RU2285153C1 - Disk pump - Google Patents

Abstract

FIELD: handling liquids containing large solid inclusions.

SUBSTANCE: proposed disk pump has drive disk to which driven disks with central holes are secured. Distance between disks is maintained by means of spacer bushes. Driven disks are movable along rods. Spacer bushes are elastic.

EFFECT: enhanced efficiency.

2 dwg

Description

The invention is intended for moving fluid and can be used in various industries for moving fluid, including containing large solid inclusions.

A well-known disk pump, consisting of a wheel housed in a casing made of several thin discs fastened to each other along the periphery, between which there are small gaps for the passage of fluid, and a discharge device (V.I. Misyura, B.V. Ovsyannikov, V.F. . Prisnyakov. Disk pumps. - M.: Mechanical Engineering, 1986, p.3-4). The design of this disk pump allows for a high head, but excludes the possibility of large inclusions passing through the pump, which is a drawback.

The prototype of the proposed disk pump is a pump for pumping liquids with solid inclusions of large sizes (US patent No. 4335994). A drive disk is attached to the drive shaft of the pump, to which driven discs with central holes are attached using rods. The gaps between the discs are provided by the distance bushings, and the discs are mounted so that narrow gaps alternate with wide ones. The size of the wide gaps should correspond to the size of solid inclusions in the liquid.

The disadvantage of this pump is the low pressure, since the installation of disks with wide gaps occurs due to the reduction in the number of disks.

The objective of the invention is to increase the efficiency of the pump due to the ability to pass large solid inclusions without reducing the pressure.

The problem is achieved in that in a disk pump containing a drive disk, to which driven discs with central holes are attached by means of rods, and the distance between the disks is provided by spacer sleeves, the driven discs are set to move along the rods, and spacer sleeves are made elastic.

The essence of the proposed solution is illustrated by drawings, which shows the design of the disk pump (Figure 1).

The disk pump consists of a housing 1, equipped with a fitting 2 for supplying fluid and a fitting 3 for draining fluid. A drive disk 5 is fixed to the shaft 4, to which the driven discs 7 are attached by means of the rods 6. Elastic spacers 8 (for example, springs) are installed between the discs.

The disk pump operates as follows. The fluid enters the housing 1 through the nozzle 2. When the shaft 4 rotates, the fluid located in the gaps between the disks 5 and 7 is twisted due to friction, and the energy from the rotating disks is transferred to the fluid. The liquid is discharged from the pump through the fitting 3.

If during the pump operation a particle with a size larger than the distance between the disks enters it, it is carried away by the fluid flow into one of the inter-disk gaps, where due to the possibility of moving the disks along the rods, overcoming the elastic force of the spacer sleeves, the distance between the disks increases and the particle transported to the outlet fitting (Figure 2).

After the passage of the particles under the action of the elastic forces of the spacer sleeves, the disks are set to their original position.

Thus, the passage of large solid inclusions through the pump is ensured by the short-term redistribution of inter-disk gaps.

The proposed design of the disk pump has a simple design and combines the ability to provide high pressure, as well as the ability to pump liquid with large solid inclusions.

Claims (1)

A disk pump comprising a drive disk, to which driven discs with central holes are fixed by means of rods, and the distance between the disks is provided by spacer bushings, characterized in that the driven discs are mounted to move along the rods, and the spacer bushings are made elastic.

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