DE3433770A1 - SUBMERSIBLE PUMP UNIT - Google Patents

Abstract

1. Motor-driven pump set with an impeller arranged on its pump shaft and a torque-secured planetary gearing sitting between the driving motor and said pum shaft, said pump shaft running in a fixed bearing in the pump casing and with said planetary gearing as a loose bearing in the motor-driven pump set, the planetary gearing being journalled in the motor-driven pump set, characterized by the motor-driven pump set being engineered as a submersible motor-driven pump set with an axial impeller (3), by the planetary gearing (5) being engineered as a reduction gear, by a coupling (12) transmitting the bending moments, arranged between pump shaft (4) and output shaft (11) of the planetary gearing (5), and by the planetary gearing (5) shifting axially.

Description

Submersible motor pump unit

The invention relates to a submersible motor pump unit according to the preamble of the main claim.

Such submersible motor pump units are used for pumping large amounts of liquid at low delivery heads. To the for The use of axial propellers to achieve the necessary speeds is the use of reduction gears between Drive motor and axial propeller make sense for pumps with low speeds. This means that the use of multi-pole, so that slow-running, but large-diameter drive motors can be dispensed with. With the help of the reduction gear it is possible to use the low-pole, high-speed and cheaper ones that are available on the market in significantly larger numbers To be able to find drive motors application. The usage of Reduction gears, however, require a considerable effort with regard to the storage of the pump shaft, drive shaft and the Gear parts.

The invention is therefore based on the object of providing a less complex, statically determined pump assembly for a compact submersible motor pump unit Develop storage. This problem is solved according to the characterizing part of the main claim. By means of this Solution it has become possible to use the pump shaft with just one To arrange bearings within the pump housing and as a result of

Bending torque-transmitting coupling between the pump shaft and the output shaft of the planetary gear is the second pump shaft bearing by forming the planetary gear housing. Since the planetary gear usually has a large number of bearings have within their housing, the forces acting on the pump shaft can be taken over and on the planetary gear housing be directed. The structural unit formed from the pump shaft and planetary gear thus has a Fixed bearing within the pump housing and a floating bearing in the form of the planetary gear housing.

One embodiment of the invention provides that the drive motor with the interposition of a flexible coupling with the drive shaft of the planetary gear is connected. This creates a statically indeterminate bearing within the entire unit locked out.

Another embodiment of the invention provides that the drive motor is connected directly to the planetary gear housing and its Drive shaft is connected or is connected to the stationary ring gear and the drive shaft of the planetary gear. By means of this measure, the size of the unit can be significantly reduced and, for example, when using a hydraulic drive motor, its weight is taken directly from the housing of the planetary gear. According to that The weight of the hydraulic drive motor are the bearings used within the planetary gear and the fixed bearing to check or design the pump shaft.

Another embodiment of the invention provides that a cooperating with the housing of the planetary gear, on Pump housing or the lantern attached stop limits the axial movement of the gear housing. By means of this Measure, clearly defined conditions within the submersible motor pump unit can be maintained.

According to a further embodiment of the invention, the output shaft of the planetary gear is mounted in the area the bearing plane of the planetary gear housing or the stationary ring gear. This will prevent any Moments acting in the radial direction are absorbed by the bearing and the planetary gear parts.

Another embodiment of the invention provides that the Torque support of the planetary gear housing or the stationary ring gear is designed to be shock-absorbing. By means of elastic stops, such as rubber buffers, spring packages, Shock absorbers or the like, with which the planetary gear housing is secured against torque, are conveyed by the pumped medium conditional shocks transmitted by the pump shaft are reduced. The same applies to the start-up of the submersible motor pump unit occurring loads.

Exemplary embodiments of the invention are shown in the drawings and are described in more detail below. It show the

1 shows a submersible pump unit with an electric motor drive and closed planetary gears that

FIG. 2 corresponds to FIG. 1, the use of an open planetary gear and the

3 shows a submersible motor pump unit provided with a hydraulic motor.

