DE4231115A1 - Magnetic sensor with cylindrical pole-shoe enlarged in dia. on top side across bevel - has pole-shoe tip on bottom side and is provided with essentially cylindrically shaped magnet and plastic body with opening for pole-shoe and accepts coil at top part. - Google Patents

Abstract

The magnet (2) is movable in the plastic body (9) up to the pole-shoe (1) enlarged by the bevel (10). An essentially ring-shaped plug (4) is cast, surrounding and sealing the pole-shoe. The ring-shaped sealing plug (4) is arranged in a ring-shaped recess provided in the pole-shoe. The sealing plug surrounds and fills up the opening (11), and is arranged flush with the end surface (14) of the plastic body. USE/ADVANTAGE - Sensor for use in vehicles, is protected against ingress of moisture and contamination at pole-shoe.

Description

The invention relates to a magnetic sensor, be standing out

• a pole core with an essentially cylindrical shape, one side of which is chamfered through knife enlarged and the other side a pole may have core tip,
• - An essentially cylindrical shape Magnets and
• - a plastic body, which has an opening at its end up to which the pole core and the one in sections in its upper part put coil in which the magnet up to the pole core enlarged by the bevel can be inserted.

A magnetic sensor is known in which the Pole core is formed in two parts. It will upper diameter over a bevel ver Larger part of the pole core in a plastic body pushed and a magnet placed over it. From below becomes the second part of the pole core with a pole core opposite from the inside. For intrusion to prevent moisture and contamination the pole core inserted below, the plastic cover and the plug connection large and all over with art fabric covered.  

Another magnetic sensor is known in which the pole core with its magnet also in a shell, preferably made of metal. The protruding end of the pole core must here with a Laser beam tightly welded around the pole core tip to prevent moisture and pollution prevent prevent.

The invention is therefore based on the object disadvantages mentioned above with a magnetic Eliminate sensor of the type mentioned and to create a magnetic sensor whose pole core simple and safe against ingress of moisture and Contamination is protected.

This object is achieved in that an essentially ring-shaped closure is cast in is that embraces the pole core and the opening of art seals body.

The advantages achieved with the invention are special in that with the arrangement of the annular In a very simple way Penetration of moisture and contamination in the magne table sensor is prevented. Besides its caulk the effect of the ring-shaped closure ensures that the pole core held securely and with the plastic body is connected by. In addition, it is possible to sealing termination of the sensor with an essential to manufacture simplified technology.

In a further embodiment of the invention, the ring is Termination in a introduced in the pole core annular recess enclosing and the opening arranged in full. This ensures that there is a reliable seal of the pole core towards the plastic body. On the other hand  this form of sealing also makes it more secure Seat of the pole core in the plastic body allows.

It is advantageous if the annular end under Release of the outside with the pole core tip surface of the pole core is flush with the end surface of the Plastic body is arranged in the opening. Here at takes over the outer surface of the pole core at the same time a protective and sealing effect against external influences. In addition, the magneti cal sensor by wrapping the metallic sensor with a plastic cover an advantageous look.

It is advantageous if the annular end ge together and / or individually with a closing elements and an outer cap enclosing a connecting cable in two technical and / or simple casting process is made. This makes it possible for the respective ferti optimal technical conditions. By the linking of two operations, d. H. of casting of the annular end and the outer cap the expenses for the manufacture of the sensor reduce significantly.

It is advantageous if the annular Ab conclusion, the plastic body and the outer cap Plastic is essentially the same Has composition. This is a good contract all plastic elements and a uniform Guaranteed appearance of the entire sensor.

An embodiment of the invention is in the drawing shown and will be described in more detail below ben. Show it:

Fig. 1 a magnetic sensor in a perspektivi rule schematic representation,

FIG. 2 shows a magnetic sensor according to FIG. 1 in a partially sectioned illustration.

Main elements of the magnetic sensor shown in Figs. 1 and 2 are

• a cylindrical pole core 1 ,
• a cylindrical magnet 2 ,
• - A cylindrical plastic body 9 , in which a stepped bobbin 3 is introduced and
• - an annular end 4 .

