SU918513A1 - Pneumatically /hydraulically/ driven pump - Google Patents

Description

(54) PNEUMATIC DRIVE HACOG

one

The invention relates to a pump engineering industry, relates to pneumo-hydraulically driven pumps and can be used in various industries of the national economy for hardening various fluids. A pneumo-hydraulic actuating pump is known that contains actuator chambers displacing the unit connected to the distributor in a cylindrical bore of which has a valve chambers under the ends of its shanks, communicated with control channels to the main power line and control device interacting with th displacement unit 1.

The disadvantages of this pump are the complexity of the design and its lack of reliability due to the low reliability of fixing the spool to the extreme positions and the relative complexity of the control device.

The purpose of the invention is to simplify the design and increase the reliability of the pump.

The goal is achieved by the fact that the control device is made in the form of normally open controlled valves.

interacting with the stem in the extreme positions of the pressure block, and on the cylindrical surface of the bore of the switchgear housing in the zone covered by the spools of the slide valve in its extreme positions. The windows provided by the additional control channels to the power line are made, and chokes are installed in the additional control channels.

In the casing 1 of the pump B) the chambers are filled

10 of the actuator 2 and 3 of the pressure block 4, consisting of two membranes 5 and 6, connected by a brush 7. The actuator chambers 2 and 3 are connected by channels 8 and 9 with a distribution device, in the cylindrical bore of the housing 10 of which there is a spool 11 with chambers 12 and 13 under the ends of its shanks 14 and 15. Cameras 12 and 13 communicate with control channels 16 and 17 with supply line 18 and control channels 19 and 20 with a control device consisting of normally open control valves 21 and 22 having an outlet to the cavity 23 of the housing 1 communicated with the discharge (atmosphere). In the cavity 23 is placed the end of the shaft 7, provided with a collar

24 for interacting with the valves 21 and 22. On the cylindrical surface of the bore of the housing 10 of the distribution device in the zone overlapped by the shanks 14 and 15 of the spool 11 in its extreme positions, windows 25 and 26 are provided, communicated by Additional control channels 27 and 28 to the supply line 18 In channels 27 and 28, chokes are installed, for example, in the form of local narrowing of channels 27 and 28. Membrane 5 forms a pump chamber 29 with suction 30 and discharge 31 valves.

The device works as follows.

When the driving medium is supplied to the supply line 18, displacement unit 4 begins to move. The direction of movement of the displacement unit 4 depends on the initial position of the spool 11.

In the position shown in the drawing, the displacement unit 4 is moved to the left and the pumped medium from the pump chamber 29 is forced through the discharge valve 31 to the consumer. When approaching the extreme left position, the collar 24 of the rod 7 closes the valve 22, shutting off the output of the driving medium from the control channel 20 to the cavity 23, and further to the drain. The pressure in the chamber 13 connected by the channel 17 to the supply line 18 rises and the valve switches to the lower position, in which the camera of the drive 2 communicates with the drain and the camera 3 to the supply line 18.

The displacing unit 4 begins to move to the right and the pump chamber 29 is filled with the pumped medium through the suction valve 30. When approaching the rightmost position, the collar 24 of the rod 7 presses the valve 21 and closes it. At the same time, the output of the drive medium from the channel 19 to the cavity 23 is blocked, the pressure in the chamber 12 connected by the channel 16 to the supply line 18 rises, and the spool moves to the upper position, in which the chamber 2 is connected to the supply line 18, and the chamber 3 - with plum. The pump cycle is repeated.

In the extreme positions, the spool 11 is fixed at the expense of the pressure difference in chambers 12 and 13. This pressure difference is ensured by the fact that in the extreme position of the spool 11 one of its shanks 14 or 15 covers the corresponding window 25 or 26. The second of the windows 25 and 26 is open at this time. At the same time, the drive medium enters one of the chambers 12 or 13 (see drawing), only through channel 17 (since window 26 is blocked by a shank 15), and to another chamber - chamber 14 - through channel 16 and channel 27 with a throttle (so how the window is open). Due to the difference in resistances of one and two parallel channels, a larger amount of driving medium enters chamber 12 than into chamber 13. The resistances of channels 19 and 20, through which the drive medium diverts chambers 12 and 13, in the same way. Consequently, pressure in chamber 12 is greater than in chamber 13. When the spool 11 is switched to the lower position, it is also held by the pressure difference during the entire stroke of the displacement unit 4. In this position, the window 14 is closed by the shank 14, so the pressure in the chamber 13 is higher. in chamber 12. Thus, the technical means ensure reliable fixation of the spool in each of the extreme positions and simplifies the design of the pump.

Claims (1)

Invention Formula A pneumatic-hydraulic drive pump comprising a drive chamber of the pressure block, communicated by channels with a distribution device, in the cylindrical bore of the case of which there is a flash drive with chambers under the ends of its shanks, communicated by control channels with a supply line and a control device that interacts with the pressure block of the pressure unit, that, in order to simplify the designs and increase the reliability of operation, the control device ("The design is made in the form of normally open controlled valves, interacting with the stem in the extreme positions of the displacement unit, and on the cylindrical surface of the bore of the switchgear housing in the zone blocked by the spools of the slide in its extreme positions, windows are provided with additional control channels to the supply line, and chokes are installed in the additional control channels. Sources of information taken into account in the examination 1. USSR author's certificate in application No. 2443009/06, cl. F 04 B 43/06, 1976. g 1 39 5 3 21 19 23 1 12 25 n 16