DE202018107073U1 - Pilot operated valve for the distribution of a liquid medium - Google Patents

Abstract

Valve (2) for a cleaning system, comprising a valve housing (8) with a pump connection (14) and a consumer connection (16, 16 '), further comprising a main valve (4) and a control valve (6) and an electronics chamber (68), which are accommodated in the valve housing (8), the main valve (4) having a main valve inlet (40) which is fluidly connected to the pump connection (14) and a main valve outlet (50) which is fluidly connected to the consumer connection (16, 16 ') The main valve (4) with a main valve body (44) also has a membrane (46) which can be moved between an open position and a closed position, the main valve inlet (40) with a main valve inlet chamber (42) in an open position. with the main valve outlet (50) with a main valve outlet chamber (52) through the main valve body (44) and in a closed position no fluid connection through the main valve body (44) z between the main valve inlet (40) and the main valve outlet (50), the control valve (6) having a control valve inlet (20) with a control valve inlet chamber (32) and a control valve outlet (30) with a control valve outlet chamber (32), the control valve inlet (30) having the pump connection (14) is fluidly connected and the control valve outlet (30) is fluidly connected to a valve housing outlet (18), the control valve (6) further comprising a control valve body (24), an actuator (88) with a motion transmission element (28), a movable valve element (38) and a sealing element (26) connected to the movable valve element (38), wherein the movement transmission element (28) extends through a through hole (72) from the electronics chamber (68) to the control valve body, with the actuator (88) Control valve (6) can be brought into a closed position in which there is no fluid connection between the control valve inlet (20) and the control valve outlet (30) through the control valve body (24), and can be brought into an open position in which there is a fluid connection between the control valve inlet (20) and the control valve outlet (30) through the control valve body (24), whereby by opening the control valve (6) the main valve (4) is opened and the main valve (4) is closed by closing the control valve (6).

Description

The invention relates to a pilot operated valve for distributing a liquid medium, a valve arrangement and a cleaning device.

The DE 10 2016 120 641 A1 relates to controlling the distribution of wash water. The control system has a large number of wash water outlets, each of which can be opened or closed with a valve. The opening or closing of the valves is controlled via a camshaft, a cam of the camshaft being assigned to each of the valves. In the known control, only predetermined combinations of wash water outlets can thus be opened at the same time. In order to achieve this state, the camshaft must be rotated into the corresponding position, which leads to overrunning other opening states in which wash water is dispensed at undesired wash water outlets. This leads to increased wash water consumption. Such increased washing water consumption makes it necessary either to provide larger washing water tanks in vehicles or to fill them up more frequently.

The DE 10 2016 120 642 A1 discloses a device for distributing wash water with a valve plate. The known device has a connection plate with a plurality of connections. On the back of the connection plate there is a rotatable closure plate with which one or more connections can be opened by selecting a position of the closure plate. Here, too, several undesired connections may be opened briefly in order to turn the closure plate into the desired position, which leads to increased washing water consumption.

The DE 11 2009 004 389 T5 concerns a valve. The valve includes an electromagnetically operated pilot valve and a main valve with a membrane. The valve includes a valve body having an inlet, an outlet, and a main valve functional chamber defined therebetween, the valve body further defining a bypass channel in fluid communication with the outlet; a main valve function chamber body operatively coupled to the valve body to enclose the main valve function chamber, the main valve function chamber body forming a pilot valve opening therein to provide fluid communication between the main valve function chamber and the bypass passage; a main valve function element positioned and operable in the main valve function chamber to control a main flow of water from the inlet to the outlet, the main valve function element having at least one overflow bore positioned therethrough; a pilot valve function element positioned to control a bypass flow of water from the main valve function chamber through the pilot valve opening to the outlet to control a position of the main valve function element; and a means for controlling the pilot valve functional element, the means using a lever arm to provide counter force multiplication to position the pilot valve functional element. Furthermore, in the DE 11 2009 004 389 T5 discloses a pilot valve construction in which a plunger of a pilot valve is operated with a relatively small electromagnet and the diaphragm of a main valve is opened or closed by means of differential pressure.

The object of the invention is to provide a valve, a valve arrangement and a cleaning device which has a reduced washing water consumption.

