DE10139446A1 - Magnetisable or magnetic coil body for magnetic coils for valve control has unmagnetized intermediate body part arranged axially between magnetic or magnetisable parts of coil body - Google Patents

Abstract

The device has a wire arrangement (2) mounted on the coil body (1) and an unmagnetized intermediate body part (1B) arranged axially between the magnetic or magnetisable parts (1A) of the coil body. The coil body consists of a sealing or injection molding material that at least partly contains magnetic particles. AN Independent claim is also included for the following: a method of manufacturing a magnetic coil for valve control with an inventive device.

Description

The invention relates to a coil former for magnetic coils Valve control in motor vehicles, according to the preamble of Claim 1, the use of which according to the preamble of Claim 7 and method for producing magnetic coils with a such a bobbin according to the preamble of claim 5 and 6th

Conventional coil formers for solenoid coils for valve control are built in one or more pieces, they consist of insulating, non-magnetic plastic. The wire becomes coil-shaped on the coil former wound. This forms the wire arrangement of the magnetic coil. The Coil body serves as a carrier for this wire arrangement and has in inside a cavity, in particular a hollow cylinder in which for example, a valve for an anti-lock braking system is moved back and forth can be. The magnetic coil is used to guide the magnetic flux surrounded by a coil yoke that also extends into the interior of the Can extend bobbin.

A disadvantage of such arrangements is that either the geometry of the coil yoke or the wire arrangement designed very expensive must be around a high magnetic density inside the solenoid to achieve, so that valves inside the coil form quickly and can be effectively moved back and forth.

EP 732 708 A2 describes a magnetic or magnetizable one Winding carrier for a coil is known, which consists of a bobbin and a open or closed core. With this construction the Core and coil form in one piece from an injection molding compound manufactured that has magnetic properties.

A disadvantage of this structure, however, is that such coils with core not suitable for valve control and also no coil yoke have that surrounds. With such coils, the magnetic If possible, transfer energy over a long distance outside the coil become.

The object of the invention is to find an alternative with which magnetic density inside the solenoid for valve control can be improved cost-effectively.

This object is achieved by a coil former with the Features of claim 1 solved. Here the bobbin, the inside of a cavity for receiving a valve or Has valve domes, with a non-magnetic intermediate piece built up between the magnetic or magnetizable parts of the Coil body is arranged.

The advantages of the invention are that the magnetic Transition area inside the solenoid coil enlarged and the valve can be operated more effectively. The space required for one is reduced Magnetic coil with such a coil body. Furthermore, a Coil yoke for such magnetic coils have a simpler geometry, whereby the manufacturing costs of such arrangements are reduced. The Guidance of the magnetic flux of such magnetic coils improved itself, thereby reducing energy losses.

Advantageous developments of the invention result from the Dependent claims. Here, the bobbin made of potting material be built that has at least partially magnetic properties. Furthermore, the coil body can be constructed in one piece by the Coil body is shed several times or from several individual parts be put together. The wire arrangement can also be either or can be arranged on the coil former during casting.

The invention is intended to be explained in the following using exemplary embodiments and

Figures are explained in more detail. Brief description of the figures:

Fig. 1 construction coil body with wire arrangement

Fig. 2 magnetic coil with yoke drum

Fig. 3 magnetic coil with yoke sleeve

Fig. 4 magnetic coil with yoke bracket

Fig. 1 shows the coil body 1 with the wire arrangement 2 of a solenoid 5 for valve control. The coil body 1 consists in this embodiment of an upper and lower part 1A and an intermediate part 1 B. The bobbin 1 forms in the interior a cavity 6 from, may be introduced in the example, a valve or other object and moves therein. The upper and lower part 1 A is made of a magnetically conductive material, in particular a casting compound with magnetizable particles. Furthermore, the upper and / or lower part 1 A has an opening at which the coil connections 4 are made. Between the upper and lower part 1 A there is an intermediate piece 1 B. The cylindrical intermediate piece 1 B is non-magnetic and electrically insulating. As a result, the magnetic transition area is increased and the magnetic properties of the magnet coil at a predetermined air gap in the cavity of the coil former between the coil former wall and an object located in the cavity, for. B. improved a valve. Here is the magnetic transition surface, the surface between two opposite magnetized iron parts, over which the magnetic field lines run vertically.

The coil terminals 4, which must be led out of the bobbin 1, should be 1 A neither magnetic nor in electrical contact with the upper and lower part.

The magnetic-conductive top and bottom parts 1 A in the exemplary embodiment of an electrically insulating material or is at least coated with such a material. This prevents a short circuit between the wire arrangement 2 on the coil former 1 and an object located in the cavity 6, for. B. creates a metal valve.

To achieve the magnetic properties, for example, a electrically insulating casting compound with magnetically conductive particles, such as B. enriched iron filings.

