DE102016113135A1 - electromagnet - Google Patents

Abstract

The invention relates to an electromagnet with a bobbin having a support tube and a surrounding plastic material.

Description

The invention relates to an electromagnet having a coil arrangement, a coil body arranged within the coil arrangement, and an armature, which is movable along an armature movement direction defined in the coil body by the coil body.

Electromagnets are known in the prior art, in which the armature is guided in an armature guide tube. On the

Anchor guide tube is made of plastic-made bobbin. A disadvantage of this configuration is that a high-life requirement, a sliding film or a bonded coating is required, which complicates the production and expensive.

It is therefore an object of the invention to further develop this state of the art.

This is inventively achieved by an electromagnet according to claim 1. Advantageous embodiments can be taken, for example, the dependent claims.

The invention relates to an electromagnet having a coil arrangement, a coil body arranged within the coil arrangement, and an armature. The armature is movable in the bobbin along an armature movement direction defined by the bobbin.

In particular, the coil arrangement can have one or more electrical coils which generate a magnetic field when supplied with current or when subjected to electric current.

The armature can in particular be movable in that when current flows through the coil arrangement or a number of coils of the coil arrangement, a magnetic field is generated which exerts a force on the armature.

According to the invention it is provided that the bobbin comprises a support tube and a plastic material, wherein the support tube is at least partially encapsulated with the plastic material.

The arrangement is chosen so that the armature slides at least partially on the plastic material. This plastic bearing already significantly increases the life of such electromagnets. Since no slip film is to be installed, the manufacturing process is easy to automate, which lowers the manufacturing cost.

The support tube achieves high stability and high precision of the anchor bearing. The proposal according to the invention reduces bearing constrictions when winding the bobbin and resulting processing or assembly problems due to dimensional inaccuracies or shrinkage.

One can now, with the help of the proposal according to the invention, choose from a larger selection of materials in order to realize the bobbin. It is possible to use as a material for the design of the bobbin now less heat-resistant and reibverschleiß optimized, cost and injection molding cheaper plastics, which reduces the cost of such electromagnets. Through the use of the support tube and a higher reliability, ie a lower probability of failure is achieved in such electromagnets, since the risk of anchor clamps is significantly reduced.

The proposal according to the invention also allows a magnetic separation of the support tube from the armature, thereby avoiding a magnetic short circuit. The magnetic transition, and the overall efficiency of such an electromagnet is thereby significantly improved.

Clever way, the bobbin is tubular and / or formed as an armature guide tube. This allows adaptation to typical shapes of electromagnets or anchors.

Preferably, the support tube is formed of metal. This allows a high stability and easy machinability.

According to a preferred embodiment, the support tube has a number of recesses. These can provide a better bond with the plastic material as the plastic material can pass through the recesses. Hereby, the manufacturing process is accelerated because the flow path in the injection molding of the bobbin is reduced. It is also fiber-reinforced, for example glass fiber reinforced plastic material used for the preparation of the bobbin, wherein conveniently the glass fiber orientation is swirled in the recesses. By a targeted location of the recesses and the magnetic flux can be selectively controlled, for example, a magnetic separation can be made.

The support tube may in particular be punched rolled. This allows easy production.

The support tube can be completely encapsulated with the plastic material according to an embodiment. Thus, the support tube completely in the Be embedded plastic material. The anchor slides on the plastic material. This significantly increases the life of such electromagnets.

The support tube can be molded according to a further embodiment only partially with the plastic material. In order for parts of the support tube can be left exposed, for example, to use the properties of a metallic or solid surface.

In particular, the support tube may be encapsulated with the plastic material only to the extent that the plastic material is located between the support tube and the coil arrangement and in recesses of the support tube. Thus, a surface of the support tube radially inward, ie towards the anchor, remain exposed.

The bobbin preferably has on the inside a running surface for the anchor. This can guide and stabilize the anchor. It is preferably formed abrasion resistant.

The running surface is completely formed by the plastic material according to one embodiment. This allows the properties of the plastic material to be used for the running surface.

According to a further embodiment, the running surface is partially formed by the support tube and partly by the plastic material located in the recesses of the support tube. Thus, at least partially the properties of both the support tube and the plastic material can be used.

In the support tube, a sliding film is preferably arranged, which forms a running surface for the anchor. Thus, the property of the running surface can be defined independently of the support tube and the plastic material.