1 shows one of an electric drive motor 1 and one in the pump housing 2 arranged axial propeller 3 existing Submersible motor pump unit. This is between a pump shaft 4 provided with the axial propeller 3 and the drive motor 1 Planetary gear 5 arranged. The planetary gear 5, which forms a compact structural unit, consists of the drive shaft 6, which is connected to the drive motor 1 with the interposition of a flexible coupling 7. The housing 8 of the planetary gear 5 is in the lantern 9 supporting the drive motor 1 rigidly or elastically secured against rotation, but displaceable in the axial direction stored. A rubber ring 10 arranged between the housing 8 and the lantern 9 serves to dampen vibrations and provide a seal an oil reservoir that may be used for cooling and lubrication purposes. The output shaft 11 of the planetary gear 5 is connected to the pump shaft 4 by means of a shrink fit connection 12 which transmits bending moments.

The pump shaft 4 is fastened within the pump housing 2 in the radial bearings 13 and angular contact ball bearings 14 which form the fixed bearing.

The housing 8 acts on account of the coupling 12 which transmits bending torque and the bearing inside the planetary gear 5 of the planetary gear as a second pump shaft bearing, i.e. floating bearing.

The submersible motor pump shown in Fig .2 substantially corresponds to the Figure 1, except that here the planetary gear 5 in the direction of axial propeller formed open. The output shaft 11 forming the planet carrier is supported here in the area of the bearing plane of the planetary gear. Additional torques in the transmission are therefore kept negligibly small. A seal attached between the output shaft 11 and the pump housing 2 makes it possible to fill the entire space 16 with oil. This measure can be used in those cases in which very large powers are to be transmitted from the planetary gear 5 and thus the amount of oil located within a closed planetary gear would not be sufficient for cooling and lubrication. In addition to the reduction in the partial scope, this also means reduced production costs.

Fig. 3 shows a particularly compact submersible motor pump unit, in which a drive motor 17 coupled directly to the planetary gear 5 is used. The weight of the drive motor is on in this case on the housing 8 of the planetary gear and it is a question of calculation to what extent the bearings used here sufficient or have to be dimensioned differently. The to or. The high-energy hydraulic fluid is discharged via the lines 18. Rubber blocks 19 serve to support the torque.

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Claims (6)

Klein, Schanzlin & Becker Aktiengesellschaft Claims . Submersible motor pump unit with an axial propeller arranged on its pump shaft and between the drive motor and a reduction gear is interposed between the pump shaft, characterized in that a Reduction gear acting planetary gear (5) secured against torque and axially displaceable in the pump housing (2) and / or a lantern (9) carrying the drive motor (1) is arranged that between the pump shaft (4) and output shaft (11) of the planetary gear (5) a bending moment transmitting coupling (12) is arranged and that the pump shaft (4) with a fixed bearing (13, 14) in the pump housing (2) and is mounted with the planetary gear housing (8) as a floating bearing in the submersible motor pump unit. 2. Submersible motor pump unit according to claim 1, characterized in that that the drive motor (1) with the interposition of a flexible coupling (7) with the drive shaft (6) of the Planetary gear (5) is connected. 3. submersible motor pump unit according to claim 1, characterized in that that the drive motor (1) is connected directly to the planetary gear housing (8) and its drive shaft (6) or is connected to the stationary ring gear and the drive shaft (6) of the planetary gear (5). —P— 4. Submersible motor pump according to claims 1 to 3, characterized in that one with the planetary gear housing (8) cooperating on the pump housing (2) or the
Lantern. (9) attached stop limits the axial movement of the planetary gear housing (8) or the stationary ring gear. 5. Submersible motor pump according to claims 1 to 4, characterized in that the bearing of the output shaft (11) of the planetary gear (5) in the region of the bearing plane of the planetary gear housing (8) or the stationary
Ring gear takes place. 6. submersible motor pump according to claims 1 to 5, characterized characterized in that the torque support of the planetary gear housing (8) or the stationary ring gear
Is designed shock-absorbing.