DE102005039557A1 - rotary pump - Google Patents

Abstract

The invention is based on a centrifugal pump (10) for liquids with a pump spiral housing (12) and a pump wheel (28), which is driven by an integrated electric motor (14, 20, 34, 36) whose axis of rotation (29) is coaxial to the axis of rotation (37) of the pump wheel (28) is arranged, the pump spiral housing (12) being sealed by a sealing ring (72) and connected to the motor housing (14) by means of a bayonet lock (74, 78) and covering it at the end. It is proposed that the motor housing (14) be pot-shaped, made of plastic and that its bottom (13) facing the pump spiral housing (12) forms a common housing wall to the pump spiral housing (12).

Description

The Invention is based on a centrifugal pump according to the preamble of the claim 1 off.

From the DE 102 04 459 A1 is a liquid pump, in particular a water pump, known. It is designed as a centrifugal pump, wherein a pump volute casing surrounds an impeller, which is driven by an electric motor. This is arranged coaxially with the impeller and has a housing which is open to the pump spiral housing. The pump scroll housing is split in a plane transverse to the axis of rotation of the impeller, wherein in each part one half of the pressure spiral is arranged and an outer part comprises the inner part with a cylindrical fit. Between an outwardly projecting shoulder at the free end of the inner part and the end face of the outer part, a groove for receiving a sealing ring is formed, which is pushed during assembly in a cylindrical seat of the motor housing. In this case, the sealing ring is located both on the seat surface of the motor housing and on the groove forming surfaces of the inner and outer part of the spiral pump housing, so that after assembly, both the motor housing and the Spiralpumpengehäuse are sealed to the outside. The motor housing and the pump spiral housing are connected to each other in the manner of a bayonet closure. For this purpose, the outer part of the spiral pump housing in the vicinity of the sealing ring on radially directed projections which are distributed over the circumference and are pushed axially during assembly between corresponding undercuts and reach behind undercuts on the motor housing. By the pump volute casing is rotated by a predetermined angle relative to the motor housing, the projections reach behind the undercuts, wherein on the sealing ring an axial force is exerted and the sealing ring is sealingly supported on the adjacent components. An anti-twist device prevents the connection from unintentionally loosening again. For connecting the motor housing with the pump spiral housing no additional fastening means and only a single sealing ring are required. As a result, the assembly and disassembly of the pump is easy and the cost of manufacturing and repair are low.

Advantages of invention

To the invention, the motor housing is cup-shaped and made of plastic, wherein the pump spiral housing facing the bottom a common housing wall to the pump spiral housing forms. This results in a compact design with a hermetic Sealing between the current leading Areas of the electric motor, namely the stator, a circuit board and an electronics cover and the liquid leading Split the pump part. At the same time, the number of parts is reduced and the simple connection of the motor housing with the spiral housing after Type of a bayonet lock received. By the relative rotation the parts to each other in the inventive compound no axial Displacement of the parts causes. The axial delivery of the parts each other is applied before the rotary motion. This will be Tolerance problems avoided.

According to one Embodiment of the invention, the bottom of the motor housing a to the open end facing, concentric with the axis of rotation protuberance one approximate cylindrical partition and with an inner bottom up. This one owns in its middle region, a thickening in which a pointing to the pump spiral housing Bearing axis is injected. A rotor of the electric motor, in the usual Has permanent magnets, is integrally formed with the impeller and a Injected bearing rotatably mounted on the bearing axis. In an advantageous manner Way are the rotor and the impeller on the bearing axis between the Thickening and a starting mushroom secured axially. This one will open the free end of the bearing shaft is pushed and locked with an anti-twist device in a groove on the bearing axis. The mushroom picks up its outer contour in an inlet port of the spiral housing, with its contour so is designed that in transition from the inlet nozzle to the impeller favorable flow conditions. Here too are additional Fasteners not required.

According to one embodiment of the invention, a coil body of the stator of the electric motor is used in the annular space between the partition and the outer wall of the motor housing, which closes the annulus with an end wall. The bobbin is also connected in the manner of a bayonet lock with the motor housing by projections on the periphery of its end wall engage behind undercuts of the motor housing, which are directed radially inward. It is expedient that the bobbin externally supported by the delivery pressure walls of the motor housing and transmits the forces on its projections on the undercuts of the motor housing, so that the walls of the motor housing can be kept very thin in this area. He also prevents an extension of the partition. The extension would result in a shift in the position of the electronics housed in the part of the motor housing which adjoins the bobbin towards the free end. The of The forces transmitted to the coil body on the inner walls of the motor housing act as tensile forces in this case and are transmitted over a short path to the stable outer wall. In addition, the connection between the bobbin and the motor housing results in the same advantages as in the connection between the pump spiral housing and the motor housing. An incorrect assembly is expediently prevented by at least one coding in the region of the undercuts of the motor housing.

at In another embodiment, the bobbin is in the region of the annular space of the motor housing starting from its end wall to the bottom of the motor housing wound with enamelled copper wire whose wire ends in bases for insulation displacement terminals are stored. A coil formed from the enameled copper wire is arranged in a radially open annular space of the bobbin, via the opening with Pressing a return ring on the bobbin pushed to the front wall. The return ring is in contact with yoke parts in the bobbin are injected.

