NL8820269A - DEVICE FOR PUMPING LIQUID MEDIA. - Google Patents

Description

8 8 2 0 2 6 9 'N.o. 36189 1 APPLICANT SPECIFIES THE INVENTOR:

PETR IVANOVICH BELOMESTNOV

5 Device for pumping liquid media.

Field of the invention.

This invention generally relates to a pump and fan construction, and more particularly to an apparatus for pumping liquid media.

Background of the invention.

A device is known for pumping liquid media with a housing that receives a rotor in the form of a stack of coaxially arranged disks, and a dividing wall attached to the walls of the housing to form suction and discharge zones (US-A -3-275-223).

In that device, part of the wall of the house has a cylindrical shape. Transfer of the medium from the suction zone to the pressing zone takes place thanks to the forces of viscous friction which arise in boundary layers on the surface of the discs of the rotating rotor. The liquid medium is transported to the suction zone and passed over the inner surface of the cylindrical wall of the housing; the flow then changes its direction by 180 ° and escapes through the press zone. Thereby, part of the flow 25 moves from the pressing zone to the suction zone via the clearance between the discs on the side of the dividing wall to be entrained again by the flow in the direction of rotation of the rotor. However, due to a significant loss of energy associated with the change of flow direction of the medium practically 180 ° and friction as the flow moves at high speed over its cylindrical portion, as well as due to flooding of the medium from the pressing zone to the suction zone via clearances between the discs on the side of the dividing wall, this known device has a low power and efficiency.

There is also known a device for pumping liquid media with a housing that receives a rotor, comprising a shaft with a number of disc elements mounted thereon, and a partition wall attached to the opposite walls of the housing longitudinally of the axis of the shaft to form suction and discharge zones (SU-A-985.WO. A 40 part of the housing wall of this device is cylindrical, while the ** 20269? <2 partition wall on the side of the disks has a comb shape with the combs placed between the discs The liquid medium moves from the suction zone to the pressing zone thanks to the forces of the viscous friction generated at the boundary layers on the surfaces of the 5 discs of the rotating rotor The medium flow is transported to the suction zone, passed over the inner surface of the cylindrical wall of the house, and the direction of the flow changes in the opposite to escape through the pressing zonei The comb-shaped dividing wall d prevents energy losses associated with transferring medium from the pressing zone to the suction zone, although losses of energy associated with changing the direction of flow of the medium in the housing by 180 ° and with the friction as the flow at high speed is fed over its cylindrical part still remains. As a result, no substantial increase in capacity and efficiency is obtained by the known device.

Summary of the invention.

The object of the invention is to provide a device for pumping liquid media with a housing which is constructed such that the liquid medium is pumped in the opposite flow direction at high output capacity.

The objects of the invention are achieved in a liquid media pumping apparatus comprising a housing with walls; a through passage bounded by the walls of the house; a rotor 25 disposed within the housing, an axis of said rotor with a centerline, a plurality of discs mounted on the axis; a dividing wall attached to the walls of the housing lengthwise from the axis of the shaft; a suction zone bounded by the walls of the house and the partition wall; a pressing zone bounded by the walls of the housing and said partition wall; an additional partition wall attached to the walls of the housing longitudinally from the axis of the shaft on the side opposite said partition wall relative to the rotor; an additional suction zone bounded by the walls of the house and the additional partition wall; an additional pressing zone bounded by the walls of the housing 35 and the said additional dividing wall.

The arrangement of the housing of the proposed device for pumping liquid media in the form of a continuous passage, and the installation of an additional partition wall therein, as well as the arrangement of the partition walls on the opposite 4θ sides with respect to the rotor allows to provide two opposite 8920269. 3 flows, each of these dividing walls separating the suction zone from the pressing zone. This results in reduced energy loss due to friction as the currents are passed over the walls of the housing, and prevents energy losses associated with the change of the direction of movement of the flowing medium, thereby significantly increasing the capacity and efficiency of the device.

Brief description of the drawings.

The invention will now be described in more detail with reference to the accompanying drawings, the only figure of which shows a cross-section of an apparatus for pumping liquid media according to the invention taken transversely of the axis of the rotor.

The best embodiment of the invention.

The proposed device for pumping liquid media comprises a housing 1. The housing 1 contains a rotor 2, which consists of a shaft 3 with a number of discs 4 mounted thereon. Attached to the walls of the housing 1 in the longitudinal direction of the axis of the shaft 3 is a dividing wall 5 which delimits a suction zone 6 and a pressing zone 7. According to the invention, the walls of the housing define a continuous passage in which an additional dividing wall 8 is mounted. The additional dividing wall 8 is attached to the same walls of the housing 1 in the longitudinal direction of the center line of the shaft 3 in order to form an extra suction zone 9 and an extra pressing zone 10 in this way. The two partition walls 5 and 8 are arranged on the opposite sides of the rotor 2.

The liquid medium pumping apparatus operates in the following manner.

Since the rotor 2, which includes the shaft 3 with the number of discs 4, is rotated within the housing 1 in a direction indicated by the arrow A, the liquid medium, due to the forces of the viscous friction that forms in the boundary layers at the surfaces of the discs 4 are forced to move in two opposite directions, which form two countercurrents. In one direction, the liquid medium 35 moves from the suction zone 6 formed by the walls of the housing 1 and the partition wall 5 to pass through intermediate disc areas of the rotor 2 to the additional pressing zone 10 bounded by the same walls of the housing and the additional partition wall 8. In another direction, the pumped medium moves from the additional suction zone 9 formed by the walls of the housing 140 and the additional partition 8 to pass through the intermediate disc regions 8820269.

3 • k from the rotor 2 to the pressing zone 7 bounded by the same walls of the housing 1 and the partition 5 ·

In this manner, two countercurrent moving currents are generated in the liquid media pumping device. The direction of each flow remains unchanged, avoiding losses of energy associated with the change of direction of flow of the liquid medium, and losses of energy due to friction due to the flow across the walls of the house are significantly reduced due to the absence of cylindrical parts, 10 resulting in increased efficiency and increased total capacity of the device in the two directions.

Industrial applicability.

Such a device can find use for transferring air in domestic and industrial systems of air ventilation and air treatment, and also to be used as pumps for countercurrent pumping of liquids.

8820269.

Claims (1)

* Device for pumping liquid media into a housing (1) containing a rotor (2), consisting of a shaft (3) with a number of 5 disks (4) mounted thereon, and a dividing wall (5) attached to the walls of the housing (1) in the longitudinal direction of the axis of the shaft (3) to define suction and pressing zones (6 and 7), characterized in that the walls of the housing (1) form a continuous passage provided with an additional divider (8) attached to the same walls of the housing (1) 10 longitudinally from the axis of the shaft (3) to define additional suction and discharge zones {9 and 10), the two dividing walls (5 and 8 are located on opposite sides of the rotor (2). 15 ---------- 8820269. '