SU1710832A2 - Hydraulic and pneumatic pump - Google Patents

Abstract

The invention relates to pumping equipment. The rigid connection between the piston of the cylinder cylinder and the plunger of the hydraulic cylinder is made in the form of a threaded connection with the possibility of their relative axial movement. The hydraulic cylinder is provided with a rotatable rod installed coaxially with the plunger by means of a compactor with the possibility of the rod engaging the plunger at the upper position of the rod. 1 il.

Description

The invention relates to a pump engineering technique and is an improvement of the invention according to the authors. St. No. 1534220.

The aim of the invention is to expand the field of application of the pump by allowing the simultaneous adjustment of the volume of the working cavity of the hydraulic cylinder.

The drawing shows a schematic diagram of a hydropneumatic pump.

The hydropneumatic pump contains a pneumatic cylinder 1, a rigidly connected hydraulic cylinder 2 and an air distribution head 3.

The pneumatic cylinder has a piston 4 connected by a threaded connection 5 to a plunger 6 located in the hydraulic cylinder 2, in which the suction and discharge valves 7 and 8 are installed to form the working cavity 9.

The piston 4 and plunger 6 are interconnected with the possibility of their relative axial movement.

The hydraulic cylinder 2 has a rotatable rod 11 coaxially mounted with the plunger 6 by means of the seal 10 with the possibility of the latter being engaged with the plunger 6 at the upper position of the rod 11, for example by means of response heads 12 and the seat 13.

The piston 4 is spring-loaded from below by the spring 14 supported on the hydraulic cylinder 2.

The floating valve, made in the form of a rod 15, is installed by the upper part in the opening 16 of the upper cover 17, and the lower part - in the undercut 18 of the piston 4 above the plunger 6 of the cover 17, the floating valve in the form of the rod 15 and the piston 4 form a cavity 19 in the pneumatic cylinder 1 management

In the air distribution head 3 is nipple 20 mounted in the axial hole 21 of the cover 22.

Under the nipple 20 is installed spring 23.

In the retaining cavity 24 is placed a spring 25 and a piston 26, on which a double-sided valve 27 is rigidly fixed.

A nipple 20 with an axial bore 21, a spring: a gland 23 and a floating valve in the form of a rod 15 are installed freely with a clearance (not shown) between the bottom cover 28 of the air distribution head 3 and the nipple 20.

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The axial hole 21 in the nipple 20 in the lower part is closed by a seal 29 installed in the upper part of the rod 15.

The cavity 30, in which the lower part of the nipple 20 is installed, is connected by a radial hole 31 to the atmosphere.

The cavity 24 is in communication with the cavity 32 by the throttle bore 33, made in the piston 26. The cavity 32 is communicated by the hole 34 with a line (not shown) and a cavity 35 between the seats 36 and 37 of the two-way valve 27.

The cavity 35 through the channels 38 communicates with the working cavity 9 and can be communicated with the atmosphere through the central hole 39 in the cover 40 ...

Hydropneumatic pump works as follows.

Compressed air through the opening 34 enters the control cavity 19 ;.

The piston 4 and the plunger 6 rigidly connected with it under pressure of compressed air move downwards, and the fluid from the working cavity 9 is forced out to the consumer.

At the end of the piston stroke, the floating valve-1 pan in the form of a rod 15 moves downwards, which causes a corresponding downward movement of the nipple 20 and compression of the spring 23, after which the nipple 20 is torn off from the rod 15 and the compressed air is released from the retaining cavity 24 to the atmosphere.

When the pressure in the retaining cavity 24 decreases, the two-way valve 27 moves downwards and moves

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the piston 4 with the plunger 6 under the action of the spring 14 and the rod G5 up.

With a repeated increase in pressure in the retaining cavity 24, the pump operation cycle repeats.

To adjust the volume of the working cavity 9 when the pump is stopped, the rotary rod 11 is set in the upper position until the response head 12 and the slot 13 are aligned.

By turning the stem 11, a corresponding rotation of the plunger 6 and the relative axial movement of the piston 4 and the plunger 6 is carried out.

A change in the working cavity 9 causes a corresponding change in the lower position of the floating valve rod 15 during pump operation, which expands the scope of application of the pump.

Claims (1)

Invention Formula Hydropneumatic pump auth. St. No. 1534220, characterized in that, in order to expand the field of application of the pump by providing the possibility of simultaneously adjusting the volume of the working cylinder of the hydraulic cylinder, the pneumatic cylinder piston and the hydraulic cylinder plunger are rigidly connected with the possibility of their relative axial movement, and the hydraulic cylinder is fitted with coaxial with the plunger using a rotary rod seal with the possibility of the latter engaging with the plunger at the upper position of the rod eight