At the bases is advantageously a circuit board, which by cutting clamps held and their tracks by press-fit contacts of the insulation displacement terminals are contacted. This results in a secure mounting of Bearing plate, not a big one Assembly costs required, since the contact during assembly by the way of attachment results by itself. Furthermore, it is expedient in a pocket of the end wall of the bobbin on the rotor facing Side to provide a Hall sensor whose pins in a base are stored and by pressing the insulation displacement terminals in the assigned Base electric contacted with the insulation displacement terminals. These have press-fit contacts, holding a circuit board and their traces accordingly to contact. In the circuit board are connector pins for one Pre-assembled connector.

The motor housing is the front side expediently closed by an electronics cover. This one has an injected one Seal on, through which the connector pins are passed during assembly. The electronics cover will also be without additional fasteners assembled. For this purpose, the electronics cover has at its periphery radially yielding Latch hook, which in recesses of the outer wall of the motor housing at engage the assembly. To simplify installation, are on the electronics cover Molded pins, which are used to center the electronics cover against the bobbins and engage the circuit board in Vorzentrierhülsen.

drawing

Further Advantages are shown in the following description of the drawing. In the drawing are exemplary embodiments represented the invention. The drawing, the description and the claims contain numerous features in combination. The specialist will the features also expediently individually consider and summarize to meaningful further combinations.

It demonstrate:

1 a longitudinal section through a centrifugal pump according to the invention,

2 a perspective longitudinal section through a motor housing,

3 a perspective view of a bobbin,

4 an enlarged detail 3 .

5 a longitudinal section through a bobbin,

6 a partial perspective view of a motor housing with a mounted bobbin,

7 a perspective view of a centrifugal pump with a cut motor housing and bobbin and

8th a perspective view of a centrifugal pump with a mounted circuit board.

description the embodiments

Essential components of a centrifugal pump according to the invention 10 are a pump spiral housing 12 with an inlet nozzle 102 and an outlet 104 , a pump 28 and an electric motor with a motor housing 14 a stator 34 and a bobbin 40 as well as with a printed circuit board 94 and an electronics cover 20 , The motor housing 14 is made of plastic and cup-shaped. It has the pump spiral housing 12 down a floor 13 , the one common housing wall to the one-piece pump spiral housing 12 forms. Outward closes to the ground 13 an outer wall 15 while in the central area the floor 13 an invagination, that of an inner ground 17 and a partition 19 is formed. The inner floor 17 has a thickening in its center 18 in which a bearing axis 22 injected. Thus, the motor housing 14 to the pump spiral housing 12 hermetically sealed off closed. On the bearing axis 22 is a rotor 36 by means of an injected bearing 30 rotatable about an axis of rotation 29 stored. Front side is on the rotor 36 the pump impeller 28 molded, the axially into the pump spiral housing 12 protrudes and radially from the inlet nozzle 102 to the outlet 104 is flowed through. The rotation axis of the pump impeller 28 is with 37 designated. The rotor 36 and the impeller 28 are axially on the bearing axis 22 between the thickening 18 and a mushroom pick 24 secured, at which the camp 30 starts axially. The mushroom mushroom 24 is over the free end of the bearing axis 22 pushed and locked in a puncture 32 , where the mushroom 24 having an anti-rotation device, not shown. The to the inlet pipe 102 facing outer contour of the toadstool 24 is designed so that there is a favorable flow to the impeller 28 results.

The pump spiral housing 12 becomes like a bayonet catch with the motor housing 14 connected by radial projections 74 on the circumference of the motor housing 14 axially between corresponding undercuts 78 of the spiral pump housing 12 be pushed through and turning the pump spiral housing 12 at an angle of about 15 ° relative to the motor housing 14 the projections 74 behind the undercuts 78 reach.

Before the rotary motion is on one between the volute casing 12 and the floor 13 of the motor housing 14 arranged sealing ring 72 in the form of an O-ring exerted an axial force. A circumferentially on the circumference of the motor housing 14 arranged latching hook 80 locked in the final position with a stop 82 at the pump spiral housing 12 so that the motor housing 14 opposite the pump spiral housing 12 is also fixed in the circumferential direction.

