DE29821410U1 - Disc-shaped valve arrangement - Google Patents

Description

72 718 -.2. Disc-shaped valve arrangement

Description

The invention relates to a disc-shaped valve arrangement according to the preamble of claim 1.

Such a valve arrangement is described in the brochure "Valve units type V15" from Rexroth Mecman GmbH (print sheet no. 8858903103, print date 4.98). The disk-like pneumatic valve arrangement essentially consists of a valve element and a base plate element. The valve element is intended as a switching element for pressure medium flows and interacts with a base plate element containing pressure medium channels S, P, R, A, B. The valve element has corresponding pressure medium connections S, P, R and A, B ₁ on two surfaces opposite one another in the flow direction, between which a valve slide switches to transmit the pressure medium. For this purpose, the valve slide is moved longitudinally by a valve drive in the form of an electro-pneumatic pilot valve that is freely accessible from the outside. The base plate element has a U-shaped recess into which the valve element is inserted and locked. The pressure medium connections S, P, R and A, B of the Valve element is aligned with the pressure medium connections S, P, R, A, B in the base plate element by means of a flat displacement. Pressure medium connections A, B for working lines to be connected are provided on the outside of the base plate element. The pressure medium channels S ₁ P ₁ R open into pressure medium channel sections arranged perpendicular to them. The valve arrangement has a disk-like shape, with opposing connecting surfaces allowing several valve elements to be arranged in series to form a valve unit. The individual pressure medium channel sections S, P ₁ R are connected to form a pressure medium channel S ₁ P ₁ R common to all valve arrangements. The valve unit constructed in this way can be attached to a top-hat rail, for example, using snap-on devices. The individual valve drives each have two electrical contact tabs for electrical connection.

The individual valve actuators must be wired using appropriate plug contacts.

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The associated wiring effort increases the assembly time of the valve unit. Incorrect wiring cannot be ruled out. The external electrical cables do not correspond to the trend towards a design that is as compact as possible.

It is therefore the object of the present invention to further improve a valve arrangement of the type described above in such a way that the assembly effort for the valve units constructed therefrom is reduced, a high level of compactness is achieved and a safe and reliable electrical connection is created.

The object is achieved on the basis of a disk-shaped valve arrangement according to the preamble of claim 1 in conjunction with its characterizing features. Advantageous further developments of the invention are specified in the subclaims.

The invention includes the technical teaching that in a generic disc-shaped valve arrangement for electrically connecting the valve drive, the recess in the base plate element has a multi-pole socket connected to a control unit on a second surface running essentially perpendicular to the first surface provided with the pressure medium connections. The socket works in a corresponding manner with a plug arranged opposite the valve element, from which an electrical connection to the valve drive is made.

This means that external free electrical cables extending from the valve element are completely avoided. The valve element can be connected both pneumatically and electrically with a single insertion movement, which reduces the assembly effort and enables valve elements to be replaced quickly and easily in the event of repairs without having to assemble or disassemble a pneumatic or electrical cable. The electrical connection point of the valve element is relocated in the invention from the valve drive, which is still accessible from the outside, to a point within the valve arrangement where reverse polarity is also excluded due to the forced contact caused by the plug and socket. In addition to the

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As a result of the relocation of the wiring, a valve unit constructed from the valve arrangements according to the invention is also made more compact, as is the associated safe and reliable electrical connection.

A measure improving the invention with regard to a fluid-mechanically favorable linear pressure medium guide provides that the valve element is equipped with pressure medium connections on two surfaces opposite one another in the flow direction, whereby a three-surface and U-shaped recess in the base plate element interacts with the valve element in such a way that the pressure medium connections arranged opposite one another on two surfaces of the recess can be connected in alignment with the pressure medium connections of the valve element. This embodiment provides an opposing arrangement of pressure medium connections S, P, R on the base plate side and pressure medium connections A, B on the working side. In contrast to the general technical teaching of the invention, which also includes a two-surface L-shaped recess, here there are exactly two opposing surfaces provided with pressure medium connections in a U-shaped recess, whereby the third surface arranged essentially perpendicular to it is provided for the electrical connection. The position of the third surface in the depth of the U-shaped recess ensures a particularly safe electrical contact.

