NL9300074A - Pump with magnetic coupling means - Google Patents

Abstract

The present invention provides a pump comprising: - a pump casing; - an inlet on the pump casing for allowing the medium which is to be pumped to enter on the suction side of the pump; - an outlet on the pump casing for allowing the medium to leave on the delivery side of the pump; - a pumping component, for example an impeller which is rotatably arranged on a shaft and can be driven, via magnetic coupling means, by a drive motor, in order to pump the medium from the inlet to the outlet; and - at least one passage which extends in a fixedly positioned casing part to close to a bearing of the shaft which is located at least a certain distance from the pumping component, for example the impeller.

Description

PUMP WITH MAGNETIC COUPLERS

Pumps with magnetic coupling means can be designed completely leak-free, because the shaft to which the impeller of the pump is fitted is arranged in a completely closed shell. Therefore, such a pump is used in toxic, flammable, expensive and / or environmentally unfriendly liquids.

In many known pumps, the bearings of an shaft for cooling and lubrication purposes are flowed through the medium to be pumped. For example, after a pump has been stopped for some time, gas and air bubbles can accumulate in certain places in the pump, whereby the cooling and / or lubrication of the bearing takes place insufficiently and an increased degree of wear occurs.

The present invention provides a pump comprising: - a pump housing; - an inlet on the pump housing for inlet of the medium to be pumped on the suction side of the pump; - an outlet on the pump housing for discharging the medium on the discharge side of the pump; a pumping member, for example a impeller which is rotatably mounted on a shaft and which is drivable via magnetic coupling means by a drive motor for pumping the medium from the inlet to the outlet; and - at least one channel that extends in a fixed housing part to near a bearing of the shaft which is at least some distance from the pumping member, for instance the impeller.

The above-mentioned problems occur in particular with a pump whose shaft is arranged upright or extends approximately vertically, since the air and / or gas bubbles can then accumulate near the top end of the shaft and there a sufficient degree of lubrication and / or especially the upper bearing of the shaft.

The pump according to the present invention combines leak tightness with a relatively simple construction.

Further advantages, features and details of the present invention will become apparent from the following description with reference to the accompanying drawings, in which: Fig. 1 shows a cross-sectional view of a preferred embodiment of the pump of the present invention; FIG. 2 is a sectional view of detail II of FIG. 1 in a normal operating condition; and fig. 3 shows a view corresponding with fig. 2 when the pump is vented.

A pump 1 (fig. 1) comprises a pump housing 2 provided with an inlet 3 and an outlet 4. A impeller 5 is attached to a shaft 6, which is driven by a drive motor 7 by means of magnetic coupling means. The magnetic coupling means are formed by an outer rotor 8 driven by the drive motor 7 and an inner rotor 9 to which the shaft 6 is fixed to a screw end thereof by means of a nut 10. Between the inner rotor 8 and the outer rotor 9, which are both provided with magnetic elements, a bowl or pot 11 is arranged, which is attached at its open end to the pump housing 2 and of which a cylindrical wall extends between the inner and outer rotor.

The shaft 6 (fig. 2, 3) is mounted with respect to a housing part 13 connected to the pump housing 2, for example via a pump cover, and therefore fixed or stationary disposed housing part 13, with the aid of upper and lower radial bearings 14 and 12, respectively. 15 and upper and lower axial bearings 16 and 16, respectively. 17, wherein in the present exemplary embodiment the axial bearings are both located between the radial bearings.

A partial flow of the medium to be pumped is led from the discharge side of the pump (see fig. 1 and 2) via channel 18 along the various bearings into the space enclosed by the shell 11. The shaft 6 is provided for this purpose with an internal central channel 19, and one or more transverse channels 20 extending transversely thereto. The partial flow that serves for cooling and lubricating the bearings 13 - 17 is circulated via channel 21 (see also fig. l) which opens into a space between the pump cover and the impeller where there is a lower pressure than in channel 18.

When the valve 23 is closed, the partial flow supplied via channel 18 also circulates along the lower bearings 15 into an annular space 24 above the impeller 5. Since the space 24 communicates via opening 25 with an internal central space of the impeller , here when rotation thereof there is a lower pressure than in channel 18.

When valve 23 is open (fig. 3), a lower pressure prevails in channel 22 than in channel 21 and in space 24, and air and / or gas will be exhausted via a channel 22 in the stationary housing part 13. The channel 22 preferably opens at a level near or above the upper bearing 14 and extends approximately parallel to the shaft 6 into channel 18. With valve or valve 23 open, the entire channel 22 is opened due to the relatively low pressure in channel 22. space within the shell 11 adequately and quickly vented or gas-free, after which the valve 23 can be closed automatically, e.g. with the aid of a float, or manually. When used in a refinery, the gas will only enter the atmosphere after a so-called flare after combustion.

The present invention is not limited to the exemplary embodiment shown and described. The rights are determined by the following claims.

Claims (5)

A pump, comprising: - a pump housing; - an inlet on the pump housing for the inlet of pumped fluid on the suction side of the pump; - an outlet on the pump housing for discharging the medium on the discharge side of the pump; a pumping member, for example a impeller, which is rotatably mounted on a shaft and which is drivable via magnetic coupling means by a drive motor for pumping the medium from inlet to the outlet; and - at least one channel which extends in a fixed housing part close to a bearing of the shaft which is located at least some distance from the pumping member, the impeller. A pump according to claim 1, wherein the magnetic coupling means comprise first magnetic elements which form part of an inner rotor, and an outer rotor connected to the drive motor, comprising second magnetic elements, wherein a shell is arranged between the inner and outer rotor and the bearing and the channel is located in the space enclosed by the shell. Pump according to claim 1 or 2, wherein the channel extends in the stationary housing part from a position near a bearing part approximately parallel to the shaft. A pump according to claim 3, wherein the channel in the housing part is connected to a channel that extends outside the pump housing, and on which a valve is arranged for venting gases and / or air bubbles into the atmosphere. A pump according to any one of claims 1 to 4, wherein the shaft is disposed approximately vertically and the channel extends near or beyond the level of the upper bearing of that shaft.