EP4229299A1 - Coupling unit with connecting pieces - Google Patents

Abstract

The invention relates to a pump assembly having a coupling unit (1) that connects a pump casing (2) to a motor casing (3). The coupling unit (1) has a pump-side connection part (4) and a motor-side connection part (5). Between the connection parts (4, 5) an annular element (6) is suspended by means of supports (7).

Description

description

Lantern with bars

The invention relates to a pump arrangement with a lantern which connects a pump housing and a motor housing to one another, the lantern having a connection part on the pump side and a connection part on the motor side.

Such a pump arrangement can be a centrifugal pump arrangement, for example. Centrifugal pumps are based on the principle of energy transfer to a fluid through a change in swirl as a result of a torque that is triggered by a uniformly rotating impeller on the fluid flowing through it.

Centrifugal pumps are mostly driven by electric motors. In addition to this electrical drive, piston engines are also used as drives in centrifugal pump technology. Electric motors generate a uniform torque. The electric motor is an electromechanical energy converter that converts electrical energy into mechanical energy. Depending on the form in which the electrical energy is available, DC motors, AC motors or three-phase motors are used. As a rule, the electrical energy is converted into a rotational movement.

The electric motor driving a centrifugal pump is usually connected to the pump at a certain distance via a lantern. The lantern acts as a connecting element between the motor and the pump. The motor drive shaft occurs in the middle through openings in the two flanges or covers for attachment to the motor and pump housing. Lanterns are commonly made by casting.

Such a lantern and a corresponding production method are described, for example, in EP 1 038 611 A2. The type of connection enables a particularly stable design of a lantern.

In pump arrangements that are used to convey fluids at high temperatures, there can be a high level of heat input from the pump housing in the direction of the electric motor. This can lead to several problems with the electric motor. High temperatures reduce the efficiency of energy conversion. The components of the motor, in particular the windings of the stator and the rotor, are thermally stressed, which can shorten their service life.

The electric motor control may reduce the power consumption and the speed to prevent the electric motor from overheating, which means that the pump can no longer work in the desired operating range.

The object of the invention is to provide a lantern as a connecting element between a pump housing and a drive motor. The lantern should conduct the heat that emanates from the pump housing when pumping hot fluids towards the motor as little as possible. Furthermore, the lantern should be characterized by a compact design. The exchange of spare parts should be favored by the construction of the lantern. The lantern should be easy and inexpensive to implement.

According to the invention, this object is achieved by a pump arrangement with a lantern. Preferred variants can be found in the dependent claims, the description and the drawings. According to the invention, an annular element is suspended via brackets between the connection parts.

The connecting parts can be designed as a pump-side or motor-side connecting flange. In a particularly compact embodiment of the invention, the connection part on the pump side is designed as a bearing support cover for the pump and the connection part on the motor side is designed as a cover for the engine block.

The ring-shaped element is preferably designed as a sleeve which is connected to the connection parts via the holders. As a result, the lantern is advantageously designed to be particularly compact and space-saving. On the one hand, the brackets are structurally reinforced in order to be able to carry and hold the mass of the engine block, and on the other hand, they are designed to be as minimal as possible in order to reduce the heat conduction from the pump housing in the direction of the engine housing as far as possible.

A bracket is a fastening element that fixes the ring-shaped element to the connection part, and at the same time a connecting element that connects the ring-shaped element to the motor and pump housing or a connecting flange.

In an advantageous variant of the invention, the holders are designed like struts. As a result, the brackets divert the forces emanating from the engine housing or the engine block via the pump housing into the base of the pump.

The brackets form a rigid suspension of the ring-shaped element and at the same time almost perfectly decouple the heat conduction from the pump housing in the direction of the motor, thus enabling the use of materials with higher thermal conductivity if necessary.

In a particularly favorable variant of the invention, the holders extend from the edge of each connecting part to an inner ring, in particular an annular sleeve, which can be used, for example, as a bearing support for accommodating a radial bearing for the pump shaft. As a result, the bearing support sleeve is particularly advantageously stabilized and the lantern component is efficiently reduced to the required features.

The lantern is preferably designed in one piece, so that the connection parts, the holders and the ring-shaped element form a component which is preferably designed as a cast component. In a particularly favorable variant, the lantern is designed as an aluminum die-cast part.

