SU1109532A1 - Variable capacity pump - Google Patents

Abstract

H:; GULI UKM MY 11 u.:C, .ch) holding), in llyndrch KOMCECh H with

Description

The invention relates to a pump engineering industry, concerns adjustable pumps, and may find application in various sectors of the national economy for dosed supply of a fluid, as well as in systems _ς we regulate s x d idro; ι ri waters.

Known adjustable pump, comprising a housing, in the cylinder of which with the formation of the working chamber is installed a moving piston-displacer, connected through a spring element with a drive return- ¹⁰ no-post and other moving bodies, interacting from the side of the working chamber with an emphasis and having a stroke length regulator [1],

A disadvantage of the known pump is the lack of the ability to remotely control 11 advanced devices.

The purpose of the invention is the provision of remote control of the pump.

To achieve this goal, with a 70 adjustable pump containing a casing, in the cylinder of which, with the formation of the working chamber, a movable nails displacer is installed, connected through a spring element with a reciprocating drive 75, interacting from the side of the working chamber with an emphasis and having a stroke length regulator, the displacer piston is stepped and located in the cylinder with the formation of an annular control chamber, and the stroke length regulator 30 is made in the form of an external source of control pressure, under assigned to the control chamber.

The drawing shows the proposed pump. 35

The adjustable pump comprises a housing 1, in the cylinder 2 of which, with the formation of the working chamber 3, a movable piston-displacer 4 is installed, connected through a spring element 5 to the actuator 6 of the return / forward movement. The piston displacer 4 interacts from the side of the working chamber 3 with a stop 7. In this case, the piston-displacer 4 is made stepwise and is located in the cylinder 2 with the formation of the annular control chamber 8. ⁴⁵ Naso has a stroke length regulator of the displacer 4, which is made in the form of an external control pressure source . (not shown) connected to the control chamber 8. The working chamber 3 _{5Q. is} equipped with a suction 9 and discharge

II; valves. The drive 6 is equipped with a piston 1 I.

When the reciprocating movement of the actuator 6 movement through the spring element. 5 is transmitted to the displacing piston 4. The stroke of the displacing piston 4 towards the chamber 3 is limited by a stop 7. In the absence of a control pressure Rupr in the control chamber 8, the spring element 5 constantly presses the displacing piston 4 against the stop 7. In this case, the displacement of the displacing piston 4 does not occurs and the pump does not create a feed. If a certain control pressure P _{control is} applied to the control chamber 8, then the spring element 5 is compressed by a certain amount, balancing 13 the end of the suction stroke - the beginning of the discharge stroke force from the action of the control pressure Ruvre. The magnitude of the deformation of the spring element 5 is proportional to the control pressure P _u p n determines the initial position of the displacer piston 4 and the magnitude of its stroke in the discharge stroke until it contacts the stop 7, and consequently, the pump cycle. The maximum flow rate of the pump reaches at this pressure control Rupr. μs, in which the piston-displacer 4 completely compresses the spring element 5, rests on the piston 11 and moves with it until it contacts the stop 7. At intermediate control pressures Rupr, at the beginning of the pumping stroke, piston 1 I moves to the left along the drawing, compressing the spring element 5 until the force from the side of the latter balances the force against the discharge pressure acting in the chamber 3 on the discharge stroke. In the extreme case, with a sufficiently high discharge pressure, the piston 11 compresses the spring element 5 until it abuts against the displacing piston 4. and then moves together with the latter until it stops 7. If the discharge pressure is relatively small, then the movement of the piston the displacer 4 begins when the spring element 5 is not fully compressed, and its compression occurs after the piston-displacer 4 rests on the stop 7, while the piston 11 continues to move to the left until it contacts the piston-displacer 4.

The execution of the control chamber 8 in the pump and the supply of pressure to it from an external source of control pressure (not shown) makes it easy to remotely control the pump.

Soeta frost. ii, B. I'ruz11noy

Claims (1)

RERU NIVUSHIVAYA VATHYKH containing the case, in kotsrssoo with SU .... 1109532