The electromagnet may according to an advantageous embodiment further comprise a yoke plate, in which the support tube is pressed. The yoke plate can fix and hold the support tube in particular with regard to its position.

According to a development, the support tube is magnetically separated. Thus, a magnetic optimization can be achieved.

According to one embodiment, the support tube has a pipe socket with Pohlrohreffekt. Thus, a magnetic and / or mechanical optimization can be achieved.

The plastic material is fiber filled according to one embodiment. This can stabilize the plastic material. It should be noted, however, that when using the support tube, fewer fibers are often needed to achieve a desired or required stability than when using a plastic material alone. The fibers can be swirled through the recesses of the support tube. The fibers may in particular be glass fibers.

The support tube may in particular be designed with a puzzle lock in order to stabilize its shape.

With the recesses in the support tube and the magnetic flux can be controlled or optimized. In addition, during production, a flow path can be reduced and an effective wall thickness can be set.

For the plastic material, for example, PPS (polyphenylene sulfide) can be used, which enables high strength. It can also be used, for example, PA (polyamide), which allows good sliding properties. However, other plastics or a mixture of plastics can also be used.

In the drawing, the invention is shown schematically in particular in one embodiment. Show it:

1a an electromagnet according to a first embodiment according to the invention,

1b a detailed view 1a .

2a a part of an electromagnet according to a second embodiment according to the invention,

2 B a detailed view 2a .

3 a support tube with yoke plate separately, according to the invention,

4 a support tube assembled with yoke plate, according to the invention.

In the figures, the same or corresponding elements are denoted by the same reference numerals and therefore, if not appropriate, will not be described again. The disclosures contained in the entire description are mutatis mutandis to the same parts with the same reference numerals or identical component names transferable. Also, the position information selected in the description, such as top, bottom, side, etc. related to the immediately described and illustrated figure and are to be transferred to a new position analogous to the new situation. Furthermore, individual features or combinations of features from the illustrated and described different embodiments may represent for themselves, inventive or inventive solutions.

1a shows an electromagnet 10 according to a first embodiment of the invention.

The electromagnet 10 has a coil arrangement 20 on. The coil arrangement 20 has a number of electrical coils, not shown, through which a current can be passed, thus generating a magnetic field.

Within the coil arrangement 20 is a bobbin 30 arranged. Its configuration will be discussed in more detail below.

The electromagnet 10 also has a core 12 on. This serves to guide magnetic field lines of the coil arrangement 20 , Furthermore, the electromagnet 10 a housing 14 on which the electromagnet 10 encloses the outside.

Inside the bobbin 30 is an anchor 60 arranged. This is in the bobbin 30 movable along an axis which passes through the bobbin 30 is defined and also a longitudinal axis of the bobbin 30 equivalent. The anchor 60 is formed of a magnetic material so that it upon application of the coil assembly 20 with an electric current, which generates a magnetic field, is moved by this magnetic field.

Between the core 12 and the anchor 60 is an anchor spring 62 arranged the anchor 60 biases. The bias takes place in one direction from the core 12 path. This thus defines a rest position of the anchor 60 , Is through the coil assembly 20 creates a magnetic field, so will the anchor 60 to the core 12 attracted.

The following will now be to the embodiment of the bobbin 30 be discussed in more detail. This is done with reference to 1a as well as with reference to 1b , where the 1b the in 1a represented with a rectangle and designated with the label "Ib" area more accurate or detailed.

The bobbin 30 has a support tube 40 on. This support tube 40 defines the extension of the bobbin 30 , It is made of a metallic material and thus strong and hard.

In the support tube 40 are a number of recesses 42 educated. These are in the form of holes in the wall of the support tube 40 executed. With them, for example, a guide in the magnetic field lines of the coil assembly 20 generated magnetic field can be achieved.

The bobbin 30 further includes a plastic material 50 on. With the plastic material 50 is the support tube 40 molded.

As can also be clearly seen in the figures, the plastic material penetrates 50 also in the recesses 42 of the support tube 40 one. Furthermore, the plastic material 50 radially inside and radially outside to the support tube 40 designed so that the support tube 40 completely from the plastic material 50 is surrounded.

