SU1276850A1 - Air-driven two-stage pump - Google Patents

Abstract

PNEUMATIC DRIVEN TWO-STEAMED PUMP containing a corus divided by a transverse partition into two cavities, in one of which there is a separate actuating nopnjenb with the formation of working and returning pneumo cavities, which are connected to a source of compressed air and to the atmosphere through the reverse distributor and the other housing cavity - hydraulic working plunger with restrictive collar and concentric to the plunger installed / //; / / l / i, W / {////// / sN vN Y /// Y ////////// , /// l lennaya floating hydropornol, located with education m of a hydraulic cavity, connected to the consumer, and an additional pneumatic cavity, located between the floating hydraulic template and the transverse partition of the hull, characterized in that, in order to increase production, -. Pasos telposti, floating hydraulic piston is made in the form of a glass, installed by the bottom part on the working plunger with the formation of an additional hydraulic cavity between the floating hydraulic pistol and the restrictive shoulder, communicated with the main hydraulic cavity through the throttle channel, made in the form of an annular gap between the folding ram edge and the internal surface of the floating guide (With a piston, and an additional pneumopo, the 1st device is connected through a distributor mouth (Solution to a source of compressed air and to the atmosphere.

Description

The invention relates to hydraulic machines and can be used, in particular, as a pressure source for hydraulic presses and tooling other devices.

The aim of the invention is to improve the performance of the pump.

FIG. 1 is a schematic diagram of a pneumatic two-stage pump; in fig. 2 is a diagram of a pneumodrive two-stage pump with another embodiment of a working plunger and a floating hydraulic piston of a pump.

Pneumatic two-stage pump includes a housing 1, divided by a transverse partition 2 into two cavities 3 and 4, in the first of which is located pneumanimodvodny piston 5 with the formation of working and returning pneumo cavities 6 and 7, which are connected to a source of compressed air through reversing distributor (not shown) and to the atmosphere.

In the second cavity 4 of the housing 1 there is a hydraulic working plunger 9 with a restrictive shoulder 10 and with a constant plunger 9 installed. A floating hydraulic piston 1 1 with the formation of a hydraulic cavity 12 connected to a consumer (not shown) and an additional pneumatic cavity 13 located between the floating hydraulic head 11 and a transverse partition 2 of the housing 1 and connected via pacnpe; ie the power device 8 to the source of compressed air and to the atmosphere.

Floating gearbox 1 1 is made in the form of a cup 14, installed by the bottom part 15 on the working plunger 9 with the formation of an additional hydroneole 16 connected to the main hydropulum 12 through the throttle channel 17, made in the form of an annular gap between the collar And ) the plunger 9 and the inner surface of the float tsego hydropower 11.

Floating hydraulic piston 11 can also be made with an annular protrusion 18 (Fig. 2) located inside the L-shaped made restrictive collar 10.

Pneumatic two-stage pump works as follows.

When compressed air is supplied to the working cavity 6 and the return pneumatic cavity 7 communicates with the atmosphere, the pneumatic actuator piston 5 (Fig. 1) moves to the left together with the hydraulic working plunger 9 and also with the floating hydraulic piston 11, since the additional pneumatic cavity 13 simultaneously with the working hydraulic section 6 is connected through reversing switchgear 8 to a source of compressed air.

From the hydronic bore 12, the liquid is displaced to the consumer (not shown) in the injection line.

Since to ensure normal operation of the pump, the ratio of the area of the crawler, ero hydraulics 1 1 from the side of the additional pneumatic cavity 13 to the annular area formed by the external diameters of the main and additional hydraulic cavities 2 and 16, is equal to the area of the pneumatic actuator piston e to the area of the restriction collar 10 the sides of the main hydraulic cavity 12, then the working plunger 9 with the floating hydraulic piston 11 does not move in the cavity 4 of the housing 1 together.

When the pressure increases in the main hydraulic cavity 12, fluid flows into the additional hydraulic cavity 16 through the throttle channel 17, which causes some relative movement (divergence) of the working plunger 9 and the hydraulic piston 11.

The magnitude of this relative displacement is determined by the hydraulic resistance in the throttle channel. 17 and in the initial period of operation of the pump, at low

 The pressure in the OCHOBHOII hydrodisturbate. 12 The restrictive shoulder 10 of the working plunger 9 does not come out during its displacement from the floating hydroporon I, made in the form of a glass.

0 ..

When connecting the return nvomoleosti 7 through the reversing distributor device 8 to the source of compressed air and the working pneumatic cavity 6 and the additional pneumatic cavity 13 with the atmosphere, the pumped liquid is sucked into the main hydraulic cavity 12 and the liquid is displaced from the additional hydraulic cavity 16 into the main hydraulic hammer 12. Hydraulic working plug 9 and 1 sliding piston 11

0 restore their original mutual position.

After reaching the upper limit of the low pressure stage in the main hydraulic cavity 12, the fluid flowing through the throttle channel 17 into the additional hydraulic cavity 16 displaces the working plunger 9 from the internal hydrating piston 11. At the same time, the working plunger 9 displaces the liquid from the main hydraulic cavity 12, and the floating hydraulic piston 11 remains in its initial position.

When the non-pumped liquid is sucked into the main hydraulic cavity 12, the floating hydropist 1 1 moves counter to the working plunger 9 due to a decrease in pressure in the main hydraulic cavity 12.

With the initial location of the restrictive collar 10 working plunger 9

Inside the floating hydraulic piston 11, an increase in pressure occurs in the additional hydraulic cavity 16, as a result of which the floating hydraulic piston 1 1 begins to move together with the working plunger in the direction of their initial position (intensive suction period). The displacement of fluid from the additional hydraulic cavity 16 to the main hydraulic cavity 12 occurs until the working plunger 9 and the floating hydraulic piston 11 take their initial initial position in the cavity 4 of the housing 1.

The pumping of fluid to the consumer continues until the pressure of the fluid to the main hydraulic cavity 12 equilibrates the air pressure on the drive piston 5. When the pressure in the main hydraulic cavity 12 decreases, the pump starts working automatically according to the described scheme when pumping liquid to the consumer with a single working plunger 9 or together with floating hydraulic piston 11, depending on whether there is a pressure in the main hydraulic cavity 12 of a correspondingly high or low level.

Claims (1)

TWO-STAGED PNEUMATIC PUMP, containing a casing divided by a transverse baffle into two cavities, in one of which a pneumatic drive piston is formed with the formation of a working and return pneumatic cavities, which are connected through a reversible switchgear to a source of compressed air and to the atmosphere, and in the other cavity of the casing a working plunger with a restrictive collar and a concentric plunger mounted floating hydraulic piston, located with the formation of a hydraulic cavity connected to fighter an, and an additional pnevmopolosti situated between the floating body gidroporshnem and transverse partition, characterized in that, in order to increase productivity. pump telnosti floating gidroporshen formed as a cup mounted on the bottom part of the operating plunger to form between the floating gidroporshnem and limiting collar further gidropolosti communicated with the main gidropolostyu via a throttle channel arranged in an annular gap between the plunger collar and the inner surface of the floating hydroxy _Λ rupture, and an additional pneumatic cavity <g is connected through a switchgear to a source of compressed air and to the atmosphere. SU „„ 1276850