In the annular space between the outer wall 15 and the partition 19 of the motor housing 14 is a bobbin 40 of the stator 34 used. He is using the engine case 14 connected in the manner of a bayonet lock, by protrusions 56 on the circumference of an end wall 41 of the bobbin 40 between corresponding undercuts 62 on the motor housing 14 be pushed through and by a clockwise rotation about 40 ° behind the undercuts 62 arrive and so the stator 34 with the bobbin 40 in the motor housing 14 Fasten. By at least one coding 64 , Advantageously, by three codes, only one mounting position is possible. The bobbin 40 owns in the area of its projection 56 a latching hook 58 , which serves as anti-rotation and in the final position of the bobbin 40 in an incision 66 of the motor housing 14 locks in place ( 6 ). During assembly, the locking hook 58 through the conically diverging inside of the outer wall 15 of the motor housing 14 biased.

To the partition 19 and the floor 17 of the motor housing 14 , that of the delivery pressure of the centrifugal pump 10 are loaded as thin as possible, whereby the distance between the rotor 36 and the stator 34 decreases, supports the bobbin 40 this range and transmits the forces in a short way as tensile forces on its projections 56 on the undercuts 62 of the motor housing 14 , The bobbin 40 also prevents the partition 19 lengthened, thereby increasing the position of the electronics, in particular a printed circuit board 94 would shift in the axial direction.

The bobbin 40 is in the area of the annulus between the dividing wall 19 and the outer wall 15 between his front wall 41 and the floor 13 of the motor housing 14 with a copper enamel wire 52 wound, whose ends in bases 42 . 44 . 46 on the electronics cover 20 facing side of the front wall 41 of the bobbin 40 are stored. The of the enameled copper wire 52 formed coil is in a radially open annular space of the bobbin 40 accommodated. The annulus is of a return ring 38 closed, with the pressure on the bobbin 40 is postponed and yoke parts 39 contacted in the area of the coil in the bobbin 40 are injected.

At the bobbin 40 is a Hall sensor 98 provided in a bag 60 of the bobbin 40 is inserted, with its pre-bent pins 54 in a base 44 be filed. The location of the Hall sensor 98 can be secured by a glue dot. The ends of the copper enamel wire 52 as well as the pins 54 be through cutting clamps 48 contacted in the associated bases 42 . 44 be pressed. The cutting clamp 48 that the base 46 is assigned only has holding functions to the circuit board 94 bend-free to attach to the bases. The insulation displacement terminals 48 have press-in contacts at their free ends 86 , On this is now the circuit board 94 pressed on and their tracks are contacted. As a result, all the necessary electrical connections to the electronics are made. In the circuit board 94 are also connector pins 88 pre-assembled for the connector in soldering or press-fitting technology.

The electronics cover 20 comes with a pre-assembled O-ring 96 at its periphery in the open end of the motor housing 14 pushed, with the O-ring 96 through the conically outwardly diverging inside of the outer wall 15 is compressed. The electronics cover 20 has latching hooks distributed over its circumference 92 that are radially compliant and in the final position of the electronics cover 20 in recesses 16 the engine housing ses 14 engage. For easier mounting are on the inside of the electronics cover 20 pencils 90 sprayed into pre-centering sleeves 50 slide. These are on the bobbin 40 molded. The electronics cover 20 has breakthroughs with an injected gasket 26 through which the connector pins 88 the circuit board 94 be pushed. So that the circuit board 94 are not subjected to bending, are in the range of connector pins 88 bases 100 on the bobbin 40 provided on which the circuit board 94 supported. In the case of changes in length due to internal pressure or thermal expansion of the components, these can be achieved by moving the connector pins 88 through the molded seal 26 be passed on the connector, without causing a large force on the electrical connections of the circuit board 20 is exercised.

Claims (19)

