SU579450A1 - Sliding vane pump - Google Patents

Description

(54) SHIBER PUMP

I

The invention relates to a pump-building, which can be used, for example, for the forced supply of lubricant, in refrigeration compressors, with an integrated electric motor.

Known slide valves for hopping compressors, consisting of a rotor and two contactors with spring pressure. The reversal of the pump supply when changing the direction of rotation of the drive shaft is performed by changing the position of the rotor relative to the shaft 1.

A disadvantage of the known pump is the weakening of the shaft strength due to the radial and face drilling.

The chain of the invention is to increase the strength of the drive shaft by changing the distribution system.

This is achieved by having a distributor fixed on the drive shaft, provided with channels for suction of the liquid and forcing it into the high-pressure chambers.

Fig, 1 shows the pump, a longitudinal section; in fig. 2 - section A-A of FIG. 1 (when the direction of rotation is hinge-hops); Fig, 3 is a section BB of Fig, 2; in fig. 4 - section fts-. 1 (when spinning counterclockwise) J in FIG. 5 is a sectional view of FIG. four.

An axial rotor propellant 1 is mounted on the drive shaft 2i. After the rotor, the valve 3 is fixed with the possibility of axial movement on the shaft. The key 4 with the spring 5 presses the rotor and distribute to the wall 6 of the socket 7, extruded in the stator 8.

The distributor 3, made in the form of a disk, is connected to the shaft 2 motionlessly by means of a key 9, and the rotor 1 can rotate relative to the shaft through a definite angle due to the width of the groove 10. In the stator 8 there are two gates 11, which are springs 12 pressed to the rotor 1, whereby the working cavities of the pump 13-15 are formed.

On the working surface 1c of the rotor 1 there are two chambers 17 and 18, which are alternately connected with channels 21-23 in the distributor 3 by holes 19 and 2O of the connection port (depending on the direction of rotation)

In this case, only two channels are connected to the rotor at the same time: 21, and 22 with right rotation, 22 to 23 - with left rotation. The third distributor channel (23 in the first case and 21 in the second) remains in effect, since it faces the end of the rotor 1.

The channels 211 and 23 communicate with the vertical channels 24; and 25, which in turn communicate with the annular channel 26. The last holes 27-29 connect with the crankcase 30.

The cavity 31 enclosed under the cover 32, through the opening 33, communicates with the high pressure collar 34. The pin 35 mounted in the power adapter 36 protects the cover 4 from being twisted, not preventing its axial movement at the same time.

When the shaft 2 rotates clockwise (Fig. 1), by increasing the volume of the cavity 14, as it rotates, fluid is sucked through the holes and channels 19, 21, 24, 26, 27, 28, and 29 into chamber 17, and from there into the cavity 14, and the cavity 13 stiles the injection and out of it through the injection chamber 18, orifice 20, 22, high pressure collector 34, the liquid enters the cavity 31, from where it passes through the channel in the shaft 2 to the place of consumption. In this position, channels 23 and 25 are not zadvyvstvova. The cavity 15 may be either a suction or an injection.

When the shaft rotates counterclockwise (Fig. 4) by changing the position of the rotor 1 relative to the shaft 2 (key 9 in this case abuts against the opposite wall of the groove 10), the valve 3 changes its position relative to the rotor 1 such

Thus, previously unused channels 23 and 25 are aligned with the hole 20 in the rotor and become suction. Through them, the fluid fills chamber 18, which is (1-suction suction, as well as cavity 13. Accordingly, channel 22 is aligned with hole 19, and is injection as the cavity 14 communicates with injection-collector.

Channel 21 becomes unused and does not participate in the distribution of the fluid.

Making the distributor in the form of a part fixed on the drive shaft with channels for suction of the liquid and forcing it into the high pressure chambers can significantly increase the strength of the drive shaft.

Claims (1)

Invention Formula A sliding pump with reversible rotation of the drive shaft containing a rotor pusher placed inside a stator equipped with a high pressure manifold communicated through a distributor to the pump discharge chambers, characterized in that with the increase circuit of the drive shaft, the distributor is in the form of a disc pressed to the rotor channels for communication of the injection chambers with the collector fixed on the shaft and secured against rotation. Sources of information taken into account in the examination: .one. Noriti F.1 Ki Si Kore K sealed and hermetic compressors (Kais bushes, Reito kute ginjutsu, 1970, 21, No. 242, p. 63-68. h 36 3S n