DE102006025343A1 - solenoid - Google Patents

Abstract

In a solenoid according to the invention for an electromagnet for actuating a hydraulic valve, a bobbin and at least one pole disc is provided, wherein the pole disc can be supported on a rib-like increase of this a sealing ring and the pole disc is arranged at an axial end portion of the bobbin. In addition to a metallic force flow, a good seal of the coil can be realized.

Description

The The present invention relates to a solenoid for actuating a hydraulic valve and an electromagnet with such Magnetic coil.

at Electromagnet, in which between the bobbin and the fastening nut plastic exists, flows under thermal stress the plastic under the fastening nut, so that the bias of the Befestigungsmuter is lower and this loosens.

From the patent US 6,148,862 is a patch on a pole tube magnetic coil is known in which a bobbin on a fastening nut by an L-shaped yoke whose end face is supported on a plate is held. The power flow runs from the fastening nut over the yoke to the plate. Plastic is provided between the yoke opposite side of the bobbin and the plate, so that in mechanical and thermal stress from the outside, the relative position of the bobbin can change to the plate. A cover is located above the mounting nut and is sealed off from the yoke with respect to a plastic resin body. Due to this cover results in a large axial dimension of the electromagnet.

The patent US 4,540,154 discloses an electromagnet in which a bobbin is located in a U-shaped yoke and this yoke is held between a washer supported on a fastening nut and an adapter. The washer and associated with this increased axial dimension is necessary so that an outer housing made of synthetic resin can surround the U-shaped yoke.

at the said electromagnet from the prior art is in addition the big Axialabmessung also disadvantageous that foreign matter between bobbin and Polrohr enter and the response of the actuated by the electromagnet hydraulic Valve can worsen.

The The object of the present invention is a magnetic coil and an electromagnet for to create a magnetic coil in which a defined preloaded, tight fit of the solenoid on the pole tube even with mechanical and / or thermal stress is present.

These The object is achieved by the magnetic coil according to claim 1 and the electromagnet according to claim 8 solved.

A Magnetic coil according to the invention for operation a hydraulic valve has a bobbin and at least one pole disk on. The pole disc is arranged at an axial end portion of the bobbin and has at least a rib-like elevation for supporting a Seal. By the increase becomes a good power flow for holding the solenoid on a pole tube ensured while at the same time a good seal of the coil outwards.

The increase is preferably annular formed and the sealing ring is preferably radially inside the increase, so that a uniform seal a gap between a pole tube and the solenoid takes place.

By a sintering of the pole disk and when using high purity Powders leaves the pole disc approached isotropic strength and toughness properties produce. A non-cutting forming of the pole disc allows a Low-waste production.

According to one advantageous development of the invention is between the pole disk and the covering ones Plastic sheath provided a labyrinth seal. This effectively prevents the ingress of moisture and foreign substances in the magnetic coil. This labyrinth seal is preferably radial outside the increase provided so that the sealing area directly to the increase, over the the metallic force flow takes place, can connect.

Especially is advantageous if two pole discs are provided, each arranged on axially opposite portions of the bobbin are. This arrangement allows one pure metallic force flow between a contact surface of the Polrohres and one at the opposite end portion of the electromagnet arranged Befestigungsmuter. This can be a good magnetic Power flow and cost-effective production be secured.

One Electromagnet according to the invention has a solenoid as mentioned above, so that a compact Design for the electromagnet in advantageous mechanical and magnetic Achieve properties.

Inventive developments are the subject of the dependent claims.

following The present invention will become apparent in the context of schematic drawings described. Show it:

1 an electromagnet with pole tube, on which a magnetic coil shown in the sectional view according to the present invention is applied,

2 a perspective view of a magnetic coil according to the invention and

the 3 and 4 Sectional views of a coil unit of the magnetic coil according to the invention.

In 1 is pole tube 1 with two axially in the axial direction arranged Polrohrabschnitten 2 . 4 shown. The one pile pipe section 2 is insertable in a valve block, not shown, and serves for example for actuating a slide valve or pressure valve. On the other hand Polrohrabschnitt 4 pointing is on the insertable into the valve block pile tube section 2 a contact surface 6 for a solenoid 8th intended. The pole tube 1 and the magnetic coil 8th form an electromagnet 9 , On the other pile pipe section 4 is a fixing nut 10 screwed by the solenoid 8th against the contact surface 6 of the pole tube 1 is depressible.

The magnetic coil 8th is in 2 shown in perspective view and has over half of its circumference a wooden cylinder section 12 and a cuboid section over the other half of its circumference 14 that with a hollow cylinder section 12 is connected and where the electrical contacts 16 are trained on. The electrical contacts shown in the figures 16 are not limited to the illustrated forms, but in addition to the illustrated connector according to DIN EN 175301-803, any electrical connector may be used, such as an AMP Junior Timer connector or a connector company German DT04-2P, pin 0460-202-16141.

The magnetic coil 8th has an interior 18 , in the pole tube 1 used. The interior 18 is preferably cylindrical, so that a putting on of the magnetic coil 8th on the pole tube 1 is relieved.

On the outer circumference of the hollow cylinder portion 12 and over a portion of the outer periphery of the cuboid portion 14 is at the solenoid 8th in its circumferential direction a plurality of grooves 15 provided by the solenoid coil 8th coolable and safer tangible and can be placed on the pole tube.

The inner structure of the solenoid coil will be described below 8th with reference to 1 explained.

