SU1536062A1 - Screw pump - Google Patents

Abstract

FIELD OF THE INVENTION The invention relates to hydraulic engineering, relating to the pumping of medium in hydraulic automation systems. The invention improves dynamic performance by changing the direction of the pumped medium. For this, the pump is equipped with an electromagnetic drive (P) 5 of the translational type, screws (W) 3 and 4 are made in the form of springs of different stiffness, each of W 3 and 4 fixed by one of the ends on bushings 6 and 7 located on the shaft (B) 2, and one of the sleeves 6 and 7 is connected with П 5. Changing the direction of the pumped medium is made by rotating В 2 due to compression and stretching Ш 3 or 4 without stopping and reverseing В 2, which improves the dynamic characteristics of the pump. 2 Il.

Description

The invention relates to hydraulic engineering and can be used in hydraulic automation systems for pumping and pumping liquids.

The purpose of the invention is the improvement of dynamic characteristics when changing the direction of the pumped medium.

In FIG. 1 shows a screw pump, section; in FIG. 2 — section A — A in FIG. 1.

The pump comprises a housing 1, a shaft 2 located therein and two coaxial screws 3 and 4 mounted on the shaft with oppositely directed turns. The first 3 and second 4 screws are made in the form of a spring. The pump is equipped with an electromagnetic actuator 5 of the translational type and two bushings 6 and 7 located on the shaft 2 and interconnected by an elastic element

8. The latter can be made in the form of a spring with a stiffness exceeding the stiffness of the screws 3 and 4.

The bushings 6 and 7 are mounted on the shaft 2 with the possibility of translational movement and are connected with it by means of a spline connection (Fig. 2).

The pump is also equipped with two rings 9 and 10, movable relative to the sleeves 6 and 7 and covering the latter. The screws 3 and 4 are installed in series, and the rigidity of the second screw 4, made in the form of a spring, is greater than the rigidity of the first screw

3. Rings 9 and 10 are located at the ends of the housing 1, each of the screws 3 and 4 is fixed at one end on the sleeve 6 and 7, the other on the ring 9 and 10, and one of the bushings, for example 6, is connected to the drive 5. In the case 1 can be made channels 11 and 12.

The pump operates as follows.

The second screw 4, having greater rigidity, is elongated in a spiral in the initial state, and the first screw 3, having lower rigidity, is compressed into a flat disk in the initial state. When rotating the shaft 2 with the bushings 6 and 7, the second screw 4 pumps fluid from right to left (from channel 12 to channel 11). Moreover, the rings 9 and 10 can reduce friction between the end surfaces of the housing 1 and the screws 3 and 4.

If necessary, change the direction of the fluid handled, voltage 4 is applied to the electromagnetic drive 5. The bushings 6 and 7 are moved towards the drive 5. In this case, the first screw 3 is pulled into a spiral, and the second screw 4 is compressed into a flat disk. The rotation of the shaft 2 together with the bushings and screws causes the fluid to move from left to right (from channel 1 G to channel 12) due to the interaction of the turns of the second screw 4 with the pumped medium.

When the electromagnetic drive 5 is turned off, the second screw 4, which has greater rigidity, is pulled into a spiral, compressing the first screw 3 of lower rigidity, which causes the opposite direction of the pumped medium. The use of the elastic element 8 can prevent the occurrence of water hammer when changing the direction of the pumped medium.

Changing the direction of the pumped medium 20 is carried out during the rotation of the shaft 2 due to compression and extension of the corresponding screw 3 or 4 without stopping and reversing the shaft, which increases the speed of the device and improves its dynamic characteristics.

Claims (1)

Claim A screw pump containing a housing, a shaft placed in it and two coaxial screws with oppositely directed turns installed on the 30 shaft, the first of which is made in the form of a spring, characterized in that, in order to improve the dynamic characteristics when changing the direction of the pumped medium, the pump is equipped with an electric 35 with a translational-type magnetic drive, two bushings located on the shaft and connected by an elastic element, and two rings movable relative to the bushings and covering the latter, screws ^{0 are set in} series, the second screw is made in the form of a spring with a stiffness greater than the first screw, the rings are located at the ends of the housing, each of the screws is fixed at one end on the sleeve, the other on the ring, and one of the bushings is connected to the drive. -l FIG?