The plastic material 50 thus defines a running surface 32 of the bobbin 30 , This running surface 32 leads the anchor 60 in his movement. It is understood that as an alternative to such an embodiment, for example, a film in the bobbin 30 can define the running surface, or that also the plastic material 50 only radially outside to the support tube 40 and optionally within the recesses 42 can be arranged. In the latter case, the support tube would 40 define the tread, optionally together with the in the recesses 42 located plastic material 50 ,

Due to the illustrated embodiment of the bobbin 30 Can take advantage of using a metallic support tube 40 and a plastic material 50 be combined with each other. The support tube ensures this 40 especially for high stability, while the plastic material 50 ensures good workability.

Overall, it can be achieved due to a plastic storage a long life. It can be used less heat resistant and reibverschleißoptimierte, cost and injection molding cheaper plastics than in a version without support tube 40 ,

It also results in a reduced Lagerereinschnürung when winding by processing shrinkage. As a result, an increased precision of the armature bearing can be achieved.

The design is particularly safety-compliant due to a reinforcement against collapse of the anchor guide (anchor clamp). It is possible a magnetic separation of the support tube. This allows an improved magnetic transition without short circuit can be achieved.

Furthermore, the production is easy to automate, especially if handling for the Joch plate described below already exists.

2a shows a part of the components of an electromagnet 10 according to a second embodiment of the invention. 2 B shows a section 2a which is in 2a marked with a rectangle and labeled "IIb".

It can be seen in particular that in contrast to the embodiment according to the 1a and 1b the plastic material 50 the support tube 40 does not surround on both sides, but only radially outside and inside the recesses 42 , This causes the running surface 32 for the anchor 60 not through the plastic material 50 is defined alone, but alternately through the support tube 40 and the plastic material 50 , This allows other properties for the running surface 32 , For example, in terms of friction and abrasion resistance can be achieved.

Furthermore, the electromagnet 10 a yoke plate 70 on. Their use and function will be described below with reference to FIGS 3 and 4 be described in more detail.

3 shows the support tube 40 as well as the yoke plate 70 separately. In the yoke plate 70 is a through hole 72 formed, in which the support tube 40 can be included.

4 shows the support tube 40 and the yoke plate 70 in an assembled state. It can be seen that while the support tube 40 into the through hole 72 the yoke plate 70 is included.

By means of the yoke plate 70 can the support tube 40 be fixed advantageous. This applies regardless of the specific embodiment of the encapsulation with the plastic material 50 ,

The design with a yoke plate according to the 3 and 4 not only in the embodiment, which in the 2a and 2 B is shown used. It can be used in particular in the embodiment, which in the 1a and 1b is shown. This is true though the yoke plate 70 in the 1a and 1b not explicitly shown.

Below, possible features of the proposal are displayed in a structured manner. The following structured reproduced features can be combined with each other and can be included in any combination in the claims of the application. It is clear to the person skilled in the art that the invention already results from the article with the fewest features. In particular, below advantageous or possible embodiments, but not the only possible embodiments of the invention are shown.

The invention comprises:
An electromagnet, with a coil arrangement ( 20 ), one within the coil assembly ( 20 ) arranged bobbin ( 30 ), and an anchor ( 60 ), which along a through the bobbin ( 30 ) defined armature movement direction in the bobbin ( 30 ) is movable, wherein the bobbin ( 30 ) a support tube ( 40 ) and a plastic material ( 50 ), wherein the support tube ( 40 ) at least partially with the plastic material ( 50 ) is sprayed over.

The above-mentioned electromagnet, wherein the bobbin ( 30 ) is tubular and / or designed as an armature guide tube.

The aforesaid electromagnet, wherein the support tube ( 40 ) is formed of metal.

The aforesaid electromagnet, wherein the support tube ( 40 ) a number of recesses ( 42 ) having.

The aforesaid electromagnet, wherein the support tube ( 40 ) is rolled.

The aforesaid electromagnet, wherein the support tube ( 40 ) completely with the plastic material ( 50 ) is sprayed over.

The aforesaid electromagnet, wherein the support tube ( 40 ) only partially with the plastic material ( 50 ) is sprayed over.

The aforesaid electromagnet, wherein the support tube ( 40 ) only insofar with the plastic material ( 50 ) is sprayed over that the plastic material ( 50 ) between support tube ( 40 ) and coil arrangement ( 20 ) as well as in recesses ( 42 ) of the support tube ( 40 ) is located.

