SU785548A1 - Plate-type pump - Google Patents

Description

(54) PLASTIC PUMP

The invention relates to the field of engineering, in particular to vane pumps. Double-acting vane pumps of variable performance are known, comprising a housing disposed in the last ferrule, made composite in the form of two cam rings interconnected by a multidirectional rotation synchronizer, end discs with distribution windows connected to the supply and discharge channels, and the rotor connected to the shaft and provided with a group of blades placed in its radial grooves, each of which contacts the cam surface of one of the rings 1. However, their pump vane) require an increase in the gaps between the groups of blades in the working area of the latter to prevent them from jamming, which reduces the reliability of the pump and its efficiency, as well as impairs the supply and removal of liquid to the pump working chambers, which reduces its cavitation characteristics. The purpose of the image is to increase the reliability and improve the cavitation performance. This is achieved by the fact that in the case between the groups of blades and cam rings there is an additional distribution disk having two pairs of through eyes connected respectively to the supply and discharge channels, and through slots made in the bridges between the windows. Fig. 1 shows the proposed double-acting vane pump with variable capacity, section; FIG. 2 is a section A-A of FIG. 1; on fig.Z - section bb of figure 2; FIG. 4 is a sectional view B-B of FIG. 2 (synchronizer of multidirectional rotation) in FIG. 5, a pump at maximum flow, section; in FIG. 6, the same with partial feeding; 7 - the same, with zero flow; Fig. B shows the interaction pattern of the pump cavities (at zero pump flow). The pump includes a housing 1, a cover 2 in which a shaft 5, On the splines of the shaft is mounted on bearings 3 and 4; 5 is mounted a rotor made in the form of two drums 6 and 7, in the slots of which the groups of blades 8 and 9 are movably mounted, the first of which are in contact with the cam surface of the rotary cam ring 10, and the second - the rotary cam ring 11. The cam rings iO and 11 are placed in the stator rings 12 and 13 and can be rotated into them at some angle. The cam ring 10 has protrusions 14 (see fig: 2), with which it fits into the concentric grooves of the stator ring 12. In case 1, there are end disks 15 and 16 installed from the respective ends of the drums 6 and 7, Between. groups of blades 8 and: 9, barabana ti b and 7, cam

rings 10 and 11 and stator rings: 12 and 13 have an additional distribution disk 17.

The drum 6, the blades 8, the rotary cam ring 10 and the disks 15 and 17 form the working chamber 18, and the drum 7, the blades 9 and the disks 16 and 17 form the second working chamber 19

The concentric grooves of the stator ring 12 closed on both sides by the distribution disks 15 and 17, the outer surface and the projections G4 of the cam ring 10 form a double-sided HYDROCILINDER; In cavities 20 and 21 of which (see Fig. 2) control fluid is supplied, for example, from regulator 22 (the structure of the regulator is not shown in the drawings)

The face disks 15 and 16 each have two pairs of diametrically located distribution outlet 23 and inlet 24 windows, between which bridges 25 are formed.

The additional distribution disk 17 has two pairs of diametrically located through inlet 26 and inlet 27 windows, which are made of the same section with the corresponding windows 23 and 24, and jumpers 28 formed between the windows.

In each jumper 28 of the disk 17 there is made through a neck 29, a width less than the thickness of the blades B and 9.

In the cover 2, distribution discs 15, 16, 17 and stator rings 12, 13, supply channels 30 are provided, which are connected with inlet ports 2 and a slit 29, and discharge channels 31 communicated with injection arc windows 24 and 71 (see Fig. 3).

Insertion ring 12 is made of channels 32 and 33 for supplying fluid from the controller 22 in the cavity 20 and 21 of hydrocales,

The cam rings 10 and 11, forming the cage of a vane pump, have toothed sectors 34 and 35 on the outer surface (see FIG. 2) and are interconnected by a synchronizer of the early-directional vrashenil consisting of two gears 36 and 37 (see. Fig. 4 ) with double toothed rims

Gears 36 and 37 are installed in the stator rings 12 and 13 on the pins 38.

In the stator ring 12, there are stops of maximum 39 and zero feed 40,

The distributor disk 15 is made floating and is pressed in by a cup spring 41, and when the pump is running, it is additionally pressed by the discharge pressure.

The distribution discs 15, 16 and 17 of the stator rings 12 and 13 g) are twisted from turning between themselves and the lid 2 by 1 pin 42 (see fig 3).

The supply of fluid to the pump ocyutecT is through the nozzle 43, and the discharge through the nozzle 44. The internal cavity of the pump is sealed with a cover 45 with the cuff 46 installed in it.

The regulator communicates with the drain line of the fuel or hydraulic system of the object through the nozzle 47.

Works pump as follows. The pump rotor is rotated through the splined end of the shaft 5. Before the pump starts, the pressure of the fluid coming from the pump supply line through the regulator 22 through channel 32 into the cavity 20 (the cavity 21 is connected to the drain line by the cam ring 10 turning in the stator ring 12 up to the maximum feed stop 39. In this case, the cam ring 11, associated with the cam ring 10 by the toothed sector 35 via gears 37 and 36 of the multi-directional synchronizer and the toothed sector 34, is also set to the position maximum DUTY feed

When the rotor rotates, the blades 8 and 9, located in the grooves of the drums 6 and 7, are pressed against the cam surfaces of the respective pivot rings 10 and 11. The fluid from the choke 43 through the feed channels 30 and the inlet ports 23 and 26 of the distribution discs 15, 16 and 17 enters the working chambers 18 and 19. A two-way fluid supply to each of the working chambers 18 and 19 provides the necessary suction conditions,

In the working chambers 18 and 19, the liquid is cut off by the blades 8 and 9 and by the overspeed 25 t 28 of the disks 15, 16, 17, is moved to the discharge zone and through the windows 24 and 27, the discharge channels 31 enters the fitting. 44.

Claims (1)

1. USSR author's certificate No. 567845, M ,, class. F 04 C 1/00, 1975, / J J7 // / J 12 10 6 fig.Z T 15 / 2 29 dL - Q 28 fo