The plastic body 9 is first molded in a special injection molding process. In the plastic body 9 , the previously wound bobbin 3 is fitted and locked. The outer diameter of the pole core 1 is enlarged on one side via a bevel 10 . The pole core has a pole core tip 13 on the opposite side. This pole core designed in this way is pushed through the bobbin 3 to an opening 11 of the plastic body 9 , so that the tip protrudes. A lateral encirclement on the bevel 10 ensures that the pole core 1 cannot slip out. The magnet 2 is pushed onto this pole core inserted in this way. Its diameter and the diameter of the pole core 1 enlarged by the chamfer 10 are approximately the same. As can further be seen in FIG. 2, there are 3 connecting elements 5.1 , 5.2 at the upper end of the coil body, which can be connected to a connecting cable 8 . In a subsequent casting process, on the one hand the annular end 4 and on the other hand an outer cap 7 , which comprises the connection elements 5.1 and 5.2 and the connection cable. It is possible to mold both parts one after the other in a single casting process or at the same time in a double casting process. As a result, the annular closure 4 fills the opening 11 of the plastic body 9 and an annular recess introduced into the pole core 1 . With the special design of the pole core 1 and the opening 11 it is ensured that the cast-in ring-shaped closure ensures a safe and environment-resistant seal on the one hand and on the other hand ensures that the pole core is held and locked in the plastic body 9 .

As can be seen in particular from FIG. 1, this results in a smooth surface formed on the lower side by the pole core 1 , the annular end 4 and a section surface 14 . The pole core tip 13 protrudes from this smooth surface. This pole core tip 13 can be cylindrical or beveled.

In the previous statements it was shown that the pole core 1 , the magnet 2 , the coil body 3 and the plastic body 9 are cylindrical. Due to this cylindrical design, the annular end 4 has a round shape. However, it is also possible to design these elements as polygons. In this case, the annular end can either adapt to this geometric shape or keep its round shape. For the pouring or molding of the final ses 4 , its geometric design is of subordinate importance. The molding of the end 4 in an injection molding process prevents in any case an ingress of moisture and contamination. These extreme conditions of use is the magnetic sensor z. B. exposed to use in the automotive sector. To make him safe z. B. to be able to position in the vehicle compartment, a fastening part 6 can be placed around the plastic body 9 .

Reference symbol list:

1 pole core
2 magnet
3 bobbins
4 ring-shaped closure
5.1 , 5.2 closing element
6 fastening part
7 outer cap
8 connection cables
9 plastic body
10 bevel
11 opening
12 annular recess
13 pole core tip
14 end surface

Claims (5)

1. Magnetic sensor consisting of

• - A pole core ( 1 ) with an essentially cylindrical shape, one side of which has a bevel ( 10 ) that increases its diameter and the other side of which can have a pole core tip ( 13 ),
• - A substantially cylindrical magnet ( 2 ) and
• - A plastic body ( 9 ) which has an opening ( 11 ) at its end, up to which the pole core ( 1 ) and in its upper part receives a section ( 3 ) in which the magnet ( 2 ) up to the pole core ( 1 ) enlarged by the bevel ( 10 ) can be pushed in, characterized in that a substantially ring-shaped closure ( 4 ) emitting and sealing the pole core ( 1 ) is cast into the opening ( 11 ).

2. Sensor according to claim 1, characterized in that the annular closure ( 4 ) in an in the pole core ( 1 ) introduced annular recess ( 12 ) to close and the opening ( 11 ) is filling net angeord. 3. Sensor according to claim 1 or 2, characterized in that the annular end ( 4 ) with the release of the pole core tip ( 13 ) provided outer surface of the pole core ( 1 ) flush with the end surface ( 14 ) of the plastic body ( 9 ) is arranged in the opening ( 11 ). 4. Sensor according to at least one of claims 1 to 3, characterized in that the annular closure ( 4 ) together and / or individually with a closure elements ( 5.1 , 5.2 ) and a connecting cable ( 8 ) around the closing outer cap ( 7 ) in duplicate - And / or simple casting process is made. 5. Sensor according to at least one of claims 1 to 4, characterized in that the plastic body ( 9 ), the annular closure ( 4 ) and the outer cap ( 7 ) consists of plastic with essentially the same composition.