RU13822U1 - CENTRIFUGAL PUMP - Google Patents

Abstract

A centrifugal pump comprising a housing made in the form of a cup, axial suction and discharge nozzles, the last of which is made with a diffuser, a cuff, an electric motor located in the housing, a cover fixed to the housing, an impeller with blades mounted on the motor shaft, and the impeller placed inside the housing coaxially to the suction pipe, characterized in that it is additionally equipped with a sleeve, forming in the housing together with the impeller a pump chamber, an insert installed between the two the needle and the cover, while the said cuff is made with a groove that provides centering on the sleeve.

Description

2000103554MTZH F 04 D 13/06,

STROKE RACING HACOC

The utility model relates to pump engineering, in particular to centrifugal pumps, and can be used in the automotive industry, for example, for cleaning automobile windows with liquids supplied under pressure.

A centrifugal automobile windshield washer pump is known (German Patent X 4128535, class MKI F 04 D 29/42; B60 SI / 48 published 04.03.93), comprising a housing consisting of two cavities. An electric motor is fixed in the first cavity of the housing, the shaft of which passes through the hole into the second cavity of the housing. From the side of the second cavity, a pump chamber is fixed on the housing using a lock connection. Inside the pump chamber there is a wheel with blades, the hub of which is fixed to the electric motor shaft, and the wheel pogoe is located in the cavity of the suction nozzle located coaxially with the impeller. The discharge chamber is located tangentially to the pump chamber, and a rubber molded part is located between the casing and the pump chamber, which serves to ensure the sealing of the pump chamber, to protect the motor from ingress of detergent and forming the upper wall of the chamber.

III IIIF 04 D 29/42,

1 03 5 5

In 60 S 1/48

A disadvantage of the known centrifugal pump is that such a pump design is designed for the manufacture of two plastic parts and a rubber part with exact dimensions to ensure reliable sealing of the connection between the housing and the pump chamber. For the manufacture of parts with exact dimensions during injection molding, plastic with stable casting characteristics is required, and for the manufacture of a rubber part, a special rubber composition is required. Stable materials are very expensive and not widely available. In the known pump, there are also increased losses of power transmitted from the electric motor during operation of a centrifugal pump with straight impeller blades in the high pressure zone (0.2-0.5 MPa), which leads to a decrease in pump efficiency.

A centrifugal pump is also known (RF Patent No. 2059887, class IPC F 04 D 13/06, 29/22, 29/42, B60 S1 / 48, published in Bulletin 13/96), containing root c, made in the form cups, axial suction and discharge nozzles, the last of which is made with a diffuser, a cuff, an electric motor located in the housing, a cover fixed to the housing, an impeller with blades mounted on the motor shaft, and the impeller is placed coaxially with the suction nozzle.

Such a pump does not require the use of plastic with stable casting characteristics, but for a rubber part with a special rubber composition. However, this design contains two castle

the connections are on the pump chamber and pump cover, and two rubber parts are required to seal the pump chamber, which complicate the manufacture of the pumps. The efficiency of the pump depends on the gap between the impeller and the pump chamber, and to achieve its stable values, it is necessary to make a lock connection on the casing and the pump chamber with high accuracy. It is also possible that moisture and dust can come through the holes in the terminal cover of the motor, which can lead to a decrease in the service life of the centrifugal pump.

The technical result of the utility model is the creation of a low-flow and high-pressure centrifugal pump, increasing the efficiency of the pump, simplifying the design, increasing the degree of protection against moisture and dust.

This is achieved by the fact that a centrifugal pump containing a housing made in the form of a cup, axial suction and discharge nozzles, the last of which is made with a diffuser, a cuff, an electric motor located in the housing, a cover mounted on the housing, an impeller mounted on the motor shaft with blades , while the impeller is placed in the housing coaxially to the suction pipe, is additionally equipped with a sleeve forming in the housing together with the impeller a pump chamber, an insert installed between the engine lem and cover, while the said cuff is made with a groove that provides centering along the sleeve.

