DE102007020092B4 - Switchable magnet arrangement - Google Patents

Abstract

Switchable magnet arrangement with at least two electromagnets (4),
- wherein each magnet (4) comprises an excitation coil (7) which concentrically surrounds a lifting armature piston (8) which can be moved in the axial direction when current is applied,
- Has an electrical contact (18)
- And the magnetic flux of each magnet (4) but a disc-shaped yoke member (19), a cone (10) and an excitation coil (7) at least partially surrounding the tubular housing (5) is closed,
- characterized in that the yoke part (19) designed as an insert for both magnets (4) and each having a central bore (14) as a centering for radial and axial positioning of the two magnets (4) with respect to a central axis (3) ,

Description

The invention relates to a switchable magnet arrangement according to the features of the preamble of claim 1.

State of the art

Such switchable magnet arrangements find z. B. Application with a proportional speed-dependent adjustment of an intake and exhaust camshaft in passenger car engines. The adjustment is used to increase the torque at lower speeds and to reduce pollutants and fuel consumption. Such magnet arrangements are mechanically connected to the internal combustion engine, wherein a plastic housing with a mounting flange surrounds each magnet partially or completely and in each case one connection bottle is provided for mounting the magnet to further parts ( DE 102 38 840 A1 ).

For each cylinder bank, two individual magnets and two Hall sensors are attached to an aluminum die-cast cover by screwing on. This die-cast cover is repositioned and screwed on during motor assembly. Each functional group magnet and sensor is equipped with its own sealing element (O-ring) as well as its own plug for electrical contacting.

The proportional speed-dependent adjustment of an intake / exhaust camshaft in passenger car engines is used to increase the torque at low engine speeds and to reduce pollutant and fuel consumption. For this purpose, a multi-way proportional valve in the engine compartment is screwed directly to the cylinder head. The single valve is actuated by a proportional solenoid. The input signal of the magnet is the pulse-modulated on-board voltage of the car. By varying the duty cycle of the on-board voltage, the valve piston position or the oil volume flow is variably controlled via the individual magnets. By changing the volume flow, the output and input camshaft is adjusted relative to the crankshaft. This adjustment affects the timing of the output and input valves.

By mounting the magnet assembly directly on the engine block of the space, in particular the height is limited. Also with regard to the seal are high demands. It must be prevented that between the metal and plastic parts of the cover leakage paths occur.

DE 199 24 814 A1 shows a switchable magnet assembly of two solenoid for electromagnetic valve control, in which the yokes of the electromagnets consist of several interconnected parts. However, the two yokes are separated by a non-magnetically shaped spacer.

DE 101 25 223 A1 shows a magnet arrangement with at least one exciting coil, which is connected to a yoke part by means of plastic material. The plastic mass encloses the coil partially to the outside and is injected in an injection molding in undercuts of the yoke member sealingly to the bobbin.

EP 1 477 995 A1 shows a switchable magnet arrangement with a plurality of fixed electromagnets, each magnet has an excitation coil and the magnetic flux of each magnet via a common cap for all magnets, which acts as a magnetic yoke part, is closed. All electromagnets together act on a perpendicular to the magnets arranged rotary disk anchor.

Object of the invention

It is the object of the invention to provide a magnet assembly whose size and essentially the overall height is reduced and whose installation on the bog block of a passenger car is simplified compared to the prior art. The solution is in conjunction with the preamble by the characterizing features of claim 1.

Magnets. As a result, the Anschraubprozesse the individual magnets and sensors can be omitted.

The insert part comprises in a preferred embodiment a stiffened metal insert of magnetically conductive material in the form of a pair of spectacles. Due to the shape of the glasses, the positioning of the magnetic circuit is improved. The magnet pot is fixed during assembly on the yoke glasses through them.

The radial and axial positioning of the two magnets with respect to a central axis may preferably by receiving a centering element such. B. the yoke in a centering of the yoke glasses. The anchor piston is guided in the yoke.

In a further advantageous embodiment of the invention, the positioning of the two magnets can be done by receiving in a sealing sleeve in the punched bore of the insert or the Jochbrille. The sealing sleeve is closed on one side and is welded axially with its open end to a tubular housing of each magnet. It also serves as a guide sleeve for the anchor. By axial welding of the non-magnetizable sealing or guide sleeve engages anchor each magnet and the Housing radially adjacent to each other and thus ensure a continuous magnetic flux.

In a further advantageous embodiment, the electrical contacting of the magnet assembly is guided centrally via the insert. The electrical contacting takes place centrally above the yoke glasses. As a result, individual contacts of the two magnets are no longer necessary.

The common electrical contact also includes additional sensors arranged in the module, which eliminates their individual contact. Thus, preferably, the electrical contacting of the Hall sensors via the same plug outlet, as for the PWM controlled supply voltage of the magnets.