The contact point is also optimally protected against external mechanical influences.

In both the L-shaped recess and the special U-shaped recess, the corresponding pressure medium connections arranged on the base plate element and on the valve element are brought into alignment by mutual surface displacement. The insertion movement of the valve element causes the plug to be plugged into the socket arranged opposite, since these electrical connecting means are arranged essentially perpendicular to the surface(s) with pressure medium connections.

Advantageously, the electrical connection consists of a cable exiting from the valve drive with a plug at the end, which is guided outside along the connection surface of the valve element, whereby the plug is connected to a

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Fastening means - for example a snap connection - are attached to the outside of the valve element. Alternatively, the electrical connection can also be constructed in the form of several electrical cables running inside the valve element, whereby in addition to the integrated plug there is also an electrical plug connection to the valve drive. In both cases it is conceivable that the electrical cable consists of flexible cables or of rigid metal stamped and bent parts or of conductor tracks produced using the metallization process.

The plug is preferably attached to an electrical channel element containing electrical lines, which is detachably connected to the base plate element. The base plate element has an opening in the area of the plug and the socket that enables their mechanical connection. The use of the electrical channel element allows a concealed collection of the individual electrical lines that lead to the control unit. The electrical channel element is advantageously dimensioned in such a way that several sockets for a corresponding number of valve elements can be electrically connected to the associated base plate elements via just one electrical channel element. Several electrical channel elements arranged next to one another can also be connected to one another via an electrical plug connection or metallized plastic plug elements or plastic strips, whereby an electrical bridge connection must be provided internally.

It is advantageous if the valve element to be inserted into the recess of the base plate element is wedge-shaped and the recess for receiving it is correspondingly wedge-shaped. This makes it easier to remove the valve element from the recess of the base plate element. For locking, the valve element can be detachably connected to the base plate element via a snap connection or a lock. In order to achieve a pressure-tight connection between the valve element and the base plate element, elastic sealing elements can be arranged in the area of the corresponding pressure medium connections of the valve element and the base plate element.

A valve unit constructed from the valve arrangements according to the invention can be wired in parallel in the conventional way or controlled by a bus

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In the latter case, at least one bus signal decoding chip is housed in the electrical channel element or the control unit to convert the bus signals into switching signals for the valve drive.

Further measures improving the invention are described in more detail below together with the description of a preferred embodiment using the figures. It shows:

Figure 1 is a perspective view of a partially assembled valve unit,

wherein a valve arrangement according to the invention is shown schematically

is,

Figure 2 shows a longitudinal section through a base plate element and

Valve arrangement with cable duct element consisting of a valve element.

A valve unit made up of several valve arrangements 1 has a control unit 2 according to Figure 1. The control unit 2 is equipped with a multi-pin plug 3, with which the valve unit can be connected to a central control system (not shown here). The control unit 2 has an optical display panel 4 to monitor the operating status. The control unit 2 processes the control signals received on the input side via the multi-pin plug 3 and passes them on the output side to the individual valve arrangements 1, which are arranged on slots formed by electrical channel elements 5a to 5d. An electrical channel element 5 is provided for two plug-in valve arrangements 1. In addition, single-position modular electrical channel elements 5 are also possible. The electrical connection running within the electrical channel element 5 goes to an electrical socket 6 provided for each slot.