The essence of the utility model lies in the fact that the centrifugal pump is additionally equipped with a sleeve, which forms a pump chamber in the housing together with the impeller, an insert installed between the engine and the cover, while the cuff is made with a groove that provides centering along the sleeve, which made it possible to create a low-cost, high-pressure centrifugal pump, increase the efficiency of the pump, simplify the design, increase the degree of protection against moisture and dust.

Figure 1 shows a centrifugal pump, a General view in section; FIG. 2 is a bottom view; in Fig.3-place section aa in Fig.2; in Fig.4-cuff in the context.

The proposed centrifugal pump contains a housing 1 made in the form of a glass with an axial suction 2 and discharge 3 nozzles (Fig. 1). The discharge pipe 3 is made with a diffuser 4 (Fig. 3). The pump also contains cuffs) 5, an electric motor 6 located in the housing I, a cover 7 mounted on the housing 1. An impeller 9 is installed on the shaft 8 of the electric motor 6 with blades 10 aligned with the suction pipe 2, the pump has a sleeve 11 forming in the housing 1 together with the impeller 9 is the pump chamber 12. The insert 13 is installed between the electric motor 6 and the cover 7. The cuff 5 is made with a groove 14 that provides centering along the sleeve P. The cover 7 is fixed on the housing 1 by means of a lock connection 15 (Fig. 1). The wires 16 provide power to the electric motor 6.

Centrifugal pump operates as follows.

When applying power to the pump through the wires 16, the shaft 8 of the electric motor 6 starts to rotate. Together with the shaft 8, the impeller 9 rotates. The fluid from the tank (not shown in the drawing) enters the suction pipe 2, and from there onto the blades 10 of the impeller 9. Using the blades 10, the liquid spins up, its kinetic energy increases, and under the action of centrifugal force it moves from the center to the periphery of the pump chamber 12. Having kinetic energy, it enters the diffuser 4 of the discharge pipe 3. In the diffuser 4, the kin cal fluid energy into potential pressure energy reaching values 0.5MPa, more through washing installation sleeve to the injector nozzle (not shown).

To obtain high efficiency of a centrifugal pump, the gap between the walls of the pump chamber 12 and the ends of the blades 10 is of great importance, as well as the smooth flow of liquid in the pump chamber 12. The use of the sleeve 11 made it possible to manufacture the pump chamber 12 with high accuracy, and as a result, small clearance values between the walls of the pump chamber 12 and the ends of the blades 10. Moreover, the end face of the impeller 9, and the end face of the sleeve 11 from the side of the pump chamber 12 form a single surface that allows fluid to flow smoothly from the center to the periphery, which in turn, made it possible to obtain a high value of the efficiency of a centrifugal pump. Additionally, when using sleeve 11, there was a simplification

the design of the pump and it became possible to use one lock connection 15, usually requiring the use of complex molds for its manufacture. The sealing of the pump chamber is carried out by a cuff 5, which allowed to abandon the use of two rubber parts for sealing the pump chamber 12, while the cuff 5 is made with a groove 14, which provides centering along the sleeve 11.

When operating the pump to protect against penetration of moisture and dust through openings in the cover 7 for wires 16 into the electric motor 6 and to increase the service life, an insert 13 is installed between the electric motor 6 and the cover 7.

Claims (1)

A centrifugal pump comprising a housing made in the form of a cup, axial suction and discharge nozzles, the last of which is made with a diffuser, a cuff, an electric motor located in the housing, a cover fixed to the housing, an impeller with blades mounted on the motor shaft, and the impeller placed inside the housing coaxially to the suction pipe, characterized in that it is additionally equipped with a sleeve, forming in the housing together with the impeller a pump chamber, an insert installed between the two the needle and the cover, while the said cuff is made with a groove that provides centering on the sleeve.