The bobbin 1 can be produced, for example, by casting in several stages. In a first potting, the intermediate piece 1 B is produced with a first electrically insulating potting compound without magnetically conductive particles, then the upper and lower part 1 A is potted in the second potting with the same potting compound, but which has now been enriched with magnetically conductive particles and in the third encapsulation this composite arrangement is then covered with an insulator layer 7 . A further possibility is that the intermediate piece 1 B and the upper and lower part 1 A with the insulation 7 are manufactured individually and are only assembled into the coil former 1 at a later point in time.

The coil former can serve as a carrier and form generator for the wire arrangement 2 , which forms the energized coil from which the magnetic field is generated. However, these functions are not absolutely necessary for the coil former 1 . Equivalent to this, for example, a completely wound, self-supporting wire arrangement 2 , which can also be encapsulated, can subsequently be equipped with a coil former 1 , which consists at least partially of magnetically conductive material.

Fig. 2 shows a magnetic coil 5 with a yoke 3 which is drum-shaped. The coil former 1 with the wire arrangement 2 is located inside the magnetic coil 5 . The coil former 1 consists of an upper and lower part 1 A and an intermediate piece 1 B. It forms a cavity 6 inside, into which, for example, a valve or another object can be inserted and controlled. The upper and lower part 1 A is made of a magnetically conductive material, in particular a casting compound with magnetizable particles. Furthermore, the upper and / or lower part 1 A has an opening at which the coil connections 4 are made. Between the upper and lower part 1 A there is an intermediate piece 1 B. The cylindrical intermediate piece 1 B is non-magnetic and electrically insulating.

The coil terminals 4 that are led out from the coil bobbin 1 is not in electrical or magnetic contact with the upper or lower part 1 A of the bobbin.

The magnetically conductive upper and lower part 1 A has an insulator layer 7 in the embodiment. This prevents a short circuit between the wire arrangement 2 on the coil former 1 and an object located in the cavity 6, for. B. creates a metal valve.

The magnetic properties of this magnet coil are improved in that a drum-shaped yoke 3 is attached to the outside around the wire arrangement 2 and the coil former 1 . The yoke drum 3 has openings on the top and bottom which are congruent directly above or below the openings of the cavity 6 of the coil former 1 . The drum-shaped yoke 3 is in magnetic contact with the upper and lower part 1 A of the coil body. 1 These parts 1 A of the coil bobbin 1 then form an additional Jochbestandteil.

The drum-shaped yoke is either attached to the bobbin / wire arrangement structure 1 , 2 by casting a magnetic casting compound, an insulating layer 7 having to be provided between the wire arrangement 2 and the yoke 3, or an air gap has to be formed if the casting compound is electrically conductive. A drum-shaped yoke 3 can also be in several parts and consist of magnetically conductive metal sheet, for example an iron sheet hollow cylinder and two sheet iron perforated disks. If the hollow cylinder is pushed over the cylindrical wire arrangement 2 and the hollow cylinder is connected to the perforated disks on the two open sides, a drum-shaped yoke also results.

As an alternative to this, a stripped, self-supporting wire arrangement 2 could possibly also be inserted into a casting tool with an intermediate piece 1 B and cast in such a way that both a yoke drum 3 and a coil body upper and lower part 1 A are formed.

Fig. 3 shows a magnetic coil 5 with a yoke 3 which is sleeve-shaped. The coil former 1 with the wire arrangement 2 is located inside the magnetic coil 5 . The coil former 1 consists of an upper and lower part 1 A and an intermediate piece 1 B. It forms a cavity 6 inside, into which, for example, a valve or another object can be inserted and controlled. The upper and lower part 1 A is made of a magnetically conductive material, in particular a casting compound with magnetizable particles. Furthermore, the upper and / or lower part 1 A has an opening at which the coil connections 4 are made. Between the upper and lower part 1 A there is an intermediate piece 1 B. The cylindrical intermediate piece 1 B is non-magnetic and electrically insulating.

The coil terminals 4 that are led out from the coil bobbin 1 is not in electrical or magnetic contact with the upper or lower part 1 A of the bobbin.

The magnetically conductive upper and lower part 1 A has an insulator layer 7 in the embodiment. This prevents a short circuit between the wire arrangement 2 on the coil former 1 and an object located in the cavity 6, for. B. creates a metal valve.

The magnetic properties of this magnetic coil are improved in that a sleeve-shaped yoke 3 is attached to the outside around the wire arrangement 2 and the coil former 1 . The yoke sleeve 3 has a cylindrical shape, which can be pushed onto the coil former 1 with the wire arrangement 2 , for example. The sleeve-shaped yoke 3 conducts the magnetic flux from the upper and lower part 1 A of the coil body 1, which also Jochbestandteile are on.

