FI95499C - Apparatus for pumping a liquid medium - Google Patents

Description

95499

Device for pumping a liquid medium

FIELD OF THE INVENTION This invention relates generally to pump and wind 5 road structures, and more particularly to an apparatus for pumping a liquid medium.

Background of the invention

A liquid medium pumping device is known in the art, which has a body in which a rotor 10 made in the form of concentrically arranged round plates is placed, it also has a partition wall fixed to the walls of the body so as to form suction and pressure zones (US, A, 3,275,223).

In this device, part of the body wall is a cylinder ποιοι 5 second. The transfer of the medium from the suction zone to the pressure zone takes place due to the forces of liquid friction, which originate from the boundary layers of the surface of the plates of the rotating rotor. The liquid medium is transferred to the suction zone and passes over the inner surface of the cylindrical wall of the body; the flow 20 then changes direction 180 ° and flows out through the pressure zone. Thereafter, part of the flow moves from the pressure zone zone to the suction zone through the free spaces between the plates on the partition wall side to be re-energized in the direction of rotation of the rotor. Due to the considerable energy loss associated with changing the direction of fluid flow in the body virtually 180 as well as friction as rapid flow passes over its cylindrical portion, and also due to fluid overflow from pressure zone to suction zone through plate spacers on the bulkhead 30 and efficiency, however, are low.

Also known in the art is a liquid medium pumping device having a body with a rotor comprising a mandrel to which a plurality of plate members are attached, the device also having a partition wall mounted on opposite walls of the body 2 95499 longitudinally from the mandrel shaft to form suction and pressure zones (SU, A, 985 444). Part of the body wall of this device is cylindrical, while the shape of the partition wall on the plate side is cage-like 5 and the cages are placed between the plates. The liquid medium moves from the suction zone to the pressure zone due to the forces of liquid friction generated in the boundary layers of the surfaces of the plates of the rotating rotor. The flow of medium transfers to the suction zone, passes over the inner surface of the cylindrical wall of the body and changes the direction of the flow counterclockwise to leak out through the pressure zone. The cage-like septum prevents energy loss associated with the transfer of medium from the pressure zone to the suction zone, although there is still energy loss associated with changing the direction of medium flow 180 ° in the body and friction as rapid flow passes over its cylindrical portion. As a result, such a prior art structure does not achieve a significant increase in capacity and efficiency.

SUMMARY OF THE INVENTION It is an object of the invention to provide a liquid medium pumping device having a body constructed to ensure countercurrent pumping of a liquid medium and to have a good production capacity.

The objects of the invention are achieved by a device for pumping a liquid medium, the body of which comprises a rotor comprising a mandrel to which a plurality of plates are attached and a partition wall fixed to the walls of the body longitudinally along the mandrel axis so as to define suction and pressure zones. and characterized in that the walls of the body form a passage channel provided with an additional partition wall fixed to the same body walls longitudinally along the axis of the mandrel so as to define additional suction and pressure zones, the two partitions being arranged on opposite sides with respect to the rotor.

The arrangement of the body of the liquid medium pumping device shown in the form of a passage channel and the possibility of adding an additional partition to it, as well as the placement of partitions on opposite walls with respect to the rotor, allow two countercurrent currents, each separating the suction zone from the pressure zone. As a result, the energy dissipated by friction is reduced as currents flow over the walls of the body and it also prevents energy loss associated with changing the direction of movement of the liquid medium, thus significantly increasing the capacity and efficiency of the device.

Brief description of the drawings

The invention will now be described in detail with reference to the accompanying drawings, the sole figure of which shows a part of a liquid medium pumping device 20 according to the invention, taken transversely to the axis of the rotor.

Best Mode for Carrying Out the Invention

The liquid medium pumping device shown comprises a body 1. In the body 1 there is a rotor 2 containing a mandrel 3 to which a plurality of plates 4 are attached. A partition wall 5 is fixed axially to the walls of the body 1, defining a suction zone 6 and a pressure zone 7. The walls of the body define a passageway in which an additional partition 8 is mounted. The additional partition 8 is fixed to the same walls of the body 1 parallel to the axis of the mandrel 3 to form an additional suction zone 9 and an additional pressure zone 10. Two partitions 5 and 8 are located on opposite sides of the rotor 2.

The liquid medium pumping device operates as follows.

35 When the rotor 2, comprising a plurality of mandrel plates 3 and 4 of the body 1 rotates in the direction of arrow A. The 4 95 499 direction, the surface sheet 4 in the boundary layer receiving the force originated friction causes the liquid to move in the liquid medium in two opposite directions, forming two counter-current. In the second direction, the liquid medium moves from the suction zone 6 formed by the walls and partition 5 of the run-5 gon 1 and passes through the spacer areas of the rotor 2 to the additional pressure zone 10 defined by the same walls and the additional partition wall 8 of the body 1. form the walls and the additional partition wall 8 of the body 1 and pass through the partition areas of the rotor 2 to the pressure zone 7 defined by the same walls and the partition wall 5 of the body 1.

In this way, two countercurrents are generated in the liquid medium pumping device. The direction of both streams 15 remains unchanged, thus counteracting the energy loss associated with changing the direction of liquid medium flow, and the frictional energy loss from flowing around the body walls is greatly reduced by the absence of cylindrical parts, which in turn increases the efficiency and overall capacity of the bidirectional device. .

Industrial applicability Such a device can be applied to ventilation in households as well as in industrial ventilation and air conditioning systems, it can also be used as a pump for countercurrent pumping of liquids.

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Claims (1)

95499 Claim: A device for pumping a liquid medium, the body (1) of which comprises a rotor (2) comprising a mandrel (3) to which a plurality of plates (4) are attached and a partition wall (5) fixed to the body (1). longitudinally along the axis of the mandrel (3) so as to define the suction and pressure zones (6 and 7), characterized in that the walls of the body (1) form a through-10 passage provided with an additional partition wall (8) fixed to the same on the walls of the body (1) longitudinally parallel to the axis of the mandrel (3) so as to define additional suction and pressure zones (9 and 10), two partitions (5 and 8) are arranged on opposite sides with respect to the rotor (2) 15. Λ · 6 95499 Apparatus for pumping and flying medium, colors and hoses (1) with high pressure spreader and rotor (2), single-spindle with spindle (3) with flute head with spindle head (4), and with spindle (5) ), in which case the force of the force (1) and the force on the spindle (3) The axis of the force of the force and the tricons (6 and 7), turn the force of the force, (1) the image of the genome gassspassage, vilken försetts med en ytterligare mellanvägg (8), vilken i längdriktningen av spindels (3) (5 and 8) anordnats pi motsatta sidor i förhil-lande account rotorn (2). • · • · «·