RU2182262C1 - Radial vortex pump - Google Patents

Abstract

FIELD: manufacture of pumps; construction of radial vortex pumps. SUBSTANCE: pump has detachable housing, propeller-type conical impeller consisting of disk with blades secured on it, propeller-type cylindrical impeller and inlet branch pipe divided into at least two delivery passages by partitions. Impellers revolve in opposite directions; blades of conical impeller are concave towards flow of liquid being handled and blades of cylindrical impeller are bent to opposite side. Outlets of delivery passages are spaced apart in way of rotation of conical impeller. Partitions are inclined towards rotation of conical impeller at outlet to conical impeller from its center to housing. Blades of cylindrical impeller in inlet section are inclined at angle of 2 deg and at angle not exceeding 65 deg. at impeller outlet relative to its base. Stabilizing seats for bush and bearing are provided in upper portion of conical impeller and lower portion of cylindrical impeller. Housing is cylindrical in shape in area where cylindrical impeller is mounted narrowing towards outlet. EFFECT: possibility of manufacturing high-pressure pumps. 2 cl, 6 dwg

Description

 The invention relates to the field of engineering and can be used, in particular, in the designs of radial vortex pumps.

 The closest in technical essence to the claimed technical solution is a radial vortex pump containing a detachable housing, a supply duct, an impeller including a disk with blades fixed to it and placed in a detachable housing, on the inner surface of which there are fixed vanes bent into the opposite blades side and placed downstream of the inlet portion of the impeller, and behind the impeller in the channels installed additional blades (USSR patent 1790698, MKI F 04 D 1/00, 5/00, publ. 23.01.93 g.).

 The known pump does not provide a high pressure pumped liquid.

 The task underlying the proposed technical solution is to create a pump that provides high pressure of the pumped liquid.

 The problem is solved as follows.

According to the claimed technical solution, the radial vortex pump comprising a detachable housing and an impeller including a disk with blades fixed on it and housed in a detachable housing according to the claimed technical solution, comprises an additional impeller of a cylindrical propeller type coaxially mounted above the impeller and rotating towards it, with blades bent to the opposite side of the impeller blades, in the lower part of the additional and in the upper part of the impellers are made stabilizing seats for the bearing and the sleeve, and the housing at the installation site of the additional impeller is made of a cylindrical shape, tapering at the outlet. The blades of the additional impeller in its input part are inclined at an angle of at least 2 ^o , and at the output of the additional impeller, at an angle of not more than 65 ^o to its base.

 The above set of features allows, in comparison with the prototype, to create a pump design that provides high pressure of the pumped liquid.

 The presence of significant features distinctive from the prototype allows us to recognize the claimed pump as new.

 The prior art has not identified technical solutions that would have signs that match the distinctive features of the claimed device, so the latter meets the condition of an inventive step.

 The possibility of using the inventive device in industry allows us to conclude that it meets the criterion of "industrial applicability".

 Figure 1 presents a diagram of a radial vortex pump; figure 2 is a section aa in figure 1; figure 3 is a section bB in figure 1; figure 4 is a profile of the blades of the additional impeller; figure 5 - node 1 in figure 1; figure 6 - section bb in figure 1.

The pump consists of a detachable housing 1, a conical impeller 2 with blades 3, a cylindrical impeller 4 with blades 5, an inlet pipe 6, divided into six supply channels 7 (7a, 7b, 7c, 7g, 7d, 7e), the outputs of which are spaced in the direction of rotation of the impeller 2. The final part of each inlet channel 7 at the outlet to the impeller 2 has the shape of a partition 8. The partitions 8 at the outlet to the impeller 2 from its center to the housing are inclined towards the rotation of the impeller 2. The cross sections of the supply channels 7 are equal between themselves and in sum e of 2.0 cross-sectional inlet 6. The impeller 2 is fixed on the axis 9, the impeller 4 - on the axis 10 and the blades 3 and 5 in the inlet portion of the impeller 2 and 4 are inclined at an angle of 2 ^o, and the output parts of the impeller 2 at an angle of 45 ^o and the impeller 4 at an angle of 30 ^o to the base of the wheels. In the lower part of the impeller 4 there is a socket where the bearing 11 is installed, and in the upper part of the impeller 2 there is a socket where the sleeve 12 is installed.

 The pump operates as follows.

 When the impeller 2 rotates, the liquid flows through the supply channels 7 to the blades 3 of the impeller 2, which give it a rotational-pusher movement, which creates the effect of pumping the liquid by the impeller 2 onto the impeller 4, rotating towards each other, as a result of which large vortex flows are created, providing high pressure of the pumped-over liquid.

Claims (2)

 1. A radial vortex pump containing a detachable housing and an impeller, including a disk with blades fixed to it, characterized in that the impeller is made of a conical shape of a propeller type, the blades of which are concave towards the flow of the pumped liquid, an additional working impeller is coaxially mounted above the conical impeller a cylindrical propeller-type wheel rotating towards a conical impeller with blades bent to the opposite side of the conical impeller blades, in the bottom pipe of the housing is divided by partitions into at least two supply channels, the outputs of which are spaced along the rotation of the conical impeller, while stabilizing sockets for the sleeve and bearing are made in the upper part of the conical and lower parts of the cylindrical impellers, and the housing at the installation site a cylindrical impeller is made of a cylindrical shape, tapering at the exit. 2. The pump according to claim 1, characterized in that the blades of the additional impeller in its input part are inclined at an angle of at least 2 ^o , and at the wheel outlet, at an angle of not more than 65 ^o to the wheel base.

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