Each valve arrangement 1 consists, according to Figure 2, essentially of a base plate element 7 and a valve element 8. The valve element 8 is inserted within a U-shaped recess 9 in the base plate element 7 and is held there by a lock 10. The valve element 7 has a valve drive 12 placed on a narrow control side 11, which is freely accessible from the outside. The valve drive 12 is designed in the manner of an electromagnetic pilot valve and is attached to the valve element 8 by a screw connection 13. The

Valve drive 12 causes a longitudinal adjustment of an internal valve slide (not shown). The valve slide switches pressure medium between the pressure medium connections R, P, S on the one hand and the pressure medium connections A, B on the other hand, which are arranged on opposite narrow sides of the valve element 8. The pressure medium connections R, P, S, A, B of the valve element 8 correspond to pressure medium connections R, P, S; A, B in the base plate element 7. These are arranged on the two opposite surfaces of the recess 9. The pressure medium connections A, B in the base plate element 7 open into pressure medium line connectors 14, 14' on a front surface 15. The pressure medium line connectors 14, 14' are designed in the form of push-in fittings and accommodate working lines (not shown) that lead to a pressure medium unit to be controlled with pressure medium - for example a pneumatic cylinder. The pressure medium connections R, P, S open into pressure medium channel sections that break through the disk-shaped base plate element 7. Thus, when several valve arrangements 1 are arranged in a row, several pressure medium channels R, P, S that are common to all valve arrangements are formed via their connecting surfaces to form a valve unit. The pressure medium channel sections are sealed against the atmosphere by sealing elements in the area of the connecting surfaces. Pressure medium channels 16, 17 represent the pneumatic connection to the valve drive 12, which is designed as a pilot valve.

An electrical cable 18 emerging from the valve drive 12 is used to electrically connect the valve arrangement 1. The electrical cable 18 is laid along the outside of the valve element 8 and is equipped with an electrical plug 19 at the end. The plug 19 is placed on the lower narrow side opposite the control narrow side 11 of the valve element 8 and is fastened there by a snap connection. The plug 19 interacts with the electrical socket 6 on the surface of the recess 9. The socket 6 is placed on the cable duct element 5. In order to enable contact between the two components, the base plate element 7 has an opening 20 in this area.

Starting from the socket 6, electrical lines 21 are collected in the cable duct element 5 and fed in an orderly manner to the control unit 2 (not shown in this figure). The cable duct element 5 consists of a housing part 22 which can be closed with a cover part 23. The housing part 22 is provided with through holes 24, 24' for fastening to a support part (not shown here). Furthermore

the housing part 22 has a retaining cam 25 which interacts with a locking mechanism 26 arranged in the base plate element 7 and operable using a screwdriver. The cable duct element 5 is attached to the base plate element 7 using a screw connection 27.

The valve arrangement 1 according to the invention enables an effective assembly of valve elements 8 in a valve unit via the insertion movement of the valve element 8 into the recess 9 of the base plate element 7 containing all pneumatic and electrical connections, whereby a safe and reliable both electrical and pneumatic connection is established and the valve unit as a whole is given a compact appearance.

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1 Valve arrangement 2 Control unit 3 Multi-pin plug 4 Display field 5 Electrical duct element 6 Rifle 7 Base plate element &dgr; Valve element 9 Recess 10 Locking 11 Control narrow side 12 Valve drive 13 Screw connection 14 Pressure medium line connector 15 Front surface 16 Pressure medium channel 17 Pressure medium channel 18 Line 19 Plug 20 breakthrough 21 Line 22 Housing part 23 Cover part 24 Through hole 25 Retaining cam 26 Locking 27 Screw connection

Claims (14)