The sleeve-shaped yoke is either attached to the coil body / wire arrangement structure 1 , 2 by casting a magnetic casting compound, an insulating layer 7 being applied between the wire arrangement 2 and the yoke 3, or an air gap having to be formed if the casting compound is electrically conductive. A sleeve-shaped yoke 3 can also be in several parts and also consist of magnetically conductive metal sheet, for example an iron sheet metal hollow cylinder.

As an alternative to this, a stripped, self-supporting wire arrangement 2 could possibly also be inserted into a casting tool with an intermediate piece 1 B and cast in such a way that both a yoke sleeve 3 and a top and bottom part 1 A of the bobbin form.

Fig. 4 shows a magnetic coil 5 with a yoke, which is U-shaped, that is to say open on one side.

The coil former 1 with the wire arrangement 2 is located inside the magnetic coil 5 . The coil former 1 consists of an upper and lower part 1 A and an intermediate piece 1 B. It forms a cavity 6 inside, into which, for example, a valve or another object can be inserted and controlled. The upper and lower part 1 A is made of a magnetically conductive material, in particular a casting compound with magnetizable particles. Further, the upper and / or lower part 1 A has an opening to which the coil terminals 4 are performed. Between the upper and lower part 1 A there is an intermediate piece 1 B. The cylindrical intermediate piece 1 B is non-magnetic and electrically insulating.

The coil terminals 4 that are led out from the coil bobbin 1 is not in electrical or magnetic contact with the upper or lower part 1 A of the bobbin.

The magnetically conductive upper and lower part 1 A has an insulator layer 7 in the embodiment. This prevents a short circuit between the wire arrangement 2 on the coil former 1 and an object located in the cavity 6, for. B. creates a metal valve.

The magnetic properties of this magnet coil are improved in that a U-shaped yoke 3 is attached to the outside around the wire arrangement 2 and the coil former 1 . The U-shaped yoke 3 has openings on the top and bottom which are congruent directly above or below the openings of the cavity 6 of the coil former 1 . The U-shaped yoke 3 is in magnetic contact with the upper and lower part 1 A of the coil body. 1 These parts 1 A of the coil bobbin 1 then form an additional Jochbestandteil.

The U-shaped yoke is either attached to the coil former / wire arrangement structure 1 , 2 by casting a magnetic casting compound, an insulating layer 7 having to be applied between the wire arrangement 2 and the yoke 3, or an air gap has to be formed. The U-shaped yoke 3 can also be in several parts and consist of magnetically conductive sheet metal, for example sheet iron. This enables the U-shaped yoke to be pushed over the cylindrical wire arrangement 2 .

As an alternative to this, a stripped, self-supporting wire arrangement 2 could possibly also be inserted with an intermediate piece 1 B into a casting tool and cast in such a way that both a U-shaped yoke 3 and a coil body upper and lower part 1 A are formed. In this case, a casting compound provided with magnetic particles can also be used for casting the yoke, or other casting compounds which have magnetic properties.

In all of the exemplary embodiments there is any processing with potting understanding of pourable materials, especially that Injection molding and molding.

Claims (8)

1. Magnetic or magnetizable coil body ( 1 ) for magnetic coils for valve control, the wire arrangement ( 2 ) of which is arranged on the coil body, characterized in that the coil body ( 1 ) has a non-magnetic intermediate part ( 1 B) which is axially between the magnetic or magnetizable Parts ( 1 A) of the bobbin ( 1 ) is arranged. 2. coil former ( 1 ) according to claim 1, characterized in that the coil former ( 1 ) consists of a casting or injection molding compound, which at least partially contains magnetic particles. 3. coil former ( 1 ) according to claim 1, characterized in that the coil former ( 1 ) is in one piece. 4. coil former ( 1 ) according to claim 1, characterized in that the coil former ( 1 ) is in several pieces. 5. A method for producing a solenoid for valve control with a coil body ( 1 ) according to claim 1, characterized in that the coil body ( 1 ) is wrapped with a wire after casting, the wound wire forming the wire arrangement ( 2 ) of the solenoid. 6. A method for producing a solenoid for valve control with a coil body ( 1 ) according to claim 1, characterized in that a coil body ( 1 ) is introduced into the finished wound wire arrangement ( 2 ). 7. A method for producing a magnetic coil for valve control with a coil former ( 1 ) according to claim 6, characterized in that the coil former ( 1 ) is introduced into the wire arrangement ( 2 ) by casting or encapsulation. 8. Use for a coil former ( 1 ) according to claim 1 for solenoid coils for valve control, which are surrounded by a coil yoke ( 3 ), characterized in that the coil former ( 1 ) is at least partially a component of the coil yoke ( 3 ).