HU188794B - Pneumohydraulic pressure converter - Google Patents

Abstract

A hydropneumatic pressure converter has a first pneumatic part and a second hydraulic part. The essence of the invention lies in that the first pneumatic portion is formed by a flexible cylinder provided with a front plate having a cylindrical cavity. The cylinder of the second hydraulic part is arranged in the cylindrical cavity of the front plate of the flexible cylinder. The piston of the hydraulic cylinder is attached to the front wall which has the cylindrical cavity. The hydraulic cylinder has a fluid inlet chamber connected to an inlet conduit, and a displacement chamber which is separable therefrom with the hydraulic cylinder. The solution according to the invention is of particularly reduced size since the first part is arranged in the second part. Furthermore, the piston stroke requires only a small volume.

Description

The present invention relates to a pneumohydraulic pressure transducer with a pneumatic primary side and a hydraulic secondary side.

There is a need in many areas of the art for producing hydraulic energy from pneumatic energy by transforming pressure. Most commonly used for this purpose is a pneumatic cylinder and hydraulic cylinder, wherein the plunger of the primary side pneumatic cylinder is rigidly connected to the plunger of the secondary side hydraulic cylinder. Such a solution is described e.g. 2 230 492, 1 916 790, 3 027 878, 2 516 077 German Patent Nos. 2,906,663; German publication. This is also the case with Mecman's pressure transducer. In these cases, the pressure conversion occurs in proportion to the cylinder diameters. However, in many cases the known solution has the disadvantage that the space requirements of the continuous rollers cannot be met. The need for separate hydraulic and pneumatic cylinders, which require a high degree of sealing between the cylinders and pistons, also has a detrimental effect on the machine's economy. The high space requirements and the cost of the known solution often limit the applicability of the equipment.

SUMMARY OF THE INVENTION It is an object of the present invention to overcome the above-mentioned drawbacks and to provide a pneumohydraulic pressure transducer which is significantly smaller in space and which can be implemented at a much lower cost or by simpler technical means. The invention is based on the discovery that the above object can be met by forming the primary side as a hose and arranging it within and within its stroke. the secondary hydraulic cylinder.

The invention thus relates to a pneumohydraulic pressure transducer with a pneumatic primary side and a hydraulic secondary side. The essence of the invention is that the pneumatic primary side is constituted by a hose cylinder having a cylindrical recessed face while the hydraulic cylinder is disposed within the cylindrical recess of the hose cylinder or its face. The piston of the hydraulic cylinder is fixed to the front face with the cylindrical recess itself.

This solution is very space-saving because, in addition to the primary and secondary sides being arranged within each other, even strokes require only one space.

In order to eliminate the need for the piston and / or hydraulic piston to be provided with a delicate seal, the hydraulic cylinder according to the invention has an inlet area connected to an inlet line and a displacement area which can be detached from it by means of the hydraulic piston. The hydraulic piston itself acts not as a piston in the displacement chamber, but as a displacement body, and as a valve blocking the connection between the two spaces.

The pressure transducer according to the invention is made up of very simple and relatively inexpensive structural parts.

The invention will now be described in more detail with reference to the drawing, which is a sectional view of a pressure transducer according to the invention.

In the exemplary embodiment, the pneumohydraulic pressure transducer is housed in a housing 11, the primary side being formed by a hose cylinder 3 which is closed on its face by a cylindrical recessed face 2. The hose cylinder 3 is connected to a pneumatic pressure source by means of a nipple 13 formed on a housing. The secondary side of the pneumohydraulic pressure transducer is formed by a hydraulic cylinder 4 arranged so as to lie within the recess of the primary side hose cylinder 3 and its front face 2. The piston 5 of the hydraulic cylinder 4 is fixed to the front face 2 of the hose cylinder 3. The hydraulic cylinder 4 itself has an inlet space 7 and a displacement space 8 connected to the inlet line 6. The displacement space 8 is connected to an outlet conduit 14. Between the inlet space 7 and the displacement space 8 is a partition 9 in which a seal 10 is located. The seal 10 cooperates with the piston 5 itself and thus separates the inlet space 7 and the displacement members 8 from one another. Of course, the hydraulic cylinder is also provided with a seal 15 above the inlet space 7. The hose cylinder 3 is held in position by a compression spring 12.

The operation of the pneumohydraulic pressure transducer is as follows. Compressed air is introduced into the inside of the hose cylinder 3 through the nozzle 13, whereby it expands or the front plate 2 moves downward and pushes the piston 5 of the secondary hydraulic cylinder in front of the nail. When the piston 5 passes through the inlet volume 7 and reaches the seal 10, it closes the path between the inlet space 7 and the displacement space 8 while at the same time pushing the oil through the outlet line 14 under high pressure from the displacement space 8. However, when the inflow of compressed air into the hose cylinder 3 ceases, the hose cylinder or its end face 2 returns to its damp position by a spring 12 and retracts the piston 5. The path between the inlet space 7 and the displacement space 8 is again opened.

The pressure transducer according to the invention can be used in addition to pressure transducer for work, too, when the so-called suction and discharge valve is used. check valves must be installed in the inlet 6 and the outlet 14 respectively. When using the rye transducer as a pump, it is advisable to operate several pressure transducers in parallel but at an offset rate to reduce pulsation and to smoothen transport.

Claims (3)

Claims Pneumohydraulic pressure transducer with a pneumatic primary side and a hydraulic secondary side, characterized in that the pneumatic primary side is formed by a hose cylinder (3) having a cylindrical recessed face (2) and a hollow cylinder (3) or a cylindrical recess (2). the hydraulic cylinder (4) forming the hydraulic secondary side is arranged such that the piston (5) of the hydraulic cylinder (4) 188 794 is fixed to the front face (2) having the cylindrical recess itself. Pneumohydraulic pressure transducer according to claim 1, characterized in that the hydraulic cylinder (4) has an inlet area (7) connected to an inlet line (6) and a displacement space (8) detachable therefrom by the hydraulic piston (5). An pneumohydraulic pressure transducer according to claim 2, characterized in that both the inlet space (7) and the displacement space (8) have a cross-section greater than the cross-section of the piston (5) and the partition (9) between the two spaces. 5) has a seal (10) which cooperates with its mantle.