DE8913163U1 - Electromagnetically operated 3/2-way valve for controlling a pneumatic medium, especially for motor vehicles - Google Patents

Description

Description

Electromagnetically operated 3/2-way valve I for controlling a pneumatic medium, especially for motor vehicles

The invention relates to an electromagnetically actuated 3/2-way valve for controlling a pneumatic medium, in particular for motor vehicles, with a supply connection and two working connections, with two valve bodies and two opposing valve seats, with a solenoid with a lifting armature which is arranged displaceably in the solenoid coil and which has a bore, and with a helical compression spring which loads a valve seat with its stroke in the direction of ad.

Such electromagnetically actuated 3/2-way valves are used, in particular in motor vehicles, to control a pneumatic medium, in particular air, which is under pressure or negative pressure. Possible uses in motor vehicles include, for example, the control of pneumatic central locking systems or other pneumatically actuated consumers.

A 3/2-way valve of this type is already known from the documents of the German utility model 6 82 12 371.3, which can be operated electromagnetically. [/the 3/2-way valve there has one supply connection and two working connections. Two opposing valve seats can be closed alternately by two valve bodies. The valve bodies are arranged on a lifting armature, which is arranged so that it can move in a magnetic coil and can be actuated when current flows through the magnetic coil due to the magnetic effect on the lifting armature. The lifting armature is loaded by a helical compression spring in the direction of a valve seat when the magnetic coil is not carrying current. The lifting armature of this 5/8-way valve has a continuous bore, which serves to direct the medium flow through the interior of the lifting armature.

from one side of the lifting armature to the other side of the lifting armature. The valve bodies are designed in such a way that the medium can flow past the valve bodies into the bore of the lifting armature.

However, the previously known S/Z-way valve has disadvantages. Due to the arrangement of a through hole in the lifting armature to guide the flow of the medium through the lifting armature, the lifting armature and thus the entire previously known 3/2-way valve must have a comparatively large construction volume. Furthermore, complex measures are required to attach the valve body to the lifting armature, such as flanging at the ends of the lifting armature. To elastically support the valve body on the valve seats, a further helical compression spring is required inside the lifting armature bore. The latter measures make the previously known 3/2-way valve complicated and expensive.

The invention has the object of creating an electromagnetically actuated 3/2-way valve for controlling a pneumatic medium, which is simple and inexpensive to construct, which requires a small construction volume and enables a reliable closing effect when the valve seats are closed by the valve body.

This object is achieved according to the invention in that the lifting armature has medium-conducting channels on its outer circumference, that the bore is designed as a blind bore, that a sliding insert is arranged in the blind bore, which carries a valve body, and that the helical compression spring is arranged inside the blind bore and is supported on the insert.

Because the lifting anchor has media-conducting channels on its outer circumference, it is not necessary, unlike with the pre-casting, to lead the medium to be controlled through the interior of the lifting anchor.

the bore can be designed as a blind bore. According to the invention, a movable insert is arranged in the blind bore, which carries one of the two valve bodies. The helical compression spring is also arranged inside the blind bore and is supported on the insert in such a way that the helical compression spring not only loads the insert in the direction of the end of the blind bore of the lifting armature, but also the lifting armature in the direction of a valve seat.

With the measures provided according to the invention, it is possible to make the 3/2-way valve according to the invention smaller than the previously known one, since the lifting armature diameter can be reduced compared to the previously known one because the medium is not passed through the lifting armature. In addition, the helical compression spring is arranged inside the blind bore of the H ti banker, so that with this measure, additional height of the 3/2-way valve according to the invention can be saved compared to the previously known one.

Unlike the previously known valve, the 3/2-way valve according to the invention requires only one helical compression spring instead of two helical compression springs, which makes the 3/2-way valve according to the invention simpler and more cost-effective than the previously known valve. The helical compression spring provided according to the invention serves both to load the lifting armature in the direction of a valve seat and to ensure that the valve body attached to the lifting armature rests securely on the valve seat, so that a secure closing effect of the 3/2-way valve according to the invention is achieved.

Advantageous embodiments and further developments of the 3/2-way valve according to the invention emerge from the subclaims.

In order to make the lifting anchor particularly simple and cost-effective, it is particularly advantageous if the lifting anchor is provided with an essentially circular

cross-section and if the channels are in particular two opposing flattened areas of the lifting armature. The essentially circular cross-section of the lifting armature on its outer circumference also ensures a good magnetic coupling of the lifting armature to the lifting magnet.

