UA53376A - Console pump - Google Patents

Abstract

A console pump has a drive and a pump coaxially connected to it with the pump shaft rotating in the bearings and tightened in the pump-in housing. The shaft of the pump is with its one end supported by a provided in suction housing bearing and with the other one is connected to the shaft of the drive by a clutch. The console pump is made multi-step.

Description

Description of the invention

The invention relates to pump construction, in particular to cantilever pumps and their aggregation with a drive 2 engine, and can be used to create and manufacture a new generation of cantilever pumps.

A K-type cantilever pump is known, which has a drive and a pump connected to it, the shaft of which rotates in bearings, is sealed in the discharge housing and is coaxially connected to the drive shaft with a coupling. At the same time, the bearings, which perceive the axial and radial forces of the pump, are placed in a special support bracket, which is placed between the pump and the ghost, and lubricated with grease during assembly and operation. In front of the bearing unit 70 in the cover of the pump discharge housing, there are provided seals from the stuffing box (11. This complicates the design of the pump, its maintenance, and limits the number of stages in the pump to one and, accordingly, its pressure.

A mono block console pump of the KM type is also known, which has a drive and a pump connected to it, the shaft of which rotates in bearings and is sealed in the discharge housing with a stuffing box. At the same time, the shaft 72 of the drive and the pump is a single longitudinal shaft, and its bearings, which receive the axial and radial forces of the pump, located in a special front cover of the drive, with which the pump is directly connected |11.

Although this pump design is simpler than the first one due to the absence of a support bracket, it also has disadvantages and in addition requires a special non-standard drive due to the special front cover and the bearings placed in it, which perceive the axial and radial forces of the pump.

The invention is based on the task of creating a cantilever pump by placing a bearing that can work in the liquid pumped by the pump and perceive the axial and radial forces of the pump, in its suction body and connecting the second end of the pump shaft coaxially with the drive shaft with a coupling that is sealed along the pump shaft and in the city of its passage Through the discharge housing of the pump, by which it is directly connected to the drive and by providing a device to protect the drive from direct liquid ingress into it, 29 to simplify the construction of the pump and its maintenance when using a standard drive, to ensure "the possibility of making the pump multi-stage and increase its pressure and the possibility of adopting stages from another type of pumps.

The specified goal is achieved by the fact that in a cantilever pump that has a drive and a pump coaxially connected to it, the shaft of which rotates in bearings and is sealed in the discharge housing, the latter rests at one end on the bearing provided in the suction housing, which receives the axial and the radial forces of the pump and work in their pumped liquid, and the second one is connected to the drive shaft with a coupling that is sealed along the pump shaft and in the place of ITS passage through the pump discharge housing, which directly connects it to the drive. At the same time, the pump can be multi-stage, and the stages can be taken from other types of pumps, for example, well pumps. Go)

A baffle washer is provided on the drive shaft behind the clutch, and in the lower part of the discharge housing - a hole or groove for draining liquid that may seep through the clutch seal. To simplify the design of the bearing, it is made in the form of an armless sleeve made of elastic anti-friction material, which is inserted into a bore made in the housing with fixation against rotation if necessary and axial movement.

The inner working surface of the bearing is made polygonal instead of the well-known round one with grooves (21, " and that also simplifies the mold in which it is pressed. The bearingless bushing is equipped at the ends with flanges with grooves for fluid, which are located in the planes of the vertices of the corners of the polyhedron and with dimensions that allow them to perceive the axial force of the pump through the heel, which is installed on the pump shaft adjacent to the shoulder. To filter the water entering the bearing from mechanical impurities in the suction housing, in front of the bearing, an additional boring is performed, in which fasten the mesh filter.

In this way, the new essential features indicated in combination with the known ones, which consist in the presence of a drive and a pump coaxially connected to it with 15, the shaft of which rotates in bearings and is sealed in the discharge housing, simplify the design of the pump due to the absence of special complex intermediate support brackets or

Ge) of the front cover with bearings, its maintenance due to the absence of the need to add and replace grease in the bearings, makes it possible to perform a multi-stage pump and increase its pressure due to the presence of a bearing at the front end of the shaft and making it more elongated. - И 50 The multi-stage design of the pump allows, with the same parameters as for K and KM type pumps,

F unify the proposed pump in terms of working stages and other details with pumps of another type, for example, well pumps, which greatly simplifies the manufacture of the proposed pump

Figure 1 shows the pump with a longitudinal section above the axis, Figure 2 shows a section along the bearing.