The interior 18 is in the radial direction through an annular bobbin 20 limited, having in axial section a hollow cylinder with two radially projecting legs. On the substantially formed as a hollow cylinder base portion 22 the bobbin is in the axial direction between the two opposite legs 24 . 26 of the bobbin 20 a winding 28 introduced, which with the on the cuboid section 14 arranged electrical contacts 16 electrically connected. The bobbin 20 is in a metal cage 30 used, a homogenization of the magnetic field of the winding 28 performs.

pole discs 32 . 34 are on the pole tube 1 put on and lie on the thigh 26 . 28 of the bobbin 20 at. The pole discs 32 . 34 can be made in different ways. For example, these can be produced by non-cutting prototyping, for example as sintered parts.

The in the 3 and 4 cut, shown in the perspective view and in different rotational positions Polscheiben 32 . 34 have at their end faces radially outward from the interior 18 an axially outwardly facing inner annular surface 36 , to which in the radial direction a rib-like, annular-shaped elevation 38 and an outer annular surface 40 connect. Radially outward of the ring surface 40 has the respective pole disk 32 . 34 distributed over the circumference radial projections 42 on. Between two adjacent radial projections is a recess 44 provided by the pole discs 32 . 34 and with these the bobbin 20 non-rotating in an outer housing 54 the solenoid 8th can be arranged.

The in the 3 and 4 shown bobbin 20 with pole discs 32 . 34 and metal cage 30 is poured, preferably in the form of an in 1 illustrated encapsulation 48 made of plastic, so that the peripheral surface sections 46 the radial projections 42 with the peripheral surface 50 the encapsulation 48 flush. The bobbin 20 with winding 28 , as well as the metal cage 30 , the pole discs 32 . 34 and the encapsulation 48 form a coil unit 52 ,

The coil unit 52 is from the in 1 and 2 illustrated outer housing 54 surrounded, which is preferably formed by molding with plastic. In the outer casing 54 are the electrical contacts 16 and the grooves described above 15 the solenoid 8th intended. The outer housing 54 engages over claws not shown in the recess 44 at the coil unit 52 , so that a rotationally secure arrangement of the coil unit 52 in the outer casing 54 is present.

In the outer ring area 40 the pole discs 32 . 34 are annular recesses 56 introduced, which together with the overlapping area of the outer housing 54 a respective Laby rinthdichtung 58 form. The labyrinth seal 58 prevents the ingress of foreign substances, such as moisture into the coil unit 52 ,

On the inner ring surface 36 is a sealing ring 60 applied, which was selected in such a way that when on the pole tube 1 applied magnetic coil 8th as in 1 shown the face 62 the rib-like elevation with the compressed sealing ring 60 flush and the sealing ring 60 between the pole tube 1 and the respective pole disk 32 . 34 performs a seal.

The magnetic coil 8th The present invention can be removably mounted on pole tubes in a simple manner. The sealing rings 60 allow an effective seal between the pole tube 1 and the magnetic coil 8th , The axial dimension of the magnetic coil 8th is low, as the pole piece on the legs 24 . 26 of the bobbin 20 connect and the sealing ring radially inside the elevation 38 the respective pole disk 32 . 34 is supported.

As between the fastening nut 10 and the contact surface 6 of the pole tube 1 the flow of power over the metal cage 30 and the pole disks 32 . 34 takes place, there is a secure attachment of the solenoid 8th at the pole tube 1 in front. The bobbin 20 and the preferably made of metal pole discs 32 . 34 are adjacent, whereby an advantageous magnetic flux is present. Due to the small number of components and the simple production of the pole disks cost-effective production of the magnetic coil and the electromagnet is possible.

at a solenoid coil according to the invention for a Electromagnet for actuation a hydraulic valve is a bobbin and at least one pole disc provided, wherein the pole disk on a rib-like increase of support this one sealing ring can and the pole disc arranged at an axial end portion of the bobbin is. In addition to a metallic flow of force can be a good seal realize the coil.

1

pole tube

2

Polrohrabschnitt

4

Polrohrabschnitt

6

contact surface

8th

solenoid

9

electromagnet

10

fixing nut

12

Hollow cylinder section

14

cuboid section

15

grooves

16

electrical contacts

18

inner space

20

bobbins

22

base section

24

leg

26

leg

28

winding

30

metal cage

32

pole disk

34

pole disk

36

inner ring surface

38

rib-like increase

40

outer ring surface

42

radial projection

44

deepening

46

Peripheral surface portion

48

encapsulation

50

peripheral surface

52

coil unit

54

outer casing

56

annular recess

58

labyrinth seal

60

seal

62

face

Claims (8)

Magnetic coil ( 52 ) for actuating a hydraulic valve, with a bobbin ( 20 ) and with at least one pole disk ( 32 . 34 ), which at an axial end portion of the bobbin ( 20 ), wherein the pole disk ( 32 . 34 ) at least one rib-like elevation ( 38 ) for supporting a sealing ring ( 60 ) having. Magnetic coil according to claim 1, wherein the increase ( 38 ) is annular and the sealing ring ( 60 ) radially within the elevation ( 38 ) is provided. Magnetic coil according to claim 1 or 2, wherein the pole disk ( 32 . 34 ) is sintered. Magnetic coil according to claim 1 or 2, wherein the pole disk ( 32 . 34 ) is deformed without cutting. Magnetic coil according to one of the preceding claims with a between the pole disk ( 32 . 34 ) and this covering plastic coating arranged labyrinth seal ( 58 ). Magnetic coil according to claim 5, wherein the labyrinth seal ( 58 ) radially outside the elevation ( 38 ) is provided. Magnetic coil according to one of the preceding claims with two pole disks ( 32 . 34 ), which at axially opposite portions of the bobbin ( 20 ) are provided. Electromagnet ( 5 ) with a magnetic coil ( 52 ) according to any one of the preceding claims.