RU2182261C1 - Radial-vortex pump - Google Patents

Abstract

FIELD: manufacture of pumps. SUBSTANCE: radial vortex pump has detachable housing, impeller arranged inside this housing and made in form of disk with blades secured on it, at least one delivery passage and vanes mounted after impeller on inner surface of housing; vanes are bent to side opposite to blades. Mounted after vanes is additional propeller-type impeller secured coaxially relative to above-mentioned impeller; it is provided with blades bent towards flow of liquid being handled. Partitions found between delivery passages at outlet to impeller from its center are inclined towards rotation of impeller. Each delivery passage may be divided by at least one additional partition. EFFECT: possibility of manufacturing high-pressure pumps. 3 cl, 6 dwg

Description

 The invention relates to a pump engineering industry and can be used, in particular, in 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 section of the impeller, and behind the impeller, additional blades are installed in the channels (Sec. USSR 1790698, MKI F 04 D 1/00, 5/00, op. 23.01.93).

 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.

A radial vortex pump comprising a detachable housing, at least one supply duct, an impeller including a disk with blades fixed thereon, housed in a detachable housing, and vanes installed behind the impeller on the inner surface of the casing, curved in the opposite direction to the blades, according to the claimed technical solution, it contains an additional propeller type impeller mounted behind the blades, fixed on the same axis as the impeller and provided with blades concave towards the flow fluid pumped, while the partition between the supply ducts at the outlet to the impeller from its center to the housing is inclined towards the rotation of the impeller. Each inlet channel is divided by at least one additional partition, and the blades of the additional impeller in its input part are inclined at an angle of at least 2 ^o , and at the exit of the impeller at an angle of no more than 80 ^o to the wheel base.

 Separation of the supply ducts with additional partitions and the execution of partitions at the outlet to the conical impeller from its center to the housing inclined towards the rotation of the impeller creates a greater number of vortex flows, which ensures greater pumping of the pumped liquid to the impellers, and the installation of an additional propeller type impeller after the blades on one axis with the impeller, in which the blades are made of predetermined geometric dimensions, ensures the maintenance of the rotation speed fluid is the same as when leaving the impeller blades, and increases the pushing moment of the pumped liquid, which together provides an increase in pump performance.

 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 - pump housing in the case of its operation as a submersible pump; figure 6 - section bb in figure 1.

The pump consists of a split housing 1, a conical impeller 2 with blades 3, a cylindrical impeller 4 with blades 5, an inlet pipe 6, divided into supply ducts 7,8,9. The final part of each inlet channel 7.8.9 at the outlet to the impeller 2 has the shape of a partition 10. The partitions 10 at the outlet to the impeller 2 from its center to the housing are inclined towards the rotation of the impeller 2. The outputs of the inlet channels 7.8 and 9 are spaced in the direction of rotation of the impeller 2, and their cross sections are equal to each other and total 2.0 cross sections of the inlet pipe 6. The supply ducts 7, 8 and 9 are each separated by an additional partition 11. The impellers 2 and 4 are fixed on one axis 12 , and their blades 3 and 5 in the input part impellers 2 and 4 are inclined at an angle of 2 ^o, and at the outlet portion of the impeller 2 - 45 ^o and the impeller 4 - at an angle of 60 ^o to the ground wheels. Between the impellers 2 and 4, blades 13 are attached to the housing 1, mounted at an angle of 25 ^o to the impellers, bent to the opposite side of the blades 3 and 5.

 The pump operates as follows.

 When the impeller 2 rotates, the liquid flows through the supply channels 7,8,9 to the blades 3 of the impeller 2, which give it a rotational-pusher movement, and is removed by the blades 13, from which the liquid stream enters the blades 5 of the impeller 4, rotating in that the same side as the impeller 2, which gives the pumped liquid the same rotational speed as the impeller 2, and creates an additional pushing moment, accelerating the process of pumping the liquid. In the case of operation of the pump as a submersible, additional openings are provided in the supply ducts 7,8,9 (see FIG. 5).

Claims (3)

 1. A radial vortex pump containing a split housing, at least one supply duct, an impeller in the form of a disk with blades fixed on it, placed in a split housing, and vanes mounted behind the impeller on the inner surface of the casing, bent in the opposite direction to the vanes characterized in that it contains an additional propeller-type impeller mounted behind the blades, fixed on the same axis as the impeller and provided with blades concave towards the flow of the pumped liquid ti, the partition between the supply duct outlet to the impeller from its center to the housing inclined towards impeller rotation.  2. The radial vortex pump according to claim 1, characterized in that each supply duct is separated by at least one additional partition. 3. The radial vortex pump according to claim 1, characterized in that the blades of the additional impeller in its inlet part are inclined at an angle of at least 2 ^o , and at the exit of the impeller at an angle of no more than 80 ^o to the wheel base.

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