The sensors are advantageously contacted by cutting-clamping technology to a stamped grid, which, like the yoke glasses, is designed as a further insert. The sensors can thus be installed as well as the magnets as a finished assembly.

In a further advantageous arrangement, the electrical contacting is arranged transversely to the installation direction of the magnet assembly. The plug outlet can thus be arranged horizontally or laterally. The lateral or horizontal contacting can be mounted after a winding of a bobbin, whereby the space height of the arrangement can be additionally reduced. Another advantage lies in the fact that the complexity of an injection molding tool for assembly can be reduced by the horizontal connector outlet.

The flux-guiding housing of both magnets is advantageously integrated in a common plastic hood which additionally comprises the contacting and the sensors. This hood includes an injected stamped grid, the sensors and the complete magnetic circuit. The seal against the installation site is made by potting compound in the connector area. The inserts are additionally provided with a corrugation for the extension of a Kapilar leakage path.

All inserts (punched grid and Jochbrille) are covered by the cover of the hood and thus form no secondary leakage paths.

The plastic hood advantageously has a housing cover, which is formed by a plastic compound and the plastic material has at least one connecting flange for mounting the magnet assembly. In the plastic mass, the electrical contact is embedded, wherein the plastic material forms the connector housing.

The plastic or modular hood can be designed so that the sensors can be used both as a standard part by installation in a sensor holder, as well as a sensor sub-module is used, in which the number of contacts to be mounted between the lead frame and the sensors are further reduced can. For this purpose, suitable interfaces for receiving the sensor submodule must be created on the module hood.

Further advantages and features of the invention will become apparent from the illustrated in the drawings and described below embodiment of the subject invention.

embodiment

1 shows a longitudinal cross-section through an inventive magnet arrangement

2 in a perspective exploded view of individual components of the arrangement 1 ,

The magnet arrangement 1 is in a common plastic hood 2 integrated, which is fastened with screws, not shown, for example, on an engine block of a car. The hood 2 is preferably made in two-component injection molding and is sealed with a profile sealing ring. The magnet arrangement 1 is preferably, but not exclusively, the camshaft adjustment.

The magnet arrangement, like this 1 and 2 can be seen, consists of two identically constructed proportional magnets 4 , the right and left of a central axis 3 ( 1 ) are arranged. The single magnet 4 is outside of a tubular, magnetic flux carrying housing 5 surrounded, which is preferably designed as a roll mantle, and a bobbin 6 enveloped, which is a current-carrying exciter coil 7 wearing. The cylindrical bobbin 6 concentrically surrounds a cylindrical Hubankerkolben 8th by the energization in the exciter coil 7 axial strokes performs. The anchor piston 8th is with an operating rod 9 connected to the valve function, which is a disc-shaped cone 10 penetrates and forms a conclusion of the magnetic circuit. The disc-shaped conclusion simultaneously decreases the cone 10 of the single magnet 4 on.

The Hubanker piston 8th is in a sealing sleeve closed on one side 11 guided and stored, extending from the cone area (bottom in 1 ) along the axial length of the armature piston 8th into the yoke area of the magnet 4 extends. The sleeve 11 is at her the cone 10 facing end with a disc-shaped part of the cone 10 , the conical disk, welded, in turn, fixed to the housing 5 is firmly connected. The closed part of the sealing sleeve 11 extends axially (above) beyond the yoke area.

The Hubanker piston 8th is in a massive yoke 19 with z. B. integrated warehouse 21 as well as in one in the cone 10 mounted another camp 22 guided and stored. The yoke part 19 is inventively as a single insert for both magnets 4 executed and is embedded in plastic compound and has the shape of a solid and stiff metal glasses 12 on how this particular out 2 is apparent. The two disc-shaped round parts 13 the glasses 12 have a punched center hole 14 as centering opening for the sealing sleeve 11 every magnet 4 on. The magnet assembly thus forms a module, so that the structure of the magnet assembly can be made modular.

The electrical contacting of the two magnets 4 via a punched grid 15 ( 2 ), centrally in the footbridge area 20 the yoke glasses 12 for both magnets 4 is arranged and the electrical supply of both magnets 4 as well as that of the additional sensors takes over, which are arranged in particular in the camshaft adjustment in the magnetic module. The punched grid 15 is, as well as the yoke glasses 12 , designed as an insert.

Both magnets 4 are together in a plastic or modular hood 2 integrated, in the tubular sensor holder 17 are provided, in which the sensors are installed, wherein the sensors also on the stamped grid 15 be contacted. Transverse to the installation direction of the two magnets 4 are in the hood 2 a horizontally arranged plug 16 ( 2 ), which is electrically connected to the stamped grid 15 connected is.