The brackets ideally protrude radially inwards from the connecting parts and hold the ring-shaped element. In this case, the ring-shaped element is arranged within the base area of at least one connection element. The ring-shaped element has a smaller cross-sectional area due to the reduction in its proportions, realized by protruding inwards, as a result of which the heat conduction from the pump housing in the direction of the motor is reduced.

The bracket in the form of a strut is a component that is primarily used to dissipate tensile and compressive forces caused by the mass of the engine. The shape of the brackets, which is aligned radially inwards, facilitates the dissipation of forces.

In a favorable variant of the invention, the holders are designed in the form of webs. Webs favor the spacing by creating a distance between the connection part and the annular element, as a result of which the heat conduction from the pump housing in the direction of the motor is decoupled in an extremely favorable manner.

Advantageously, the brackets extend radially inwards from the connection parts towards the annular element, as a result of which the spacing and decoupling with regard to the heat conduction of the pump housing to the motor is promoted.

Preferably, the connection of the ring-shaped element and the connection parts can additionally be reinforced with at least one stabilization element. Included For example, the cross-sectional area of a stabilization element is designed to be particularly small, with the correct positioning of even a stabilization element with a small cross-section achieving a high degree of reinforcement. As a result, the suspension of the ring-shaped element is particularly stable, while the conduction of heat from the pump housing in the direction of the motor is virtually decoupled.

In a particularly advantageous variant of the invention, the holders on the pump-side connection part are offset from the holders on the engine-side connection part. As a result, in addition to the decoupling through the brackets, the path for the thermal conduction through the brackets is also lengthened, as a result of which the thermal conduction from the pump housing in the direction of the motor housing is additionally reduced.

The cross-sectional area of the mounts is significantly reduced compared to the cross-sectional area of the annular member to reduce heat conduction. In a particularly advantageous variant of the invention, the smallest cross-sectional area of a radial section in the connection area of the brackets is more than 70%, preferably more than 80%, in particular more than 90% smaller than the cross-sectional area of the end faces of the ring-shaped element. Due to the special design of the lantern, in particular the brackets, the heat conduction in the direction of the motor is advantageously decoupled.

A radial cut in the connection area of the holders preferably means that existing stabilization elements are also cut at the same time and form a proportion of the cross-sectional area in the connection area of the holders. Ideally, the sum of the cross-sectional area of the brackets and the cross-sectional area of the stabilization elements of a radial section in the connection area of the brackets is more than 65%, preferably more than 75%, in particular more than 85% smaller than the cross-sectional area of the end faces of the ring-shaped element. In order to reduce the heat conduction within the ring-shaped element, the ring-shaped element has additional material recesses, which are preferably designed like windows. For this purpose, the ring-shaped element has at least one window-like material recess. In a particularly favorable variant of the invention, the ring-shaped element has at least four window-like material recesses. As a result, the cross-sectional area of the ring-shaped element is partially significantly reduced, as a result of which the heat conduction from the pump housing in the direction of the motor is significantly reduced.

The window-like material cutouts not only lead to a reduced cross-sectional area, but at the same time lengthen the heat conduction path through the existing cross-sectional area of the ring-shaped element.

In an advantageous variant of the invention, the ring-shaped element has at least one formation that serves to stiffen the lantern. As a result, engines with a greater mass can also be hung on the lantern. The ring-shaped element preferably has two, preferably three, in particular four reinforcements.

The number of holders on which the ring-shaped element is suspended can be adapted to the mass of the electric motor on the one hand to form sufficient load-bearing capacity and on the other hand to reduce heat conduction to the temperatures of the centrifugal pump. In a particularly favorable variant of the invention, the ring-shaped element is suspended on exactly three holders, each on a connection part.

In an advantageous variant of the invention, the ring-shaped element has four holders on each connection part. Due to the strut-like brackets, the ring-shaped element is suspended in a particularly stable manner while at the same time the brackets have a minimal cross-section, which reduces heat conduction from the pump housing in the direction of the motor.

In a further variant of the invention, the annular element is suspended at each end by five or six or seven or eight brackets. Advantageously, the suspension of the ring-shaped element can be reinforced with the aid of stabilizing elements. In a favorable variant, the ring-shaped element is reinforced with four stabilization elements each on a connection part.

The ring-shaped element preferably has more than two, in particular more than three, and/or fewer than six, in particular fewer than five, stabilization elements on each connection part.

