SU71663A1 - Multi-cylinder, non-valve, variable-capacity pump with a star arrangement of cylinders - Google Patents

Description

According to the invention, in the proposed multi-cylinder non-valve pump, a cylindrical distributor is used, the rotor of which rotates together with the eccentric shaft of the pump and sequentially connects the soil of the cylinders to the suction and discharge chambers and forcibly moves along its axis, turning on or off the individual sections of the pump, in order to change its performance.

FIG. 1 shows the proposed pump in longitudinal section; in fig. 2 - in cross section; pas figs. 3 - in the longitudinal section of the distributor; in fig. 4, 5 and 6-section of the distributor along the lines aa; bb and ss.

The proposed pump consists of a cylindrical body / star-shaped arrangement of cylinders 2 with working plungers 7, driven in reciprocating motion by eccentric 4 of eccentric shaft 6.

The plungers 7 are located in three parallel planes, with three plungers in each plane, in each row one of them is the master and two followers.

Variable performance is achieved by moving the cylindrical distributor 8 to the right or left of the neutral position, i.e. by switching on or off part of the plungers that feed the pressurized fluid to the line.

The rotation of the distributor 8 is carried out from the eccentric shaft 6 through the coupling 9.

The plungers 7 under the action of the connecting rods 3 and the common eccentric 4, on which three sections of the connecting rods 3 are placed, rotating in three separate ball bearings 5, when the shaft 6 is rotated, reciprocating movements are obtained.

When the plunger travels downward, the process of suction occurs, and during the upward stroke, the injection takes place.

The distribution of the phases of injection and suction is carried out by a cylindrical distributor 5, which is a hollow shaft 11, on which textolite discs 14 with leather gaskets 15 are mounted and fixed with nuts 13.

In order to discharge from one-sided pressure, the distributor 8 is hydraulically balanced by the introduction of the grooves 12 (Fig. 5). So

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therefore, the force for its rotation and axial movement is minimized.

Since the period of suction occurs, and the eccentric 4 rotates along an arc of 180 °, then when crossing the boundary, the plunger 7 begins to reverse, i.e., discharge. But when the eccentric 4 is turned at the specified angle, the distributor shaft 8 is turned to the same angle, at which the suction chamber is in the new position. In this case, the injected fluid enters the injection chamber 19 and then through the openings 20 into the channel 25 and through the check valve 21 enters the assignment.

The drawing shows a position in which the valve is in an average neutral position (not shifted either to the right or left), the fluid circulates inside the pump, i.e. it is sucked in and returns to the cavity 18 and channel 17 again.

If you move the valve to the right or left so that the holes 22 (Fig. 3) are: included in the action, the pump flow will be only Vs of its performance.

If two rows are turned on, the capacity will be 2 / j, while one bottom of the blocked holes will not participate in the pumping operation, but will only distil the liquid inside the pump.

 all three rows of openings will be open, the pump will operate at full capacity and in this case, the protrusion 23 will take the position 24.

During pump operation, at any time, there are four plunger in the suction state and four plunger in the injected state, and one plunger is used and the overlap of the simultaneous injection and suction is used.

Subject invention

A multi-cylinder, variable-valve, non-valve pump with a star-shaped arrangement of cylinders in three parallel sections, characterized by the use of a cylindrical distributor whose rotor rotates with the eccentric shaft of the pump and sequentially connects a group of cylinders to the suction and discharge chambers, and also forcibly moves along its axis, including or disconnecting the individual sections of the pump from work in order to change its penetrability.

FIG. 4 Section ss

Fng. 5 Section aa

FIG. five

Section S - (5

ha