EP1006282A2 - Selfpriming motorpump assembly - Google Patents

Abstract

The invention relates to a self - priming motor pump unit (1) with an electric drive motor (2), a pump (5) which can be driven by the drive motor (2) and which has at least one impeller (5a) arranged on the shaft of the motor (2) in a rotationally fixed manner, and with a housing which carries a suction nozzle (3) and a pressure nozzle (4) and forms a conveying path (7,8,9) between the suction nozzle (3) and the pressure nozzle (4), suction nozzle (3) and pressure nozzle (4 ) are each arranged in an end section, the suction connector (3) and the pressure connector (4) being arranged coaxially with one another and aligned parallel to the motor shaft (W).

Description

The invention relates to a self-priming motor pump unit according to the preamble of claim 1.

A corresponding pump unit is e.g. from DE 43 04 149 known. This pump set is on the Motor shaft an ejector for self-priming Upstream rotator fixed on the shaft.

A disadvantage of the self-priming motor pump units according to the prior art is that this due to the arrangement of their suction and pressure ports require a relatively large amount of space.

The object of the invention is a motor pump unit to provide that little space for its installation requires and especially easy in existing ones Pipe systems can be integrated.

This task is inventive through a Motor pump unit with the features of claim 1 solved. Further advantageous embodiments of the Motor pump unit according to the invention result from the characteristics of the subclaims.

The present invention relates generally to self-priming motor pump units. So it can Motor pump unit according to the invention as a side channel flow machine be carried out according to the cell washing system work or one in front of the unit have installed vacuum template.

By arranging the two sockets on one axis it is possible to put the motor pump unit in one existing straight pipeline by area Integrate removal of the pipeline.

It is advantageous to directly into the motor pump unit Water hammer arranged. This is special spring loaded. However, it is also possible to use the membrane of the Pneumatic water shock absorber pressurized.

The water shock absorber is special in one advantageous embodiment in the area of the pressure port arranged so that pressure peaks as possible can be buffered quickly. Through integration of the water shock absorber in the motor pump unit the result is a particularly compact design. In addition is the water shock absorber securely in the unit housing housed and thus against external damage protected. Also advantageously run outside of Housing no electrical connection lines between the motor pump unit and the water shock absorber.

A is advantageous for the pressure control of the unit Pressure sensor in the immediate vicinity of the water hammer arranged. The pressure sensor in the form of a Pressure sensor is advantageous in the flow direction behind the Water shock absorber arranged so that the actually in Pressure port prevailing pressure is measured. The Pressure sensor can, for example, also directly in the pressure port to be ordered. However, to avoid that electrical connection lines outside the housing run, the pressure sensor should still be within the Housing arranged, but as close as possible to the Pressure ports are arranged.

So that the flow resistances remain low, the Water hammer damper advantageously not directly in the Flow path of the medium are arranged. The Water shock absorber must have a supply line that is in an advantageous embodiment between the engine and branches off the pressure port from the conveyor path and Medium enables to the membrane of the water shock absorber reach.

The unit described above is suitable particularly good as a rainwater pump. Due to its compact outer shape and the integrated water shock absorber together with pressure control forms the unit according to the invention a sturdy multifunction unit that is easy to use can be assembled and integrated into existing systems leaves.

Advantageous embodiments are shown in the drawings of the unit according to the invention below explained in more detail.

1 shows a motor pump unit 1 with a Motor 2, which with its shaft W is a multi-stage Centrifugal pump 5 drives. The impellers 5a are directly on the shaft W arranged. The capacitor C is on the motor 2 arranged. The unit 1 consists of the housing parts I, II and III. In the housing part I is the motor 2 and the Centrifugal pump 5 arranged. The housing part II forms as it were the suction nozzle 3 and the delivery channel 7, the the pumped medium leads from the suction nozzle 3 to the ejector 6, the ejector 6 is used for self-priming. The Housing part III forms the pressure port 4. On the housing part III is the engine electronics 15 together with the Pressure control, as well as the water shock absorber arranged. The water hammer is composed of a membrane 11 which is pressurized by a spring 12.

The pumped medium, the direction of flow by the arrows is shown, passes from the suction nozzle 3 to Delivery channel 7, from where it by means of the impellers 5a in the delivery channel 8 arrives. The conveyor channel 8 surrounds the Motor 2 and is in thermal via the duct walls Connection, so that the pumped medium the heat of the engine 2 and possibly the capacitor C can dissipate. From Conveying channel 8, the pumped medium reaches the conveying channel 9 of the housing part III. Arrived via a feed line 10 part of the medium to the membrane 11 of the Water hammer damper D. Most of the Pumped medium flows past the feed line 10 through the Pressure port 4 and from there into the not shown Pipe system.