In a particularly advantageous variant of the invention, a stabilization element is arranged centrally between each of two holders, as a result of which the ring-shaped element is suspended in a particularly robust and efficient manner.

Ideally, four brackets are each offset by 90°, while another four stabilization elements are also offset by 90° to one another. In a particularly favorable variant of the invention, the stabilizing elements are each offset by 45° relative to the holders.

In a particularly favorable variant of the invention, the lantern connects the pump housing and the motor housing directly. As a result, the pump arrangement is very compact and reduced to the essentials.

The lantern is preferably designed in the shape of a cylinder and/or a trumpet funnel. This spatial configuration is particularly advantageous in order to achieve additional cooling of the lantern by the flow of cooling air that is generated by the motor fan and flows over the lantern. In an alternative variant of the invention, the lantern can also be designed in the shape of a cone and/or cuboid and/or as a body with a polygonal base.

In a variant of the invention, the lantern is designed in one piece with the motor-side pressure cover of the pump housing and/or in one piece with the pump-side motor cover. The lantern can thus advantageously be made particularly compact and enables a pump arrangement with dimensions that can also be used at installation sites with limited space.

The lantern is preferably designed as a bearing support on the pump side and/or on the motor side. This leads to a particularly compact design of the lantern and at the same time to a reduction in the assembly effort due to the reduction in the number of parts.

The lantern according to the invention is characterized by a compact, axial design, in which the conduction of heat from the pump housing in the direction of the motor housing is decoupled by the spacing using brackets. At the same time, the lantern as a one-piece component is cheap to manufacture and advantageous in terms of assembly.

Further features and advantages of the invention result from the description of exemplary embodiments based on the drawings and from the drawings themselves.

It shows:

1 is a side view of the pump assembly,

2 shows a perspective view of the lantern according to the invention,

3 is a perspective view of a partially sectioned lantern,

4 shows a perspective representation of a further section through the lantern,

5 is a perspective view of a third section through the lantern.

1 shows a pump arrangement with a lantern 1 which connects a pump housing 2 and a motor housing 3 to one another. The illustrated in the embodiment Centrifugal pumps are used to convey fluids that can have high temperatures depending on the area of application.

The fluid enters the pump housing 2 of the centrifugal pump through a suction mouth 15 . An impeller, not shown, is arranged inside the pump housing 2 . The impeller transfers kinetic energy to the fluid, which leaves the centrifugal pump via the pressure port 16 . The space filled with fluid and the impeller is delimited by a pump housing 2 and a housing cover 17 . The impeller is connected in a rotationally fixed manner to a pump shaft 18 which drives the impeller by means of a motor arrangement.

The lantern 1 is fixed to the pump housing 2 with four connecting elements 20 . In this embodiment variant, the connecting part 5 is designed in one piece as a motor cover and is fixed to the motor housing 3 with the connecting elements 21 . The lantern 1 is very compact, with the ring-shaped element 6 being suspended from the connecting parts 4 , 5 by means of the holders 7 .

In Fig. 2 is a perspective view of the lantern 1 is shown. The ring-shaped element 6 is suspended from the connection parts 4 and 5 by means of four holders 7 each. The brackets 7 are designed like struts and are therefore able to securely suspend the mass of an engine design to be carried. For this purpose, the ring-shaped element 6 is reinforced by two formations 14 in the embodiment shown. At the same time, the mounts 7 are aligned radially inwards and are designed to be as minimal as possible in order to conduct heat conduction from the hot pump housing 2 into the motor housing 3 as little as possible. In order to minimize heat conduction, the ring-shaped element 6 has four window-like material recesses 13 in this embodiment variant. Lantern 1 is made in one piece from die-cast aluminum.

The cuboid connecting element 4 is designed with rounded corners, with the brackets 7 each starting in the middle and extending radially inward in the manner of struts. stretch. As a result, the ring-shaped element 6 has a significantly smaller cross-sectional area than the connection part 4 . The ring-shaped element 6 is thus arranged within the base area of the connection element 4 with a reduced cross-sectional area, as a result of which the heat conduction in the direction of the motor housing 3 is significantly reduced.

3 shows a perspective representation of a partially sectioned lantern 1 . In this embodiment variant, the ring-shaped element 6 is suspended from the connecting part 5 with four holders 7 and is additionally reinforced with four stabilization elements 25 .