&bull; · -9-Protection claims 1. Disc-shaped valve arrangement with opposing connecting surfaces, consisting of a base plate element (7) containing at least two pressure medium channels (S, P, R; A, B) and a valve element (8) which is equipped with corresponding pressure medium connections (S, P, R; A, B) on at least one surface, between which an internal valve slide is arranged so as to be switchable in a pressure medium-transmitting manner, which is actuated by a control narrow side which is freely accessible from the outside (11) is movable by an electrically controllable valve drive (12), wherein an at least two-surface recess (9) in the base plate element (7) cooperates with the valve element (8) in such a way that the pressure medium connections (S ₁ P, R; A, B) arranged on at least one surface of the recess (9) can be connected in alignment with the pressure medium connections (S ₁ P, R; A, B) of the valve element (8) by mutual surface displacement,
characterized, that for the electrical connection of the valve drive (12) the recess (9) has a multi-pole socket (6) on a second surface running essentially perpendicular to the surface provided with the pressure medium connections (S,P,R;A,B) which is in electrical connection with a control unit (2) and which cooperates in a corresponding manner with a plug (19) arranged opposite the valve element (8), from which an electrical connection to the valve drive (12) is made. I · · ·· ·· · » · · ·
I · · · · · -10- 2. Disc-shaped valve arrangement according to claim 1, characterized in that for the linear pressure medium guidance the valve element (8) is equipped with pressure medium connections (S, P ₁ R; A ₁ B) on two surfaces opposite one another in the flow direction, wherein a three-surface and U-shaped recess (9) in the base plate element (7) cooperates with the valve element (8) in such a corresponding manner that the pressure medium connections (S, P, R; A, B) arranged on two opposite surfaces of the recess (9) can be connected in alignment with the pressure medium connections (S, P ₁ R; A, B) of the valve element (8). 3. Disc-shaped valve arrangement according to claim 1, characterized in that the electrical connection consists of an electrical line (18) emerging from the valve drive (12) with a plug (19) at the end, which is guided outside along the valve element (8) and the plug (19) is fastened to the valve element (8) with fastening means. 4. Disc-shaped valve arrangement according to claim 1, characterized in that the electrical connection is constructed in the form of an electrical line (18) running within the valve element (8), wherein in addition to the integrated plug (19) there is also an electrical plug connection to the valve drive (12). 5. Disc-shaped valve arrangement according to claim 2 or 3, characterized in that the electrical line (18) consists of flexible cables or of rigid metallic stamped and bent parts or of conductor tracks produced in a metallization process. -11 - 6. Disc-shaped valve arrangement according to claim 1, characterized in that the socket (6) is attached to an electrical channel element (5) containing electrical lines (18) which is detachably connected to the base plate element (7) which has an opening (20) in the region of the plug (19) and the socket (6) which enables their mechanical connection. 7. Disc-shaped valve arrangement according to claim 1, characterized in that the valve element (8) to be inserted into the recess (9) of the base plate element (7) is wedge-shaped and the recess (9) for receiving the same is correspondingly wedge-shaped. 8. Disc-shaped valve arrangement according to one of the preceding claims, characterized in that the valve element (8) is detachably connected to the base plate element (7) via a snap connection or a lock (26). 9. Disc-shaped valve arrangement according to one of the preceding claims, characterized in that elastic sealing elements are arranged in the region of the corresponding pressure medium connections (S, P, R; A, B) of the valve element (8) and of the base plate element (7). 10. Disc-shaped valve arrangement according to one of the preceding claims, characterized in that the valve drive (12) is designed in the manner of an electromagnetic pilot valve. &bull; &bull; I · · · 4 I · · · · · 11. Disc-shaped valve arrangement according to one of the preceding claims, characterized in that the base plate element (7) has at least one pressure medium line connector (14, 14') emerging from an end face (15) and the pressure medium connections (S, P, R) open into continuous pressure medium channel sections (S, P, R) arranged perpendicular to the connecting surfaces of the base plate element (7). 12. Disc-shaped valve arrangement according to one of the preceding claims, characterized in that that the electrical channel element (5) is dimensioned in its width such that several sockets (6) for a corresponding number of valve elements (8) can be electrically connected to associated base plate elements (7) via an electrical channel element (5). 13. Disc-shaped valve arrangement according to one of the preceding claims, characterized in that that electrical duct elements (5) arranged next to one another can be connected to one another via an electrical plug connection. 14. Disc-shaped valve arrangement according to one of the preceding claims, : characterized in that that the electrical lines (21) are designed to transmit bus signals, wherein at least one bus signal decoding chip is accommodated in the electrical channel element (5) or the control unit (2) to convert the bus signals into switching signals for the valve drive (12).