RU193388U1 - CENTRIFUGAL PUMP MAGNETIC CLUTCH - Google Patents

Abstract

The utility model relates to magnetic couplings of centrifugal pumps used for pumping fluids, mainly in the petrochemical industry for pumping petroleum products. The magnetic coupling of a centrifugal pump consists of two half-couplings with permanent magnets and a dividing wall, made in the form of a cup, covering one of the half-couplings mounted on the end of the centrifugal pump working shaft and covered by another half-coupling mounted on the centrifugal pump drive shaft, the half-couplings contain the same number of permanent magnets and are equipped with thin protective shell from contact with the external environment, the latter are made in the form of rectangular parallelepipeds and are installed around the circumference and around the axis of the working shaft and perpendicular to one of the side faces, the radius of the circle along which the permanent magnets are installed, while in the cross section of the magnetic coupling the thickness of the permanent magnets of the coupling half mounted on the drive shaft is from 0.9 to 1.1 of the thickness of the permanent magnets of the coupling half mounted on the working shaft, 12 magnets are installed around the circumference in the coupling halves, and the length on which the permanent magnets are installed along the working shaft of the centrifugal pump is from 0.19 to 1.60 of the outer diameter of the floor ufty mounted on the operating shaft, the outer diameter of the coupling halves is from 100 to 104 mm.V possible to increase reliability of the centrifugal pump and reducing the size and weight of the magnetic coupling.

Description

The utility model relates to magnetic couplings of centrifugal pumps used for pumping fluids, mainly in the petrochemical industry for pumping petroleum products.

A known magnetic coupling of a centrifugal pump, consisting of two half-couplings with permanent magnets and a dividing wall, made in the form of a cup, covering one of the half-couplings mounted on the end of the working shaft and covered by another half-coupling mounted on the drive shaft (see patent for utility model RU No. 26612 , CL F04D 29/10, publ. 10.12.2002).

However, this centrifugal pump magnetic coupling uses permanent magnets whose size is the same, which leads to an increase in the weight and dimensions of the pump magnetic coupling.

The closest to the utility model in terms of technical nature and the achieved result is a magnetic coupling of a centrifugal pump, consisting of two half-couplings with permanent magnets and a dividing baffle, made in the form of a cup, covering one of the half-couplings mounted on the end of the centrifugal pump and covered by mounted on the drive shaft a centrifugal pump with another coupling half, coupling halves contain the same number of permanent magnets and are equipped with a thin protective shell against contact with the outside cn medium, the latter are made in the form of rectangular parallelepipeds and are installed around a circle around the axis of the working shaft and perpendicular to one of the side faces of the radius of the circle along which the permanent magnets are installed (see patent for the invention RU No. 2226269, class F04D 13/02, publ. 06/10/2008).

This magnetic clutch of a centrifugal pump allows you to transfer the required torque from the drive shaft to the working shaft of the pump with constant pump operation. However, this magnetic coupling has a relatively large axial dimension, which is associated with insufficient optimization of the dimensions of the magnets used and, as a result, does not fully support the required performance of a centrifugal pump with a variable mode of operation.

The technical problem that the utility model addresses is the elimination of the noted drawbacks.

The technical result achieved by the implementation of the utility model is to increase the stability of the torque transmitted by the coupling from the drive shaft to the working shaft by ensuring optimal performance of the centrifugal pump when the load changes, including peak loads due to the elimination or sharp decrease in slip of the magnetic coupling half-couplings relative to each other while reducing the axial dimension of the magnetic coupling.

The technical problem is solved, and the technical result is achieved due to the fact that the magnetic coupling of the centrifugal pump consists of two half-couplings with permanent magnets and a dividing partition made in the form of a cup, covering one of the half-couplings mounted on the end of the centrifugal pump and covered on the drive shaft a centrifugal pump with another coupling half, coupling halves contain the same number of permanent magnets and are equipped with a thin protective shell from contact with the external environment, the latter are made in the form of rectangular parallelepipeds and are installed around a circle around the axis of the working shaft and perpendicular to one of the side faces of the radius of the circle along which the permanent magnets are installed, while in the cross section of the magnetic coupling the thickness of the permanent magnets of the coupling half mounted on the drive shaft is from 0.9 up to 1.1 of the thickness of the permanent magnets of the coupling half mounted on the working shaft, 12 magnets are installed around the circumference in the coupling halves, and the length on which the permanent magnets are mounted The working shaft of a centrifugal pump makes up from 0.19 to 1.60 of the outer diameter of the coupling half mounted on the working shaft, while the outer diameter of this coupling half is from 100 to 104 mm.

