AT508076B1 - RADIAL PUMP - Google Patents

Abstract

The invention relates to a radial pump (1) with an impeller (2) mounted in a housing (3) with a split-ring slide which is axially movable between the impeller (2) and an exit region (6) To achieve sealing in the closed position and to largely avoid the deposition of dirt, it is provided that between the split ring valve (7) and the housing (3) or a housing-fixed part (3a) at least a first sealing element (8) is arranged the first sealing element (8) bears sealingly against a first sealing surface (13) formed by the housing (3) or the housing-fixed part (3a) in a closing position of the split-ring slide (7) and free in at least one opening position relative to the first sealing surface (13) is, and wherein preferably at least one second sealing element (9) on an impeller-side end face (15) of the split-ring slide (7) is arranged.

Description

Austrian Patent Office AT508 076 B1 2011-07-15

The invention relates to a radial pump with an impeller mounted in a housing, with a split-ring slide, which is axially movable between the impeller and an outlet region, wherein between the split-ring valve and the housing or a housing-fixed part at least a first sealing element is arranged wherein the first sealing element in a closed position of the split-ring slide sealingly bears against a first sealing surface formed by the housing or the housing-fixed part.

It is known to carry out radial pumps with split gate valves. These have the purpose of shutting off the impeller against the pressure housing by a smooth wall with closed pump pressure line, but further running pump and to keep in this way the hydraulic losses as low as possible. The adjustment of the split ring valve is usually done hydraulically by servomotors or electrically via electromagnets.

DE 881 306 C describes a centrifugal pump with hydraulically adjustable split-ring valve, wherein the split-ring valve has a full-walled axially guided in the pump housing hub disc, which itself serves as a hydraulic pressure piston. The hub disc is adjacent to an exit region, which is hydraulically connected to the suction side of the radial pump. Thus, the split-ring valve is opened by the pressure difference between the suction side and pressure side of the radial pump against the force of a closing spring. Control valves can be used to regulate the pressure difference.

From DE 22 62 883 C2 a radial pump with a ring slide is known, which is arranged axially inserted between the impeller and the guide channels. The operation of the annular slide is effected via a piston adjacent to an outlet region in the housing by a servo means.

Furthermore, from CH 133 892 B, a centrifugal pump with an annular slide is known, which is arranged axially movable in a side wall of the housing. The annular slide is displaced axially by a pressure medium, wherein the pressure medium is fed into a region adjacent to an end face of the annular slide outlet region. In one embodiment, the annular slide is designed as a rotary valve and has openings that can be brought by the rotation of the slider in, or out of alignment with the mouths of connecting channels that lead from the impeller to the exit area.

DE 199 01 123 A1 discloses a controllable radial pump for conveying a coolant for a motor vehicle, which has an adjusting device for independent of the speed of the impeller control of the medium to be transported. The adjusting device is operatively connected to a sleeve which is displaceable over the pump blades in the axial direction.

Furthermore, from US 4,802,817 A a radial pump with a self-regulating impeller outlet is known, wherein in the region of the impeller outlet, an axially displaceable slide is arranged, which is automatically adjusted axially depending on the pressure in the outlet spiral. For sealing a plurality of O-ring sealing elements are arranged between the slide and the surrounding housing.

WO 2007/071217 A1 discloses a controllable coolant pump with a split-ring slide, which is axially movable between the impeller and an outlet region. Between the split-ring slide and the housing of the coolant pump, a mechanical seal is arranged, which is designed as an elastomeric seal.

A similar controllable coolant pump is known from EP 1 657 446 A2, wherein between the slide ring slide and the surrounding housing arranged in an annular groove of the slide piston ring is arranged. Furthermore, a sealing edge is provided at the free end of the slide, which allows a Abregeln, as well as a complete shut-off of the flow. Also, from DE 10 2006 034 960 A1, a coolant pump with a split-ring slide is known, sealing elements being arranged between the split-ring slide and the housing.

Such arranged sealing elements have the disadvantage that deposits preferably deposited in low-flow zones in the region of the sealing elements. Furthermore, acting in the radial direction of sealing elements increase the force required for the operation of the split ring valve.

The object of the invention is to avoid the disadvantages and to allow for a radial pump of the type mentioned a reliable seal in the closed position at relatively low operating forces, with pollution-intensive areas to be avoided.

According to the invention, this is achieved in that the first sealing element is arranged in the region of an annular shoulder of the split-ring slide and is free in at least one opening position relative to the first sealing surface, and wherein preferably at least a second sealing element is arranged on a impeller-side end face of the split-ring slide. It can be provided that the first sealing element is pressed in the closed position of Spatringschiebers in the axial direction against the first sealing surface of the housing or a housing-fixed part.

It when the first sealing surface is arranged substantially in a normal plane to the axis of rotation of the impeller is particularly advantageous.

The first sealing element may be arranged at a first end of the split-ring slide, the second sealing element at a second end of the split-ring slide, wherein preferably the first and the second sealing element are arranged the same orientation, preferably having the first sealing surface of the second sealing element impeller-side end face of the split ring slide is remote.

