RU16861U1 - CENTRIFUGAL PUMP - Google Patents

Description

2000119554

injip. 4,, r MPK6-R (Щ 7ОБ centrifugal pump

The utility model relates to pump engineering, in particular, to designs of centrifugal pumps with a closed impeller and a magnetic drive and can be used mainly for pumping chemically active liquids.

Known centrifugal pump hermetically sealed for aggressive environments NTsM, containing a housing with a cover, an impeller mounted on a shaft and placed on the housing and magnetically connected to the drive shaft (see the prospectus of the company MF-Commonwealth, a copy is attached).

However, these pumps are low-current, as ring magnets made of materials with low coercive force do not allow the transmission of large torques from the drive shaft, and have little efficiency due to existing hydraulic losses.

The closest analogue to the claimed utility model is a centrifugal pump of a similar purpose, comprising a housing with a cover with an axial inlet and radial outlet channels, an axis located in the housing with an impeller mounted on it, consisting of a drive, cover discs and impeller blades and connected by a magnetic coupling with a drive shaft, moreover, the magnetic coupling consists of separate prismatic multi-polar magnets (see Swiss patent V 614760, R04D 7/06, 1972).

However, these pumps have a low efficiency due to the existing hydraulic losses due to the clearances of the meldo parts that separate the pumping area from the suction area. The known pump is laborious to manufacture, because requires complex molds for parts such as drive and cover discs and impeller blades.

In addition, chufti is made, the chases from maERALOE with a low coercive force does not allow transferring pain — dy tritchet oment from the shaft,

It is a useful model1 that enhances the water / zones of the overall efficiency of the pump, reducing its labor-consuming T4got °: reducing and damaging the cut-off torque of the magnetic coupling with very large magnets.

The set goal is to achieve the following: in a centrifugal pump containing a housing with a rotary shaft with a radial start channel and a radial duct channel, an axle mounted on the housing with an axle mounted on it, with a leading cover disk and impeller blades without : h with the drive shaft, by means of a magnetic sleeve, which COCTOI consists of separate prismatic opposite-pole magnets - the spade wheels are made in one piece with the cover discs, while the se rnvfi is equipped with a groove - corresponding to the cocfigurate of the blades, and the inner central part is ppbnnw1 orpusa provided pltsevoy and-groove corresponding to the neck of a coating disc.

The goal is also achieved by the technical and technical data that the technical unit is made using powder metallurgy materials with a high coercive layer, and the total cross-sectional area is from 1 "linen: from prismatic opposite-pole magnates in the cross section and internal by" coupling 0.65 ... 0.76 of the maximum possible baking area of the magnetic ring.

In FIG. 1 lzoSrat.era construction: gentrobedia pump section, in FIG. 2 is a cross-section of a magnetic uft, in FIG. 3 is a docking of the impeller neck with a G-shaft: krylkm.

The centrifugal pump comprises a housing I with a radial i outlet channel 2, a crutch 3 with an axial inlet: with a channel 4 and an annular groove 5, axis b, on which the impeller 7 is installed, consisting of a cover disk 8 with a throat 9 and blades 10, a permanent

squeak II with grooves 12 and with eight prismatic opposite-pole permanent magnets 13 on the stupor interconnected by magnetic forces with eight prismatic magnets 14 of the coupling half 15, mounted on the drive shaft 16. In this case, the total cross-sectional area / h of the individual prismatic opposite-pole MZGNITOE in the transverse external inner core the coupling half is 0.66 ... O, 76 of the maximum possible leakage of the magnetic ring cross section.

The blades 10 of the impeller 7 are made in one piece with the cover disk 8, the grooves 12 of the drive disk II correspond to the configuration of the blades 10, and the annular groove 5 of the cover 3 corresponds to the configuration of the neck 9 of the coated disk 8.

Centrifugal pump operates as follows.

When the shaft 16 is driven, the drive 17, on which the floor is}} coupling 15 with magnets 14, under the magnetic force of the magnets 13 the impeller 7 is rotated.

In this case, as a result of hydrodynamic interaction with the blades 10 of the impeller 7, the fluid moves along the inter-husky channel 18 from the center to the periphery, creating a vacuum in the inlet channel 4 and overpressure in the space 19 outside the working kies 7 and in the outlet radial channel 2. Due to the creation of pressure differences the liquid is pumped from the suction channel 4 to the discharge channel 2.

The cover disk 8, made in one piece with the blades 10, which are inserted into the corresponding grooves of the drive disk 8, forming a sealed inter-blade channels, eliminates hydraulic loss; in the impeller 7, which increases the volumetric efficiency, and mean the overall efficiency of the pump.

The execution of the inner Central part of the cover 3 with an annular groove 5, which includes the neck of the cover disk 8, forming a labyrinth seal separating the region of rarefaction in the inlet channel 4 and the region of excess pressure in space

HEP outside the impeller 7, provides a significant reduction in hydraulic losses in the pump and, quickly, increase its efficiency.

The manufacture of the lead plate II with grooves 12, and the cover 8 in one piece with the blades1 10 significantly reduces the complexity of manufacturing a pump due to the simplified manufacturing technology of molds for the manufacture of these parts by casting. from chemical resistant: x plastic.

A magnetic clutch made by powder metallurgy from rare-earth materials with a high coercive force Г: allows you to transfer more torque torques from the drive shaft to the impeller.

1 / prefabricated couplings and otpellrm of prismatic bipolar magnets, the reduced area of which with a cross section is 0.66 ... O, 75 of the maximum possible cross-sectional area of the magnetic ring, can improve the performance in dynamic, i.e. prg optimum sizes of magnets transfer ;: max needle flax. If the total cross-sectional area of a single magnet-TOZ is less than 0.66 of the maximum possible cross-sectional area of the magnetic ring, then we transmit the torque of the couplings. The larger total density of half-magnets magnets over 0.76 does not increase the transmitted torque of the magnetic loofah, and the cost of the couplings in this case: will increase due to any weight.

Claims (3)

1. A centrifugal pump comprising a housing with a cover with an axial inlet and radial outlet channels, placed in the housing by an axis with an impeller mounted on it, consisting of a drive, cover discs and impeller blades, and connected to the drive shaft by means of a magnetic coupling, which consists of individual prismatic opposite-pole magnets, characterized in that the impeller blades are made in one piece with the cover disk, and its drive disk is provided with grooves corresponding to the blade configuration, and the inner cent The real part of the housing cover is provided with an annular groove corresponding to the neck of the cover disk.  2. The centrifugal pump according to claim 1, characterized in that the magnetic coupling is made by the method of powder metallurgy from rare earth materials with high coercive force. 3. The centrifugal pump according to claim 2, characterized in that the total cross-sectional area of individual prismatic opposite-pole magnets in the cross section of the outer and inner coupling halves is 0.66 - 0.76 of the maximum possible cross-sectional area of the magnetic ring.