The pressure in the pressure port 4 increases via a permissible value, the membrane 11 against the Spring force of the return spring 12 in the water hammer D pushed in, increasing the volume of the delivery channel 9 briefly enlarged and the Pressure peak is reduced on the pressure side. The membrane 11 is sealing against the inner wall of the water shock absorber D on. So that there is pressure equalization can, is in the wall of the water shock absorber D. Opening D ', so that there is no membrane 11 behind Can build up excess pressure, the function of the water shock absorber D would affect.

The electronics 15 ascertains by means of a pressure sensor 14 the pressure in the pressure port 4 and regulates the delivery rate the centrifugal pump 5. By means of covers 16 and 18, which by means of screws 17 and 19 on the housing parts II and III are attached, the latter are closed, so that especially the electrical components of the electronics 15, and the supply lines 20 against pollution and Damage is protected. The electrical lines from the electronics 15 to the motor 2 are in one Sealed channel 13 passing through conveyor channel 9 guided.

FIG. 2 shows a further embodiment in which between the housing part III, which forms the pressure port and the housing part I accommodating the motor 2 Another housing part IV is arranged, in which the Electronics 15 and the water hammer D arranged are. In this embodiment, the electronics 15 flowed from two sides by the pumped medium, whereby the heat generated by the electronics 15 from the medium is transported away.

Claims (15)

Self-priming motor pump unit (1) with an electric drive motor (2), a pump (5) which can be driven by the drive motor (2) and which has at least one impeller (5a) arranged in a rotationally fixed manner on the shaft of the motor (2), and with a housing, which carries a suction nozzle (3) and a pressure nozzle (4) and forms a conveying path (7, 8, 9) between the suction nozzle (3) and the pressure nozzle (4), characterized in that suction nozzle (3) and pressure nozzle (4) are arranged in a respective end section, the suction port (3) and the pressure port (4) being arranged coaxially with one another and aligned parallel to the motor shaft (W). Motor pump unit (1) according to claim 1, characterized in that a particularly spring-loaded water hammer is arranged between the impeller (5a) and the pressure port (4). Motor pump unit (1) according to claim 1, characterized in that the water hammer damper is a diaphragm damper (11). Motor pump unit (1) according to one of claims 2 or 3, characterized in that the water hammer damper is arranged in a housing section adjacent to the pressure port (4). Motor pump unit (1) according to one of the preceding claims, characterized in that a pressure control is provided with a pressure sensor (14) which maintains a minimum pressure on the pressure side. Motor pump unit (1) according to one of the preceding claims, characterized in that the drive motor (2) is a canned motor which is surrounded by the pumped medium during operation. Motor pump unit (1) according to one of the preceding claims, characterized in that the housing has a plurality of sections of substantially the same outer cross section, which are held together by means of screws oriented axially parallel to the motor shaft (W). Motor pump unit (1) according to one of the preceding claims, characterized in that the water hammer is not in the conveying path . Motor pump unit (1) according to one of the preceding claims, characterized in that the water hammer damper communicates with the delivery path in the region of the pressure port (4). Motor pump unit (1) according to one of the preceding claims, characterized in that the water hammer damper has a feed line (10) which branches off from the delivery path (9) between the motor (2) and the pressure port (4). Motor pump unit (1) according to one of the preceding claims, characterized in that the suction nozzle (3) and the pressure nozzle (4) are offset axially parallel to the motor shaft (W). Motor pump unit (1) according to one of the preceding claims, characterized in that an impeller is a suction impeller or an ejector (6) which forms the first stage of the multi-stage centrifugal pump. Self-priming motor pump unit (1) with an electric drive motor (2), a pump (5) which can be driven by the drive motor (2) and which has at least one impeller (5a) arranged in a rotationally fixed manner on the shaft of the motor (2), and with a housing, which carries a suction nozzle (3) and a pressure nozzle (4) and forms a conveying path (7,8,9) between the suction nozzle (3) and the pressure nozzle (4), characterized in that between the impeller (5a) and the pressure nozzle ( 4) an in particular spring-loaded water hammer damper (D) is arranged. Self-priming motor pump unit (1) according to claim 13, characterized in that the water hammer damper (D) is arranged in the housing part forming the pressure connection (4). Use of the motor pump unit (1) after a of the preceding claims as a rainwater pump.

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