In order to enable a reliable sealing effect even when the valve body of the insert is in contact with the corresponding valve seat, it is advantageous if the attachment has an elastic covering, in particular made of an elastomer, at least as a valve body.

For the same reason, the lifting armature can have a particularly button-shaped shape on its side opposite the blind bore, which is covered by a pot-shaped part made of elastic material, in particular an elastomer, which serves as a second valve body. The corresponding valve body can then be attached to the lifting armature by simply buttoning it onto the button-shaped part of the lifting armature.

To further improve the magnetic coupling of the lifting armature to the magnetic coil, it is advantageous if the lifting armature has a circumferential projection that interacts with a circumferential shoulder of a magnetic core. This further increases the magnetic flux-conducting area between the lifting armature and the magnetic coil. For the same reason, it can also be provided that the lifting armature has a circumferential shoulder that interacts with a circumferential projection of the magnetic core.

In order to ensure good mobility of the insert in the bore, and at the same time to enable good support of the helical compression spring on the insert and good guidance of the helical compression spring around the insert, it is particularly advantageous if the insert has a club-shaped shape, if the helical compression spring

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rests on the club head and when the valve body is arranged on the tapered part of the club.

In order to enable the armature to move as freely as possible relative to the magnetic coil, it is advantageous if a tube is arranged between the armature and the magnetic coil, which is designed to be as smooth as possible. The tube can in particular be a non-magnetic metal tube.

An embodiment of the 3/2-way valve according to the invention is shown in the drawing and is explained in more detail below with reference to the drawing.

The single figure shows an inventive

Electromagnetically operated 3/2-way valve for controlling a pneumatic medium in a partial section through the central axis.

In the figure, a substantially U-shaped

designed magnetic yoke (1), e.g. made of iron, a

Magnetic coil body (2) made of plastic material I, on which a Magnetic coil (3) is wound, whose electrical Connections acting coil ends with electrical Connecting pins (4) are conductively connected, which together

with corresponding extensions on the magnet yoke (1) e.g. in an electrical

circuit board can be used.

A substantially iron magnetic core (5) is riveted to the magnetic yoke (1) and has a hollow bore (13) which pneumatically connects a third valve socket (24), which serves as the first working connection, to a first valve seat (12) which is formed in the magnetic core. The magnetic core is surrounded on its outer circumference by a metal tube (6) which passes through the entire interior of the coil. To seal the

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A first soft material seal (17) is provided inside the pipe in relation to the pneumatic medium and is arranged as an O-ring seal between the magnetic core (5) and the pipe (j).

A lifting anchor (7) made of metallic material is arranged in the tube (6) and can be moved. The lifting anchor has a blind hole or a blind bore (8) in which a

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club-shaped, the tapered part of the club an elastic covering (9), in particular made of

Plastic material I, whose magnetic core end

serves as the first valve body (11).

Thickening of the insert (10) is supported by a Unscrew the compression spring (16), which is on the other hand located on a

circumferential groove of the magnetic core (5).

The lifting armature (7), which has an essentially circular outer circumference, has a flattened area (14) as medium-conducting channels, opposite which is another flattened area of the same design (not visible in the figure). A bore (15) is provided in the area of the flattened area (14).

A button-shaped formation (27) is formed on the lifting armature (7), in particular in one piece, which carries a second valve body (18) made of elastic plastic material, which is buttoned onto the button-shaped formation (27) in a simple manner. Opposite this second valve body (18) is a second valve seat (22), which is designed in one piece with a valve piece (19) made of plastic material. The second valve seat (22) is connected in a flow-conducting manner to a first valve nozzle (20) through a bore, which serves as a second working connection. Between the valve piece (19) made of plastic material and the outer end of the pipe (6) is a second soft material seal (23), which is designed as an O-ring, for medium-tight sealing.

Sealing of the interior of the 3/2-way valve according to the invention is provided.

A second hollow-drilled valve socket (21), not visible in the figure, is connected in a flow-conducting manner to the interior of the 3/2-way valve according to the invention and serves as a supply connection.

The lifting armature (7) has a circumferential projection (25) on its side facing the magnetic core (5), which engages in a circumferential shoulder (26) of the magnetic core (5) when the magnetic coil is energized and thus when the lifting armature (7) is attracted. In the figure, the 3/2-way valve according to the invention is shown approximately 5 times larger than the original.

