SU241226A1 - ROTARY PISTON PUMP - Google Patents

Description

Rotational rotary pumps with valve distributor and capacity control are known by bypassing the corresponding part of the liquid through the suction valve, which is forcibly kept open during the part of the pressure stroke of the control fluid supplied by the controlled diluent.

The described pump differs from the known ones in that its controllable distributor is made in the form of a distribution sleeve, mounted co-axially with the pump's drive shaft with the possibility of its axial movement. bridges and the formation of separate zones, each of which is permanently associated either with a drain or with a source of control pressure, and the valve valve mouth is nnyh in the pump housing inlet valves or their associated parts during rotation of distributor sleeve alternately in communication with said zone for forcibly opening the corresponding intake valve and hold it open for a period B, defined by the axial position of the distribution profile and -vtulki

its jumpers, defining the law of change of pump flow.

In addition, the recesses on the surface of the distribution sleeve are located and

are profiled to ensure its hydraulic unloading, and the channels for communication of the corresponding zones on the distribution sleeve with a source of control pressure and with a drain are made in the pump casing and an additional sleeve fixedly fixed in it, coaxial with the distribution sleeve.

With this design, infinitely variable flow control is achieved with little control, unaccented suction valves are installed and the service life of the pump is increased.

Pa drawing shows schematically described the pump.

The pump contains a corus /, in the bores of which, piston propellants 2 of the working fluid are located opposite the drive shaft axis parallel to the axis of the drive shaft on rigid disks 5 rigidly connected

with a drive shaft 4. In the radial bores of the housing, there are suction 5 and pressure-suppressing 6 valves loaded with springs. A sleeve 7 is pressed into the pump casing, with respect to which the extension 10 of the mechanism for controlling the feed and the drive shaft of the pump rotates.

During the rotation of the pump drive shaft, the aclone discs associated with HEM rotate, which reciprocate the working pistons of the pump. At the same time, the distributor sleeve 8 rotates, having on its surface a closed zone, the inner part of which is in communication with the pump carter, i.e. with the plomo-m. Around this zone is a zone connected to the source of control pressure through the pump corulus and the sleeve 7 pressed into it. The position of the distribution sleeve 8 is angularly and strictly synchronized with the inclined disk position.

When the pump drive shaft rotates, the fluid pressure acts directly or through the Intermediate element on the suction valves of those pistons that are in the intake stroke, and, overcoming the resistance of the spring L, opens the suction valve 5. The fluid from the pump crankcase flows into the piston chamber, filling the working chamber .

From under the intermediate elements 12 of the piston suction valves, which are in the discharge stroke, fluid is drained into the pump crankcase, and the valves are closed by the action of a spring and. The liquid displaced by the pistons raises the discharge valve 6 and enters the pump outlet manifold.

Regulation of the pump landing is carried out due to the fact that each suction valve can be under the control pressure a greater or lesser part of the rotation angle of the drive shaft, and hence the distribution sleeve 3, therefore in the pump cross-section through the diametrical plane valves, there is a certain part of the closed zone, made on the surface of the distribution sleeve 8. If on the part of the working stroke of the piston the suction valve is raised relative to its seat because of the pressure exerted on it by the control, then this part of the stroke turns out to be idle (fluid returns to the crankcase) .- 4

Depending on the above reasons, this single part of the working stroke of the piston

varies from O to the maximum, and pump iodation from the maximo to O, respectively.

When regulating iodachi working fluid, the mass of moving parts is insignificant, so the inertia of the control mechanism is minimal.

Subject invention

1. Rotary piston pump with valve distribution and capacity control by Bypassing the corresponding part of the fluid through the suction valve, forcibly kept open during the pressure stroke part of the control fluid supplied by the control distributor, in order to reduce the control force and increase the life of the pump, the controlled distributor is filled in the form of a distribution sleeve, installed in cooperation with the drive pump with possibly its axial movement during adjustment and associated with it for joint rotation, having recesses on the outer cylindrical surface, bounded by profiled bridges and forming separate ashes, each of which is permanently connected either with a drain or with a source of control fluid for alternating communication (subvalvular spaces installed in the corus of the suction valves or related parts with the packing

sleeve when the shaft rotates and forcibly open the corresponding suction valve and keep it open for the period specified by the axial position of the distribution sleeve and the profile of jumpers between the zones determining the change in pump flow.

2. A pump according to claim 1, characterized in that, for the purpose of hydraulic unloading the distribution sleeve, on its outer surface |

the corresponding additional recesses are made, and the channels for communication of the said zones with the SLIM and with the source of control pressure are made in the pump casing and in the additional sleeve fixedly fixed in it, coaxial with the distribution sleeve. Pressure7 control Injection y /