Centrifugal pump ( 10 ) for liquids with a pump spiral housing ( 12 ) and a pump wheel ( 28 ), which is powered by an integrated electric motor ( 14 . 20 . 34 . 36 ) whose axis of rotation ( 29 ) coaxial with axis of rotation ( 37 ) of the impeller ( 28 ), wherein the pump volute casing ( 12 ) by a sealing ring ( 72 ) and in the manner of a bayonet closure ( 74 . 78 ) with the motor housing ( 14 ) and this covers the front side, characterized in that the motor housing ( 14 ) cup-shaped, is made of plastic and its the pump spiral housing ( 12 ) facing floor ( 13 ) a common housing wall to the pump spiral housing ( 12 ). Centrifugal pump ( 10 ) according to claim 1, characterized in that the floor ( 13 ) one to the open end of the motor housing ( 14 ) pointing, to the axis of rotation ( 29 ) concentric protuberance with an approximately cylindrical partition wall ( 19 ) and with an inner bottom ( 17 ), which in its middle region a thickening ( 18 ), in which one to the pump spiral housing ( 12 ) bearing axis ( 22 ) is injected on which a rotor ( 36 ) of the electric motor is rotatably mounted. Centrifugal pump ( 10 ) according to claim 2, characterized in that the rotor ( 36 ) and the impeller ( 28 ) are formed as one piece and via an injected bearing ( 30 ) on the bearing axis ( 22 ) are stored. Centrifugal pump ( 10 ) according to claim 3, characterized in that the bearing axis ( 22 ) at its free end a toadstool ( 24 ) bearing the bearing ( 30 ) axially secures by the toadstool ( 24 ) into a puncture ( 32 ) of the bearing axis ( 22 ) engages with a rotation lock. Centrifugal pump ( 10 ) according to any one of the preceding claims, characterized in that in an annular space between the partition wall ( 19 ) and the outer wall ( 15 ) of the motor housing ( 14 ) a bobbin ( 40 ) of a stator ( 34 ) of the electric motor is used and the annular space with an end wall ( 41 ) closes. Centrifugal pump ( 10 ) according to claim 5, characterized in that the bobbin ( 40 ) in the region of the annular space of the end wall ( 41 ) to the ground ( 13 ) of the motor housing ( 14 ) with copper enamel wire ( 52 ), the wire ends in bases ( 42 . 44 . 46 ) for insulation displacement terminals ( 48 ) are stored. Centrifugal pump ( 10 ) according to claim 6, characterized in that via the from the enameled copper wire ( 52 ) formed coil a return ring ( 38 ) with pressure on the bobbin ( 40 ) to the front wall ( 41 ) is pushed. Centrifugal pump ( 10 ) according to one of claims 5 to 7, characterized in that the end wall ( 41 ) at its periphery projections ( 56 ), which during assembly by rotating the bobbin ( 40 ) relative to the motor housing ( 14 ) inwardly projecting undercuts ( 62 ) of the motor housing ( 14 ) in the manner of a bayonet catch behind. Centrifugal pump ( 10 ) according to claim 6, characterized in that in the region of the undercuts ( 62 ) at least one coding ( 64 ) is provided. Centrifugal pump ( 10 ) according to one of claims 5 to 7, characterized in that the bases ( 42 . 44 . 46 ) with insulation displacement terminals ( 48 ) on the front wall ( 41 ) on the opening of the motor housing ( 14 ) are arranged facing side, wherein at the bases ( 42 . 44 . 46 ) a printed circuit board ( 94 ) is applied, the conductor tracks by press-fit ( 86 ) of the insulation displacement terminals ( 48 ) are contacted. Centrifugal pump ( 10 ) according to one of claims 5 to 10, characterized in that in a bag ( 60 ) of the front wall ( 41 ) of the motor housing ( 14 ) on the rotor ( 36 ) side facing a Hall sensor ( 98 ) is inserted, whose pins ( 54 ) by pressing in the insulation displacement terminals ( 48 ) into the assigned support point ( 44 ) electrically with the insulation displacement terminals ( 48 ) are contacted. Centrifugal pump ( 10 ) according to one of claims 5 to 11, characterized in that on the periphery of the end wall ( 41 ) a latching hook ( 58 ) provided in an incision ( 66 ) on the motor housing ( 14 ) engages and the bobbin ( 40 ) relative to the motor housing ( 14 ) fixed in the circumferential direction. Centrifugal pump ( 10 ) according to claim 10, since characterized in that the catch hook ( 58 ) at a projection ( 56 ) of the bobbin ( 40 ). Centrifugal pump ( 10 ) according to one of the preceding claims, characterized in that the bobbin ( 40 ) the partition ( 19 ) and / or the inner floor ( 17 ) of the motor housing ( 14 ) is supported. Centrifugal pump ( 10 ) according to one of the preceding claims, characterized in that the opening of the motor housing ( 14 ) by an electronics cover ( 20 ) is closed, the axially directed connector pins ( 88 ) provided by an injected seal ( 26 ) in the motor housing ( 14 ) and into a power connection ( 100 ) of the bobbin ( 40 ) intervene. Centrifugal pump ( 10 ) according to claim 15, characterized in that on the electronics cover ( 20 ) axially directed, inwardly facing pins ( 90 ), which are for pre-centering with respect to the bobbin ( 40 ) in pre-centering sleeves ( 50 ) engage the bobbin ( 40 ) are provided. Centrifugal pump ( 10 ) according to claim 15 or 16, characterized in that the electronics cover ( 20 ) at its periphery radially resilient latching hooks ( 92 ), which in recesses ( 16 ) of the motor housing ( 14 ) intervene. Centrifugal pump according to one of claims 15 to 17, characterized in that the electronics cover ( 20 ) axially to the latching hooks ( 92 ) offset inwardly a radially acting sealing ring ( 96 ), which on the inside of the outer wall ( 15 ) of the motor housing ( 14 ) sealingly. Centrifugal pump according to one of claims 12 to 18, characterized in that the inside of the outer wall ( 15 ) for opening the motor housing ( 14 ) diverging conically.