The pump has a suction housing 1, in one of the bores of which a bearing 2 with a multifaceted working surface 59 and flanges on the ends is inserted, and in the second a mesh filter З is fixed, tightened with ties 4 of stage 5, in. the working wheels of which and the heel 6 with the help of a bolt 7 are fixed on the shaft 8, which is coaxially connected to the drive shaft 10 by a coupling 9 and which is sealed in the pressure housing 11, for example, by a cuff 12 and on the pump shaft, for example, by a rubber ring 13. Between the coupling 9 and the shoulder of the drive shaft 10, there is a baffle washer 15, and in the lower part of the discharge housing 11, a groove 16 is provided for draining liquid that can seep through the seals due to their wear, as well as a hole 18 closed by a plug 17 for draining liquid from of the pump after stopping it to prevent defrosting or before dismantling. The pump works as follows.

Before starting, the working fluid is poured and the drive 10 is turned on, which rotates the stages 5 of the pump. Due to this, the working fluid enters the suction body 1 and further, passing the stages 5, - into the discharge body 11, and from it - to the consumer. The outflow of liquid from the injection housing 11 towards the drive 10 is prevented by the seals of the couplings 12 and 13. In the event of extensive or emergency wear of the seals on the shaft of the drive between the coupling and its shoulder, a baffle washer 15 is provided, preventing the direct impact of the liquid strings on the drive 10, and the liquid, which has leaked in this case, flows through groove 16 from the pump to the outside.

The radial force on the pump shaft is perceived on one side through the coupling 9 by the drive bearings 10, and on the other by bearing 2, and the axial force is perceived through the heel 6 by the flanges of the bearing 2. At the same time, due to the pumping effect of the heel 6, the liquid is sucked into the bearing 2 through mesh filter 3, being cleaned of mechanical impurities that may be in the working fluid. If the end working surface of the bearing collar 2 is worn, it is turned over with the second collar to the heel 6, thereby extending the service life of the bearing without replacing it with a new one.

When stopping the pump, which is mounted in a cold room, in order to prevent it from defrosting 7/0 Unscrew the plug 17 and drain the liquid from the pump through the hole 18. The same is done before dismantling the pump.

Thus, having the same functionality as pumps of type K and KM, the proposed cantilever pump due to the set of stages can have a wider pressure range, be unified in terms of stages and other details with other, in particular, well pumps, and due to the absence of support bracket or a folding front cover of the drive with bearings is simpler in design and maintenance than pumps - /5 analogues. The installation of the bearing in the bore of the housing and the presence of edges in it at the ends allows you to exclude metal fittings from it and combine the functions of a retainer and an axial bearing in it

Sources. 1. Vane pumps. Directory. Under the general editorship of V.A. Zymnitskyi and V.A. Condition. Leningrad, "Machine Building". Leningrad branch. 1986, -- 0. 179 -- 182. 2. Industry standard S5KE.263.001.

Claims (1)

Formula of the invention 25 1. A cantilever pump having a drive and a pump coaxially connected to it, the shaft of which rotates in bearings and is sealed in the discharge housing, which is distinguished by the fact that the pump shaft is supported at one end by a bearing provided in the suction housing, which works in the pumped liquid, and the second one is connected to the drive shaft by a coupling that is sealed along the pump shaft and at the point of its passage through the pump discharge housing, which directly connects it to the drive. 2. Cantilever pump according to claim 1, which is distinguished by the fact that it is multistage, adopting stages from other, for example, well pumps. and - 3. Cantilever pump according to claim 1, which differs in that a baffle washer is provided on the drive shaft behind the coupling, and in the lower part of the discharge housing there is a hole for draining liquid that can seep through the coupling seal. со 35 4. Cantilever pump according to claim 1, which is distinguished by the fact that its bearing is made in the form of an unreinforced bushing made of elastic anti-friction material, which is installed in a bore made in the body with fixation against scrolling if necessary and axial movement. 5. Cantilever pump according to claim 4, which is characterized by the fact that the inner working surface of the bearing is made multifaceted. " 6. Cantilever pump according to claims 4 and 5, which is characterized by the fact that its bearing-less sleeve is equipped on its ends with flanges with grooves for liquid, which are located in the planes of the vertices of the corners of the polyhedron, and with dimensions that allow them to perceive the axial force of the pump through the heel, which is installed on the shaft adjacent to the shoulder. 7. Cantilever pump according to claims 1 and b, which is distinguished by the fact that in its suction housing, in front of the bearing, an additional boring is performed, in which the mesh filter is fixed. 1 Official Bulletin "Industrial Property". Book 1 "Inventions, useful models, topographies of integrated circuits", 2003, M 1, 15.01.2003. State Department of Intellectual Property of the Ministry of Education and Science of Ukraine. - 50 42) R 60 b5