Both the first sealing element, and the second sealing element thus acts in the same direction, each with a corresponding sealing surface normal to the axis of rotation of the impeller together, wherein only in the closed position of the split ring slide seal. During an open position of the split-ring slide, the fluid can flow unhindered between the sealing elements and the corresponding sealing surfaces and thus wash away possibly deposited contaminants. At the same time a tight closing is ensured in the closed position of the split ring valve. Since the sealing elements cooperate only in the closed position with the corresponding sealing surfaces, a relatively small amount of force is required for the operation of the split ring valve. Another problem is that thermal expansion of the material can lead to unacceptable increases in friction and jamming of the system.

By acting in the axial direction of sealing elements length changes due to temperature effects and manufacturing tolerances can be compensated particularly well. The sealing elements can be formed by O-ring seals or lip seals.

By the pressure-side closing of the radial pump by means of the split-ring valve, the warm-up times can be significantly shortened when used as a coolant pump in a motor vehicle.

The invention will be explained in more detail with reference to FIG.

The figure shows a radial pump 1 with an impeller 2, which is rotatably mounted in a housing 3 via a bearing 4. Reference numeral 5 designates the inlet region, with reference numeral 6 the outlet region of the radial pump 1.

The radial pump 1 has a rotatably and slidably mounted in the housing 3 split-ring slide 7, which can be moved in the exit region 6 via the impeller 2. To 7 leaks to 2/5 in particular in the closed state of the split ring valve

Claims (8)

Austrian patent office AT508 076B1 2011-07-15 avoid, in the illustrated closed position between the split ring valve 7 and the housing 3 or a housing-fixed part 3a, 3b, a first sealing element 8 at a first end 7a in the region of an annular shoulder 11 of the split ring valve 7 and a second sealing element 9 in the region of an impeller-side end face 15 of a second end 7b of the split-ring slide 7 is arranged. In the closed position, the first sealing element 8 is pressed in the direction of the axis of rotation 2a against a first sealing surface 13 formed by a housing-fixed part 3a and the second sealing element 9 against a second sealing surface 14 of the housing-fixed part 3b. Thus, a reliable seal is ensured in the closed position. If the split ring valve 7 is opened, the first and second sealing elements 8, 9 are released from the corresponding sealing surfaces 13, 14, whereby the fluid can pass unhindered. As a result, deposits in the region of the first and second sealing elements 8, 9 are reliably flushed away. Since the sealing elements 8, 9 rest only in the closed position on the corresponding sealing surfaces 13, 14, only relatively small forces are required for the operation of the split-ring valve 7. The sealing elements 8, 9 can be made as O-ring seals, profile or lip seals, and possibly in one piece with the split ring valve 7. It is also possible to use sealing elements which were produced by the dispenser method. In the embodiment shown in the figure, the actuation of the split-ring slide 7 via an actuating rod 12 and a not further apparent ramp or thread. The actuating rod 12 can be actuated for example by at least one vacuum box, not shown, which is mounted in the housing 3. Alternatively, an electrical, hydraulic or mechanical actuation is possible. Radial pump (1) with a in a housing (3) mounted impeller (2), with a split-ring slide (7), which between the impeller (2) and an outlet region (6) is formed axially movable, wherein between the split-ring slide (7) and the housing (3) or a housing-fixed part (3a) at least a first sealing element (8) is arranged, wherein the first sealing element (8) in a closed position of the split ring valve (7) at one of the housing (3) or the first sealing surface (13) formed in the housing-fixed part (3a) sealingly bears, characterized in that the first sealing element (8) is arranged in the region of an annular shoulder (11) of the split-ring slide (7) and in at least one opening position relative to the first sealing surface (13). 13) is free, and wherein preferably at least one second sealing element (9) on an impeller-side end face (15) of the split-ring slide (7) is arranged. 2. Radial pump (1) according to claim 1, characterized in that the first sealing element (8) in the closed position of the split-ring slide (7) in the axial direction against the first sealing surface (13) of the housing (3) or a housing-fixed part (3a) pressed. 3. Radial pump according to one of claim 1 or 2, characterized in that the first sealing surface (13) is arranged substantially in a normal plane (ε) on the axis of rotation (2a) of the impeller (2). 4. Radial pump (1) according to one of claims 1 to 3, characterized in that the first sealing element (8) on a the impeller (2) facing away from the first end (7a) of the split-ring slide (7) and the second sealing element (9) one of the impeller (2) facing the second end (7b) of the split ring valve (7) is arranged. 5. Radial pump (1) according to one of claims 1 to 4, characterized in that the first and the second sealing element (8, 9) are arranged the same orientation, wherein preferably the first sealing surface (13) of the second sealing element (9) having impeller-side end face (15) of the split-ring slide (7) facing away. 3/5 Austrian Patent Office AT508 076 B1 2011-07-15 6. Radial pump (1) according to one of claims 1 to 5, characterized in that the first and / or second sealing element (8, 9) is formed integrally with the split-ring slide (7). 7. Radial pump (1) according to any one of claims 1 to 6, characterized in that at least one sealing element (8, 9) is formed by a lip seal or profile seal. 8. Radial pump (1) according to one of claims 1 to 7, characterized in that at least one sealing element (8, 9) is formed by an O-ring seal. 1 sheet of drawings 4/5