The 3/2-way valve I according to the invention as shown in the figure functions as follows:

In the figure, the valve is shown in the state in which no current flows through the magnetic coil (3). In this case, no magnetic force acts on the lifting armature (7), so that the helical compression spring (16) pushes the insert (10) to the left in the figure. This lifts the first valve body (11) off the first valve seat (12). At the same time, the helical compression spring (16) presses the lifting armature (7) to the left in the figure via the insert (10), so that the second valve body (18) rests on the second valve seat (22) in a medium-tight manner via the button-shaped formation (27).

In this case, the flow-conducting connection between the second valve nozzle (21) or the supply connection and the first valve nozzle (EO) or the second working connection is interrupted. In contrast, there is a flow-conducting connection between the second valve nozzle (21) via the interior of the 3/2-way valve according to the invention, past the lifting recess (7) over the flats (14) past the first valve seat (12) through the

Hollow bore (13) in the magnetic core (5) ?.around third valve port (24) or the first working connection.

If the current now flows through the magnetic coil (3), the magnetic effect of the magnetic coil (3) causes the lifting armature (7) and thus the insert (10) to move to the right in the figure against the force of the screw pressure spring (16) until the first valve body (11) rests on the first valve seat (12). This interrupts the previously existing and conductive connection between the second valve socket (21) and the third valve socket (24). At the same time, the movement of the lifting armature (7) to the right in the figure lifts the second valve body (18) off the second valve seat (22), so that the flow-conducting connection between the second valve socket (21) and the first valve socket (20) is established.

By designing both valve bodies (18 and 11) as soft material valve bodies, a good seal of the valve seats (12) and (22) is ensured depending on the position of the lifting armature (7) in the pipe (6). Due to the special structural design of the lifting armature (7), insert (10) and the point of application of the helical compression spring (16) on the insert (10), the 3/2-way valve according to the invention can be easily installed. In addition, due to these measures, both the insert (10) and the lifting armature (7) are spring-loaded with a single helical compression spring (16).

Claims (8)

Expectations: 1. Electromagnetically actuated 3/2-way valve for controlling a pneumatic medium, in particular for motor vehicles, with one supply connection and two working connections, with one valve body and two opposite valve seats, with a magnetic coil, with a lifting armature which is arranged displaceably over the magnetic coil and which has a bore and with a helical compression spring which loads the lifting armature in the direction of a valve seat, characterized _by : ·. the lifting cylinder (7) has media-conveying channels on its outer circumference, that the housing is formed in the blind bore (8), that a vertical insert ( ¹⁰ ) is arranged in the blind bore (8) which carries a valve body (11) and that the compression spring (16) is arranged inside the blind bore (8) and is supported on the insert (10). 2. Electromagnetically actuated 3/2-way valve according to Claim 1, characterized in that the lifting armature (7) has a substantially circular cross-section on its outer circumference and that the channels are in particular two opposite flattened areas (14) of the lifting armature. 3. Electromagnetically actuated 3/2-way valve according to claim 1, characterized in that the insert (10) has an elastic casing (9), in particular made of an elastomer, at least as a valve body (11). 4. Electromagnetically actuated 3/2-way valve according to Claim 1, characterized in that the lifting armature (7) has, at its end opposite the blind bore (8), a particularly button-shaped formation (27) which is surrounded by a pot-shaped part (18) made of elastic material, particularly of an elastomer, serving as a second valve body. 5. Electromagnetically actuated 3/2-way valve according to claim 1, characterized in that the lifting armature (7) has a circumferential projection (25) which interacts with a circumferential shoulder (26) of a magnetic core (5). 6. Electromagnetically actuated 3/2-way valve according to Claim 1, characterized in that the lifting armature (7) has a circumferential shoulder which interacts with a circumferential projection of a magnetic core (5). 7. Electromagnetically operated 3/2-way valve I according to claim 1, characterized in that the insert (10) has a club-shaped configuration, that the helical compression spring (16) is supported on the club head, and that the valve body (11) is arranged on the tapered part of the club. 8. Electromagnetically actuated 3/2-way valve according to claim 1, characterized in that a tube (6), in particular made of non-magnetic metal, is arranged between the armature (7) and the magnetic coil (2).