The module hood 2 can be designed so that the sensors by installation in the sensor holder 17 Both can be used as a standard part, as well as a sensor sub-module is used, in which the number of contacts to be mounted between stamped grid 15 and the sensors can be reduced again. To do this, the module hood must 2 suitable interfaces for receiving the sensor submodule are created.

The contacting of the exciter coil 7 to the punched grid 15 takes place with a laterally arranged contact 18 , The lateral arrangement has the advantage that it also after the winding of the bobbin 6 can be mounted, which in turn saves axial space. The sensor is made by insulation displacement contact on the punched grid 15 connected.

The invention is not limited to the embodiment, but in the context of the disclosure often variable. All new, disclosed in the description and / or drawing single and combination features are considered essential to the invention.

LIST OF REFERENCE NUMBERS

1

magnet assembly

2

Plastic hood

3

Central axis

4

magnet

5

Tubular housing

6

bobbins

7

excitation coil

8th

Hubankerkolben

9

actuating rod

10

cone

11

sealing sleeve

12

glasses

13

indexing

14

centering

15

lead frame

16

plug

17

sensor holder

18

contact

19

yoke

20

web region

21

camp

22

camp

Claims (19)

Switchable magnet arrangement with at least two electromagnets ( 4 ), - each magnet ( 4 ) an exciter coil ( 7 ) which concentrically a Hubankerkolben movable in the axial direction when current is applied ( 8th ), - an electrical contact ( 18 ) - and the magnetic flux of each magnet ( 4 ) but a disc-shaped yoke part ( 19 ), a cone ( 10 ) and one the exciting coil ( 7 ) at least partially surrounding tubular housing ( 5 ) is closed, - characterized in that the yoke part ( 19 ) as an insert for both magnets ( 4 ) and each have a central bore ( 14 ) as a centering opening for the radial and axial positioning of the two magnets ( 4 ) with respect to a central axis ( 3 ) having. Magnet arrangement according to claim 1, characterized in that the insert part a stiffened metal insert in the form of glasses ( 12 ). Magnet arrangement according to claim 1 or 2, characterized in that the positioning by receiving a centering element such. B. of Yoke ( 19 ) in the centering openings of the yoke glasses ( 14 ) he follows. Magnet arrangement according to one or more of claims 1 to 3, characterized in that the armature piston in the yoke ( 19 ) is guided. Magnet arrangement according to one or more of claims 1 to 4, characterized in that the positioning of the two magnets ( 4 ) by receiving an additional sealing sleeve ( 11 ) in the centric bore ( 14 ) of the depositor. Magnet arrangement according to claim 5, characterized in that the sealing sleeve ( 11 ) is closed on one side and with its open end on a disc-shaped part of the cone ( 10 ) is welded axially. Magnet arrangement according to claim 5 or 6, characterized in that the armature piston in the sealing sleeve ( 11 ) is guided. Magnet arrangement according to one or more of claims 5 to 7, characterized in that the closed bottom of the sealing sleeve in the axial direction via the yoke part ( 19 protrudes). Magnet arrangement according to one or more of claims 1 to 8, characterized in that the electrical contact ( 18 ) centrally above the yoke glasses ( 12 ) he follows. Magnet arrangement according to one or more of claims 1 to 9, characterized in that the electrical contact ( 18 ) via a punched grid ( 15 ) he follows. Magent arrangement according to claim 10, characterized in that in addition via the electrical contact ( 18 ) Sensors are connected. Magnet arrangement according to claim 10 or 11, characterized in that the sensors by cutting-clamping technology to the stamped grid ( 15 ) are contacted. Magnet arrangement according to one or more of claims 10 to 12, characterized in that the stamped grid ( 15 ) is designed as a further insert. Magnet arrangement according to one or more of claims 1 to 13, characterized in that the electrical contact ( 18 ) transversely to the installation direction of the bobbin ( 6 ) he follows. Magnet arrangement according to one or more of claims 1 to 14, characterized in that both magnets ( 4 ) of a common plastic hood ( 2 ), which in addition a plug ( 16 ). Magnet arrangement according to claim 15, characterized in that the plastic hood ( 2 ) has a housing cover, which is formed by a plastic compound and the plastic material has at least one connecting flange for mounting the magnet assembly. Magnet arrangement according to claim 16, characterized in that in the plastic mass, the electrical contact ( 18 ) is embedded and the plastic material the plug housing ( 16 ). Magnet arrangement according to claim 16 or 17, characterized in that the plastic hood ( 2 ) tubular holder ( 17 ) for receiving the sensors. Magnet arrangement according to one or more of claims 1 to 18 characterized by the use as a built-in module for the camshaft adjustment of passenger car engines.

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