In the course of the research, it was found that it is possible to increase the transmission efficiency of the drive shaft rotation energy to the pump working shaft by changing the design of the magnetic coupling. For this, the coupling halves contain the same certain number of permanent magnets, in this case 12 pieces in each coupling half, while the combination of the permanent magnets in the form of rectangular parallelepipeds, installing them in a circle around the axis of the working shaft and perpendicular to one of the side faces of the radius of the circle along which permanent magnets are installed, as well as the implementation of permanent magnets in the cross section of the magnetic coupling with the thickness of the permanent magnets of the coupling half mounted on the drive shaft, composition it ranges from 0.9 to 1.1 of the thickness of the permanent magnets of the coupling half mounted on the working shaft and the length on which the permanent magnets are mounted along the working shaft of the centrifugal pump, comprising from 0.19 to 1.60 of the outer diameter of the coupling half mounted the working shaft, while the outer diameter of this coupling half is from 100 to 104 mm allows you to solve the set, the above technical problem with the achievement of the above technical result.

In FIG. 1 is a longitudinal section through a magnetic coupling of a centrifugal pump.

In FIG. 2 is a cross-sectional view of the magnetic coupling of FIG. 1 at the location of the permanent magnets.

The magnetic coupling of the centrifugal pump consists of two coupling halves 1 and 2 with permanent magnets, respectively 3 and 4, and a dividing wall 5 made in the form of a cup covering one of the coupling halves 1 and covered by the centrifugal pump mounted on the end of the working shaft (not shown in the drawings) mounted on the drive shaft of a centrifugal pump with another coupling half 2.

The coupling halves 1 and 2 contain the same number of permanent magnets 3 and 4 of 12 pieces in each coupling half 1 and 2 and are equipped with a thin protective shell, respectively, 6 and 7 from contact with the external environment. Thus, given the number of permanent magnets 3 and 4 in each of the coupling halves 1 and 2, the width of each of the permanent magnets 3 and 4, respectively, S ₂ and S _{1 is} proportional to the diameter of the circle along which they are installed.

Permanent magnets 3 and 4 are made in the form of rectangular parallelepipeds and are installed around the circumference around the axis of the working shaft and perpendicular to one of the side faces to the radius of the circle along which the permanent magnets 3 and 4 are installed.

In the cross section of the magnetic coupling, the thickness h _{1 of the} permanent magnets 4 of the coupling half 2 mounted on the drive shaft is from 0.9 to 1.1 from the thickness h _{2 of the} permanent magnets 3 of the coupling half 1 mounted on the working shaft.

The length L, on which the permanent magnets 3 and 4 are installed, along the working shaft of the centrifugal pump is from 0.19 to 1.60 of the outer diameter D of the coupling half 1 mounted on the working shaft, while the outer diameter D of this coupling half is from 100 to 104 mm

The magnetic coupling in the composition of the centrifugal pump operates as follows.

The external moment from the drive shaft of the centrifugal pump due to magnetic coupling through the dividing wall 5 of non-magnetic material of the coupling halves 1 and 2 causes the impellers of the centrifugal pump to rotate, ensuring its operation and the supply of the pumped liquid medium to the consumer.

The present invention can be used in the oil, oil and gas and other industries for the pumping of various, including aggressive, liquid media.

Claims (1)

A magnetic coupling of a centrifugal pump, consisting of two half-couplings with permanent magnets and a dividing wall, made in the form of a cup, covering one of the half-couplings mounted on the end of the centrifugal pump working shaft and covered by another half-coupling mounted on the centrifugal pump drive shaft, the half-couplings contain the same number of permanent magnets and equipped with a thin protective shell from contact with the external environment, the latter are made in the form of rectangular parallelepipeds and installed around around the axis of the working shaft and perpendicular to one of the lateral faces, the radius of the circle along which the permanent magnets are installed, characterized in that in the cross section of the magnetic coupling the thickness of the permanent magnets of the coupling half mounted on the drive shaft is from 0.9 to 1.1 of the thickness permanent magnets of the coupling half mounted on the working shaft, 12 magnets are installed around the circumference in the coupling halves, and the length on which the permanent magnets are mounted along the working shaft of the centrifugal pump is from 0.19 to 1.60 external about the diameter of the coupling half mounted on the working shaft, while the outer diameter of this coupling coupling is from 100 to 104 mm.

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