Furthermore, Fig. 3 shows a radial section in the connection area of the holders 7 with their cross-sectional area 10 and the cross-sectional area 8 of the stabilization elements 25. The sum of the cross-sectional areas 8 and 10 is more than 80% smaller than the cross-sectional area 11 of the annular element 6 in 4. This results in an enormous reduction in heat conduction from the pump housing 2 in the direction of the motor housing 3, since the heat conduction surface is reduced to four minimally designed holders 7 and four stabilizing elements 25.

At the same time, material recesses 22 are formed on the side of the connection part 4 and on the side of the connection part 5 between the brackets 7, into which the cooling air flow, which is generated by the motor fan (not shown), can flow in to dissipate a heat flow. In addition, the flow of cooling air dissipates heat by flowing over the outer surface of the lantern 1 .

5 shows a perspective representation of a third section through the lantern 1, in which the window-like material recesses 13 of the ring-shaped element 6 are also sectioned. The cross-sectional area 23 is reduced by 40% due to the window-like material recesses 13 compared to the cross-sectional area 11 of the ring-shaped element 6 in FIG. At the same time, the cooling air flow of the motor fan can also flow through the window-like material recesses 13 and dissipate heat. The four strut-like mounts 7 extend from the edge of the connecting part 5 to the cylindrical bearing sleeve 24, which serves to accommodate a radial bearing, not shown. In this embodiment variant of the invention, the connecting part 5 is designed in one piece as a bearing support cover of the motor housing 3 and supports a radial bearing of the pump shaft 18. The continuation of the brackets 7 on the inside of the annular element 6 advantageously strengthens and stiffens the bearing sleeve 24.

Between the ring-shaped element 6 and the connecting part 5 , in addition to the four holders 7 , four further stabilization elements 25 are arranged for suspending the ring-shaped element 6 . The stabilization elements 25 with a very small cross-sectional area are arranged centrally between each two holders 7 in order to reduce heat conduction. Starting from the pump shaft 18 (not shown), the four brackets 7 are each offset by 90°, while the four stabilization elements 25 are also offset by 90° to one another, with the stabilization elements 25 being offset by 45° to the brackets 7 .

Claims

patent claims

Lantern with bars Pump arrangement with a lantern (1) which connects a pump housing (2) and a motor housing (3) to one another, the lantern (1) having a connection part (4) on the pump side and a connection part (5) on the motor side, characterized in that that between the connecting parts (4, 5) an annular element (6) is suspended via brackets (7). Pump arrangement according to Claim 1, characterized in that the annular element (6) is arranged within the base area of at least one connection element (4, 5). Pump arrangement according to Claim 1 or 2, characterized in that the holders (7) are constructed in the manner of struts. Pump arrangement according to one of Claims 1 to 3, characterized in that stabilizing elements (25) are arranged between the connection parts (4, 5) and the annular element (6), one stabilizing element (25) preferably being arranged between two holders (7). . Pump arrangement according to one of claims 1 to 4, characterized in that the brackets (7) extend radially inwards towards the annular element (6). Pump arrangement according to one of Claims 1 to 5, characterized in that the cross-sectional areas (8, 10) of a radial section in the connection area of the holders (7) are more than 65%, preferably more than 75%, in particular more than 85% smaller are than the cross-sectional area (11) of the end faces of the annular element (6). Pump arrangement according to one of Claims 1 to 6, characterized in that the annular element (6) has at least one window-like material recess (13). Pump arrangement according to one of Claims 1 to 7, characterized in that the annular element (6) has at least one formation (14). A pump assembly as claimed in any one of claims 1 to 8, characterized in that the annular element (6) is suspended at each end via three or four or five or six or seven or eight brackets (7). Pump arrangement according to one of Claims 4 to 9, characterized in that at each end of the annular element (6) the number of stabilizing elements (25) corresponds to the number of holders (7). Pump arrangement according to one of claims 1 to 10, characterized in that the lantern (1) directly connects the pump housing (2) and the motor housing (3). Pump arrangement according to one of claims 1 to 11, characterized in that the lantern (1) is cylindrical and/or trumpet-shaped and/or cone-shaped and/or designed as a body with a polygonal base. Pump arrangement according to one of Claims 1 to 12, characterized in that the connection part (4) on the pump side is constructed in one piece with the pressure cover (17) of the pump housing (2) on the motor side.

14. Pump arrangement according to one of claims 1 to 13, characterized in that the motor-side connection part (5) is formed in one piece with the pump-side motor cover of the motor housing (3).