SU1275116A1 - Pumping unit - Google Patents

Abstract

The invention relates to the construction of buildings and can be used in the hydraulic drive of the mine mechanized first supports. The purpose of the invention is more reliable operation. A hydraulically controlled shut-off valve (K) 6 connects the process chamber to the feed pump. The left conical rigidly interconnected K 12 and 13 are mounted in the saddles 24, 25 upot; 1H. Formed subcavian cavities 16, 17 are connected and connected to К 6. Iadklapain cavity 19 communicates with the drain, and the supra-valve cavity 18 through the choke i4 - with the pressure line 9. Distributor I) can be made with elements of preliminary blocking of its flow section . This is achieved in the first variant by the presence of cylindrical bridges 22, 23 on K 12, 13, in the second variant by installing an intermediate sleeve between the saddles 24 and 25. A spool is installed in the sleeve rigidly connected to K 12 and 13 and having two Katsevs. x protrusion on the edge. By this K.-cTui ats Io.io.iNi; telny is blocked, giving rise to a couple of steam, searching for a situation in the process of disconnection of the fluid leakage distributor in the janopHO.M valve. 3 zn f-ly, 3 ill. I ate

Description

The invention relates to pump engineering and can be used, in particular, in the hydraulic drive of mine mechanized roof supports.

The purpose of the invention is to increase the reliability of work.

FIG. 1 is a schematic diagram of a pumping unit; in fig. 2 - a hydraulically controlled valve with elements of preliminary overlapping of seals in the form of cylindrical bridges; in fig. 3 - the same, with elements of preliminary overlap in the form of a spool installed in the sleeve.

The pump installation contains at least one plunger pump 1, the plunger 2 of which is floating and placed in the working chamber 3 with the possibility of mechanical interaction with the drive rod 4, a pump 5 feed, the output of which through the hydraulically controlled check valve 6 communicates with the working chamber 3 of the plunger pump 1, a hydraulic accumulator 7 and a check valve 8 installed on the pressure line 9, and a hydraulically controlled two-way valve 10 with a throttle 11.

The hydraulically controlled valve 10 is made with opposedly spaced and rigidly interconnected two conical valves 12 and 13 installed in the respective seats 14 and 15 of the seals of the distributor 10 to form the valve valve 16 and 17 and the valve valve 18 and 19 with the possibility of their disconnection.

Subvalvular cavities 16 and 17 communicate with each other and are connected to a hydraulically controlled check valve 6.

The over valve valve 18 communicates via the plunger 20 mechanically connected with the cone valve 12 to the control line 21, and the pad valve cavity 19 through the choke 11 to the pressure line 9.

The hydraulically controlled distributor 10 can be made with elements of a preliminary overlap of the flow area of the distributor 10 in the form of rigidly connected with conical valves 12 and 13 and located in the subvalval valves 16 and 17 cylindrical sections 22 and 23, having counter cylindrical seats 24 and 25 or in the form of a sleeve 26 rigidly mounted between conical valves 12 and 13, in the internal cavity 27 of which a spool 28 is located, rigidly connected to conical valves 12 and 13 with the possibility of alternately pre-blocked and the flow section of the distributor 10.

NadkiPapanna cavity 18 is connected to the line 29 drain.

Pump installation works as follows.

The pressurized fluid is supplied by the feed pump 5 through the hydraulically controlled shut-off valve 6 into the working chamber 3 of the plunger pump 1. With the reciprocating movement of the drive brush 4, the plunger 2 displaces with a corresponding

The flow to the pressure line 9 is a liquid that is fed through the check valve 8 to the consumer (not shown). When the flow rate of the liquid supplied through the pressure line 9 decreases or stops, the accumulator accumulator 7 is charged, and then with further pressure increase in the pressure line 9, the conical valves 12 and 13 rigidly interconnected move and the valve core and valve valve are disconnected.

16 and 18 and with the communication of the pressure line 9 through the throttle 11, over valve 19 and subvalval 17 cavity with a hydraulically controlled shut-off valve 6.

The disengagement by the shut-off valve 6 of the pump 5 of the make-up from the working chamber 3 and the plunger pump 1 occurs, the plunger 2 stops at the extreme position, and the plunger pump 1 operates in idle mode.

When a pumped fluid flow in a pressure line 9 occurs, the sub valve valve and the valve valve 17 and 19 are separated and the discharge line 29 is connected through the valve valve 18 and the valve valve 16 with the hydraulic control valve 6.

There is a co-discharge of the pump 5 feed with the working chamber 3 of the plunger pump 1, which begins to pump the pumped liquid into the pressure line 9. The hydraulically controlled distributor 10 can be made with elements of preliminary overlapping of the traveling section of the distributor 10 in the form of cylindrical sleeves 22 and 23 and exhaust cylindrical saddles 24 and 25 or in the form of a sleeve 26 and a spool 28 located in its cavity 27 valves 12 and 13 provide a preliminary overlap of one of the flow areas of the distributor 10.

Performing the installation with a hydraulically controlled valve 10 connected to the pressure line 9 and to the shut-off valve 6 installed at the outlet of the pump 5 to feed the elements of the preliminary blocking of the flow area of the valve 10 ensures the reliability of the pump unit.

Formula inventions

Claims (4)

1. A pump unit containing a plunger pump, the plunger of which is floating out and placed in the working chamber with the possibility of mechanical interaction with the drive rod, a make-up pump, the output of which is connected to the working chamber of the plunger pump through a shut-off valve, a hydraulic accumulator and a pressure sensor installed on the pressure line, and a hydraulically controlled two-way valve with a choke, communicated by a control line with a pressure line, characterized in that, in order to increase the reliability of operation, the valve is hydraulically controlled, and the valve is opposedly arranged and rigidly interconnected by two conical valves installed in the respective seal seats with the formation of subvalvular and suprapalar cavities with the possibility of their alternating disconnection, with the subvalvate cavities interconnected and connected to the hydrofluid valve shut off valve, one over-valve cavity communicates through the plunger mechanically connected to one of the conical valves, to the control line and to the drain, and friend through the throttle - with a pressure line. 2. Installation under item 1, characterized in that the cone valves of the distributor are made with elements of preliminary blocking of its flow area. 3. Installation according to claim 2, characterized in that the pre-blocking elements of the flow section are made in the form of rigidly connected to conical valves and arranged in the subvalval cavities of cylindrical sections, having reciprocal cylindrical seats, with the possibility of alternately pre-blocking the flow area of the distributor . 4. Installation according to claim 2, characterized in that the pre-blocking elements are made in the form of a sleeve rigidly mounted between conical valves, in the inner cavity of which there is a spool rigidly connected with conical valves with the possibility of alternately pre-blocking the distributor through passage. Have Fig-i