RU2094660C1 - Screw centrifugal pump - Google Patents

Abstract

FIELD: pump engineering. SUBSTANCE: disks of the working wheels are provided with through openings near the bushing from both their sides and passageways uniformly arranged over periphery at 0- 45° to the radius of the wheel. There are passageways in the disks of the guide members from both their sides in the plane of rotation that are at 0-30° to the radius of the disk of the guide member. EFFECT: enhanced efficiency. 3 cl, 3 dwg

Description

 The invention relates to a pump engineering, and in particular to screw centrifugal pumps.

 In some cases, the problem arises of supplying a fluid with relatively large heads and low flow rates. Moreover, there may be solid inclusions in the liquid, which requires a correspondingly defined width of the output section of the centrifugal wheel.

 The latter circumstance does not allow the use of traditional (known) centrifugal pumps.

 Closest to the proposed one is a screw-centrifugal pump, comprising a housing, a rotor installed in it on bearings, including a screw pre-pump and centrifugal impellers having disks and bushings, and guide devices including disks fixedly mounted in the housing.

 The disadvantage of this pump is the presence of axial forces, which leads to the use of various types of unloading devices and double-sided thrust bearings and thereby complicates the design and manufacturing technology of the pump. In addition, in the case of low flow rates Q <0.5 l / s, the width of the flow sections of the impellers of the known pump is so small that it does not allow pumping liquids with solid inclusions of size 2 4 mm.

где ω с;

м/с; H, Дж/кг, с достаточно высокими энергетическими и антикавитационными качествами.The objective of the invention is to provide a simple low-flow screw centrifugal pump for speed coefficients

where ω s;

m / s; H, J / kg, with sufficiently high energy and anti-cavitation qualities.

The technical result is achieved by developing the design of a screw centrifugal pump, in the disks of the impellers of which, near the sleeve, through holes are made, on both sides of the channels are evenly distributed around the circumference and located at an angle of 0 45 ^o to the radius of the wheel, and in the disks of the guide vanes on both sides in the rotation plane, channels are arranged at an angle of 0 30 ^o to the radius of the disk of the guide apparatus.

 Passage sections of centrifugal impellers and guide vanes can be made over an area of at least passages at the pump inlet.

 At least one bearing may be configured as a plain bearing.

 In FIG. 1 shows a screw centrifugal pump, a longitudinal section; in FIG. 2, section AA in FIG. one; in FIG. 3 section BB in FIG. one.

 The screw centrifugal pump contains a split housing 1, centrifugal impellers 2, a screw pump 3 mounted on one shaft 4 with centrifugal wheels 2, a sealing collar 5, two support units, one of which is a rolling bearing 6, the other is a sliding bearing 7. The pump is also equipped with guiding devices 8.

The main feature of the pump is that the impellers 2 are disks made on both sides in the plane of rotation at an angle of 0 45 ^o to the radius of the wheel channels. The flow of liquid from one side of the disk to the other is carried out through the bypass holes 9 near the sleeve 10. Thus, each disk works as an impeller with a two-way entrance, which leads to the elimination of axial forces on them. This allows you to use in the design of the pump only one angular contact bearing 6.

Guide vanes 8 are also made in the form of disks with channels at an angle of 0 30 ^o to the radius of the wheel.

 The proposed pump operates as follows.

 When the shaft 4 of the pump rotates, the liquid enters the screw pre-pump 3 through the suction line, which ensures high anti-cavitation qualities of the pump. After the screw, the liquid enters the front and through the bypass holes 9 into the rear channels of the first impeller 2. Then the liquid enters the first guide apparatus 8, and from there to the entrance to the second impeller 2, etc. After the third stage, the fluid enters the conical diffuser and then into the pressure line.

 In principle, according to this scheme, a multi-stage screw-centrifugal pump can be made, with the stages being identical to each other.

 In general, according to this technical solution, a relatively simple design of a screw-centrifugal pump can be performed: for a given relatively low flow rate, almost any pressure of the liquid at the outlet from it can be achieved.

Claims (3)

1. A screw-centrifugal pump, comprising a housing, a rotor installed in it on bearings, including a screw pre-pump and centrifugal impellers having disks and bushings, and guide apparatuses fixedly mounted in the housing, including disks, characterized in that the impeller disks near the sleeve are made through holes, on both sides - channels uniformly distributed around the circumference and located at an angle of 0 - 45 ° to the radius of the wheel, and in the disks of the guide vanes on both sides of the channels, the channel is made Angled 30 ^o 0 to the radius of the disk guide vanes.  2. The pump according to claim 1, characterized in that the passage sections of centrifugal impellers and guide vanes are made over an area of no less than the passage sections at the pump inlet.  3. The pump according to claim 1, characterized in that at least one bearing is designed as a plain bearing.

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