RU2315896C1 - Device for pressure transportation of gas or liquid - Google Patents

Abstract

FIELD: chemical industry; microbiology, medicine, cosmonautics and instrumentation.

SUBSTANCE: invention relates to manufacture of axial-flow fans and pumps for handling pure gaseous and liquid media. Proposed device for pressure transportation of gas or liquid has cylindrical casing, bladed wheel and motor arranged outside medium to be transported. Bladed wheel is provided with magnetic element installed on end of at least one blade. Movable endless belt with built-in ferromagnetic bodies is arranged from outer side of cylindrical casing. Said casing has recess for tips of blades of bladed wheel. Bladed wheel is provided with fairings from both sides. Device has only one member operating in handled gaseous or liquid media, namely, bladed wheel.

EFFECT: improved consumer properties of device.

3 cl, 5 dwg

Description

The invention relates to the production of axial fans and pumps for moving particularly pure gaseous and liquid media.

Known axial fans and pumps containing a cylindrical casing, impeller, engine [Polytechnical Dictionary. Ch. ed. I.I. Artobolevsky. Moscow, Soviet Encyclopedia, 1976, p. 72, 309; Handbook of the designer of industrial, residential and public buildings and structures. Part II Under the total. Ed. I.G. Staroverova. Moscow, Publishing House of Construction Literature, 1969, p. 48-449]. In such fans or pumps, the blade wheel is mounted on the shaft of an engine located in a moving medium of gas or liquid, which is unacceptable for extremely clean environments.

Closest to the invention is a device for pressure transfer of gas containing a cylindrical casing, a blade wheel, an engine located outside the moving medium [Kalinushkin MP Fan installations. Moscow, Higher School, 1979, pp. 78-81]. Such a device contains a number of elements, including a seal, undesirable in the case of movement of highly pure gaseous and liquid media.

The objective of the invention is to improve the consumer properties of the device for pressure transfer of gas or liquid.

The technical solution of the problem is achieved by the fact that in the device for pressure movement of gas or liquid containing a cylindrical casing, a blade wheel, an engine located outside the moving medium, the blade wheel is equipped with a magnetic element mounted at the end of at least one blade, and with the outer side of the cylindrical casing is a movable endless belt with ferromagnetic bodies embedded in it. The casing has a niche for accommodating the ends of the blades of the blade wheel. The scapula has fairings on both sides.

Figure 1 shows a device for pressure movement of gas or liquid, a side view, figure 2 is a view of figure 1 along arrow A; figure 3 and 4 show the placement of the magnetic element at the end of the blade; figure 5 shows a fragment of an endless belt with a built-in ferromagnetic body.

A device for pressure transfer of gas or liquid contains a thin-walled cylindrical casing 1, a blade wheel 2, with fairings on both sides 3. The casing and the blade wheel are made of non-magnetic material. The casing has a niche 4 for accommodating the ends of the blades of the blade wheel. The blade wheel is equipped with a magnetic element 5 mounted on the end of at least one blade 6. Moreover, the magnetic element can be built into the blade (figure 3) or mounted on its surface (figure 4). On the outside of the cylindrical casing there is an endless belt 7 with ferromagnetic bodies 8 built into it, and the ferromagnetic bodies are located against each magnetic element mounted on the end of the blade. An endless belt is mounted on a cylindrical body movably with the possibility of rotation in the forward and reverse directions. The endless belt has a gear surface 9 and is in contact with the gear 10 mounted on the shaft 11 of the engine (not shown). To prevent axial displacement of the endless belt on the cylindrical casing can be made sides 12.

When the engine is turned on, the torque is transmitted to the shaft 11, gear 10 and the endless belt 7 having a gear surface 9. In this case, the ferromagnetic bodies 8 on the endless belt interact with the magnetic elements 5 integrated in the blades 6, forcing the blade wheel 2 to rotate in the recess 4 at a given speed . A niche in the cylindrical casing 1 eliminates the loss of the blade wheel, and the sides 12 on the outside of the casing prevent axial displacement of the endless belt. The fairings 3 installed on both sides of the impeller wheel reduce the resistance to gas or liquid flow when moving in the forward or reverse directions.

The device is not difficult to manufacture, has improved consumer properties, since it has only one organ working in moving gaseous or liquid media - the scapula. The device can be used to move very pure gases and liquids in the chemical industry, microbiology, medicine, astronautics and instrumentation.

Claims (3)

1. Device for the pressure movement of gas or liquid, comprising a cylindrical casing, a blade wheel, an engine located outside the moving medium, characterized in that the blade wheel is equipped with a magnetic element mounted on the end of at least one blade, and on the outside of the cylindrical the casing is a movable endless belt with ferromagnetic bodies embedded in it. 2. The device for pressure movement of gas or liquid according to claim 1, characterized in that the casing has a niche for accommodating the ends of the blades of the blade wheel. 3. The device for the pressure movement of gas or liquid according to claim 1, characterized in that the blade wheel on both sides has fairings.

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