The above-mentioned electromagnet, wherein the bobbin ( 30 ) inside a running surface ( 32 ) for the anchor ( 60 ) having.

The aforesaid electromagnet, wherein the running surface ( 32 ) completely through the plastic material ( 50 ) is formed.

The aforesaid electromagnet, wherein the running surface ( 32 ) partially through the support tube ( 40 ) and partly by the in the recesses ( 42 ) of the support tube ( 40 ) located plastic material ( 50 ) is formed.

The above-mentioned electromagnet, wherein in the support tube ( 40 ) a sliding foil is arranged, which has a running surface ( 32 ) for the anchor ( 60 ).

The aforesaid electromagnet, wherein the electromagnet ( 10 ) further a yoke plate ( 70 ) into which the support tube ( 40 ) is pressed.

The aforesaid electromagnet, wherein the support tube ( 40 ) is magnetically isolated.

The aforesaid electromagnet, wherein the support tube ( 40 ) has a tube approach with Pohlrohreffekt.

The aforesaid electromagnet, wherein the plastic material ( 50 ) is fiber filled.

The claims now filed with the application and later are without prejudice to the attainment of further protection.

If, on closer examination, in particular also of the relevant prior art, it appears that one or the other feature is beneficial for the purpose of the invention, but not crucial, it is of course already desired to have a formulation which is such a feature , in particular in the main claim, no longer having. Such a sub-combination is also covered by the disclosure of this application.

It should further be noted that the embodiments and variants of the invention described in the various embodiments and shown in the figures can be combined with one another as desired. Here, one or more features are arbitrarily interchangeable. These feature combinations are also disclosed with.

The references cited in the dependent claims indicate the further development of the subject matter of the main claim by the features of the respective subclaim. However, these are not to be understood as a waiver of obtaining independent, objective protection for the features of the dependent claims.

Features which have been disclosed only in the description or also individual features from claims which comprise a plurality of features can at any time be taken over as being of essential importance for the purpose of differentiation from the prior art in the independent claim (s), even then, if such features have been mentioned in connection with other features or achieve particularly favorable results in connection with other features.

Claims (10)

Electromagnet, with a coil arrangement ( 20 ), one within the coil assembly ( 20 ) arranged bobbin ( 30 ), and an anchor ( 60 ), which along a through the bobbin ( 30 ) defined armature movement direction in the bobbin ( 30 ) is movable, characterized in that the bobbin ( 30 ) a support tube ( 40 ) and a plastic material ( 50 ), wherein the support tube ( 40 ) at least partially with the plastic material ( 50 ) is sprayed over. Electromagnet according to claim 1, characterized in that the bobbin ( 30 ) is tubular and / or designed as an armature guide tube. Electromagnet according to one of the preceding claims, characterized in that the support tube ( 40 ) a number of recesses ( 42 ) having. Electromagnet according to one of the preceding claims, characterized in that the support tube ( 40 ) completely with the plastic material ( 50 ) is sprayed over. Electromagnet according to one of the preceding claims, characterized in that the support tube ( 40 ) only partially with the plastic material ( 50 ) is sprayed over. Electromagnet according to one of the preceding claims, characterized in that the support tube ( 40 ) only insofar with the plastic material ( 50 ) is sprayed over that the plastic material ( 50 ) between support tube ( 40 ) and coil arrangement ( 20 ) as well as in recesses ( 42 ) of the support tube ( 40 ) is located. Electromagnet according to one of the preceding claims, characterized in that the bobbin ( 30 ) inside a running surface ( 32 ) for the anchor ( 60 ) and the running surface ( 32 ) completely through the plastic material ( 50 ) is formed. Electromagnet according to one of the preceding claims, characterized in that the bobbin ( 30 ) inside a running surface ( 32 ) for the anchor ( 60 ) and the running surface ( 32 ) partially through the support tube ( 40 ) and partly by the in the recesses ( 42 ) of Support tube ( 40 ) located plastic material ( 50 ) is formed. Electromagnet according to one of the preceding claims, characterized in that in the support tube ( 40 ) a sliding foil is arranged, which has a running surface ( 32 ) for the anchor ( 60 ). Electromagnet according to one of the preceding claims, characterized in that the electromagnet ( 10 ) further a yoke plate ( 70 ) into which the support tube ( 40 ) is pressed.

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