hydraulic motor 2. This known embodiment ensures parallel operation of the shear beam 1.2. In the rest position, the pressure medium supplied by the pump 5 via the hydraulic motor 1 and the distribution element 4 flows into the drain 7. In the upper position, the shear beam 1.2 is held by pressure which leads the accumulator to the area under the piston of the hydraulic motor 2. from the generator 5 to move the hydraulic motor 1 downwards while simultaneously expelling the pressure medium from the pressure space under the hydraulic piston 1 through line 3 to the pressure space above the hydraulic piston 2. The pressure medium from the space under the hydraulic piston 2 is forced through the second distribution element 6 into the accumulator.

When the shear beam 1.2 reaches the lower position, the distribution element 4 opens in a known manner and the space above the piston of the hydraulic motor 1 is connected to the waste 7. The shear beam 1.2 moves upward to its initial extreme position under the pressure of the accumulator. After reaching this position, the machine is ready for the next working stroke. In the event of an unforeseen interruption of the power supply, the second distribution element 6 closes the supply of the pressure medium from the accumulator to the space under the piston of the hydraulic motor 2 and the cutting traverse 1.2 remains in a rest.

Claims (3)

Hydrostatic drive of a forming machine having a common motion of two hydraulic motors, wherein the pressure space of the first hydraulic motor is permanently bi-directionally connected to the pressure space above the piston of the second hydraulic motor, characterized in that the pressure space above the piston of the first hydraulic motor (1) is permanently bi-directionally connected a high-pressure source (5) and controlly connected by the distribution element (4) to the waste (7), the space below BACKGROUND OF THE INVENTION the piston of the second hydraulic motor (2j) is connected in a controllable manner by the second distribution element (6) to the accumulator. Hydrostatic drive according to Claim 1, characterized in that the distribution element (4) is located on the lid of the hydraulic motor (1). Hydrostatic drive according to Claim 1 or 2, characterized in that the second distribution element (6) closes the discharge of the pressure medium from the accumulator in the rest position.