RU42867U1 - DRIVING WHEEL OF A SUBMERSIBLE CENTRIFUGAL PUMP - Google Patents

Abstract

The utility model relates to displacement displacement pumps, namely, to the impeller of a submersible centrifugal pump. The impeller of a submersible centrifugal pump contains a carrier disk 1 with blades 2 and a cover disk 3. The carrier disk 1 is provided with protrusions 4. The protrusions 4 are made with a wedge-shaped end 5 and provided with pins 6. On the cover disk there are blind grooves 7 and blind holes 8 respectively for the protrusions 4 and pins 6. In this case, the height of the protrusions H is greater than the depth of the grooves h. The carrier disk 1 and the cover disk 3 are made of thermoplastic material.

Description

The utility model relates to displacement displacement pumps, namely, to the impeller of a submersible centrifugal pump.

Known plastic impeller according to the application of Japan No. 1-52598, class. F 04 D 29/22, comprising front and rear casings, on one of which blades with protrusions are made. Accordingly, in another casing, grooves are made for inserting the ends of the blades using the made. protrusions. The blades are welded to the bottom of the grooves. The disadvantages of this device is the design complexity, and the protrusions included in the grooves do not have the required orientation of the two casings, which leads to their radial displacement relative to each other and requires additional processing to obtain alignment. Also, this design has increased complexity when assembling two disks, because mating parts lack orienting guide elements for interconnection.

The impeller of a submersible centrifugal pump is known from the description of the utility model of the Russian Federation No. 6852, class. F 04 D 29/28, taken as a prototype. The wheel contains a carrier disk with blades and a cover disk. The carrier disk is provided with protrusions located at the ends of the blades, mated with the through grooves of the cover disk. The protrusions on the blades have a height greater than the thickness of the covering disc. When connecting discs, the edges of the protrusions are expanded. The carrier and cover discs are made of carbon-filled polyamide.

The disadvantage of this device is the complexity of the forms of the base elements, protrusions and grooves that do not have

the required orientation of the cover disk relative to the carrier, which leads to their radial displacement relative to each other and requires additional processing to obtain alignment. The gaps between the protrusions and the grooves negatively affect the tightness and leads to the flow of fluid through the slots in the grooves of the covering disk. The protrusions and grooves have a complex shape and require a non-technological operation - flaring. In addition, flaring is a process of deformation of the protrusions of the bearing disk emerging from the through grooves of the covering disk and leads to the formation of cracks both on the protrusions and on the covering disk itself, which is also negative.

The task is to create a wheel design that ensures disc alignment, high manufacturability of disc assembly and accuracy. Creating a wheel that does not require additional processing after assembly.

This problem is solved using the impeller of a submersible centrifugal pump containing a bearing disk with blades equipped with protrusions located at their ends interconnected with the grooves of the cover disk, while all parts of the impeller are made of thermoplastic material, and the protrusions of the bearing disk are made with a wedge-shaped end , with a height of greater depth of the grooves made blind and provided with blind holes, interacting with the pins made on the protrusions of the carrier disk.

This solution allows to ensure alignment of disks, to increase the accuracy of assembly, which do not require additional processing after assembly. Due to the wedge-shaped end of the protrusions and the presence of pins, which during assembly orient the position of the disks among themselves, it allows to increase the manufacturability of the wheel assembly. The presence of blind grooves and holes in which the bond is made

The carrier and cover discs maintain tightness, which positively affects pump performance. The implementation of the disks of thermoplastic material allows you to save, along with well-known technical solutions, the coefficient of friction between the wheel and the guide device.

The essence of the utility model is illustrated by the drawing, in which Fig. 1 shows a general sectional view of the wheel, in Fig. 2 is a section A-A of Fig. 1, in Fig. 3 is a section B-B of Fig. 1, in Fig. 4 is a section AA before fastening the discs.

The impeller of a submersible centrifugal pump contains a carrier disk 1 with blades 2 and a cover disk 3. The carrier disk 1 is provided with protrusions 4. The protrusions 4 are made with a wedge-shaped end 5 and provided with pins 6. On the cover disk there are blind grooves 7 and blind holes 8, respectively, under protrusions 4 and pins 6. The height of the protrusions H is greater than the depth of the grooves h. The carrier disk 1 and the cover disk 3 are made of thermoplastic material.

When assembling the wheels, the cover disk 3 is combined with its holes with the pins 6 of the carrier disk 1 and the projections 4 are inserted into the grooves 7. The wedge-shaped end of the 5 projections 4 is freely oriented in the grooves 7 and the cover disk 3 is freely mounted on the carrier disk 1. Create a load on the cover disk and they are connected by ultrasonic welding, in this case, the wedge-shaped part of the protrusion is crushed and the groove is filled with the disks being fixed together.

Claims (1)

The impeller of a submersible centrifugal pump containing a bearing disk with blades provided with protrusions located at their ends interconnected with the grooves of the cover disk, while all parts of the impeller are made of thermoplastic material, characterized in that the protrusions of the bearing disk are made with a wedge-shaped end, with the height of the greater depth of the grooves made blind and provided with blind holes that interact with the pins made on the protrusions of the carrier disk.