The object is achieved with regard to the valve by the features of claim 1, with regard to the valve arrangement by the features of claim 10 and with regard to the cleaning device by the features of claim 13. Appropriate configurations result from the respective subclaims.

The valve according to the invention for a cleaning system comprises a valve housing with a pump connection and a consumer connection, further comprising a main valve and a control valve and an electronics chamber, which are accommodated in the valve housing. Pump connection and consumer connection can be arranged on two different sides of the valve housing. The electronics chamber is a chamber which is sealed in such a way that no fluid, in particular no liquid, can penetrate there from the valve housing.

The main valve has a main valve inlet that is fluidly connected to the pump connection and a main valve outlet that is fluidly connected to the consumer connection.

The main valve with a main valve body also has a membrane which can be moved between an open position and a closed position, wherein in an open position the main valve inlet with a main valve inlet chamber is fluidly connected to the main valve outlet with a main valve outlet chamber through the main valve body and in a closed position there is no fluid connection through the There is a main valve body between the main valve inlet and the main valve outlet. The main valve body can in particular be cylindrical. The shape of the membrane is expedient to that Adjusted cross-sectional shape of the main valve body; in particular, it can be circular. The membrane can have a rigid central area, which in particular closes an upper opening, the valve opening of the main valve body, and a flexible area extending around it, which serves to move the membrane in the open position and closed position. The membrane is expediently sealingly connected to the valve housing in an outer region.

The control valve has a control valve input with a control valve input chamber and a control valve output with a control valve output chamber, the control valve input being fluidly connected to the pump connection and the control valve output being fluidly connected to a valve housing outlet. The valve housing outlet is designed together with the consumer connection. The main valve outlet chamber and control valve outlet chamber are fluid-connected. In particular, the control valve outlet chamber is part of the main valve outlet chamber. The control valve further comprises a control valve body, an actuator with a motion transmission element, a movable valve element, and a sealing element connected to the movable valve element, the actuator extending through a through hole from the electronics chamber to the control valve body. The through hole is located in a wall that separates the electronics chamber from the control valve input chamber or control valve output chamber. In a preferred embodiment, the through hole is provided with a seal. With the actuator, the control valve can be brought into a closed position in which there is no fluid connection between the control valve input and the control valve output through the control valve body, and can be brought into an open position in which there is a fluid connection between the control valve input and the control valve output through the control valve body. In one embodiment, the actuator comprises a movement transmission element designed as a lever element, which is simultaneously the movable valve element, one end of which is connected directly or indirectly and the other end of which the sealing element for opening and closing the control valve is arranged. Actuation of the actuator is particularly possible electrically. In particular, the actuator further comprises a control board and a carrier.

Opening the control valve opens the main valve and closing the control valve closes the main valve. Thus, when the control valve is open, the main valve is either open or opens, and when the control valve is closed, the main valve is closed or closes. The advantage of the valve according to the invention is that the valve can be selectively opened or closed by actuating the actuator. The water consumption is low. It can be provided that partially open positions are possible or not possible. The fluid is in particular a liquid, preferably an aqueous liquid, preferably a cleaning liquid.

In an embodiment, a first fluid pressure from a side facing the main valve body and a second fluid pressure from a side facing away from the main valve body lie against the membrane, the first fluid pressure in the main valve input chamber advantageously being applied to the membrane and the second fluid pressure in the control valve input chamber being applied to the membrane , The first fluid pressure corresponds to the pressure built up by a backing pump. When the control valve is closed, the fluid connection between the control valve input chamber and the main valve input chamber builds up an equally large second fluid pressure. The membrane thus remains in a closed position. When the control valve is open, the second fluid pressure is reduced by drainage through the control valve body to such an extent that the membrane moves to the open state of the main valve. Thus, in particular when the control valve is closed, the first fluid pressure and the second fluid pressure are the same and when the control valve is open the first fluid pressure is greater than the second fluid pressure.

In a further embodiment, the electronics chamber is arranged next to or in a main valve housing. The main valve housing includes the main valve input chamber, the main valve output chamber, the control valve input chamber and the control valve output chamber.

The membrane is expediently connected to a reset element, the reset element in particular comprising a spring arranged between a valve housing wall and the membrane on a side facing away from the main valve body. In particular, the spring can be a spiral spring which is arranged between the membrane and the valve housing cover. The membrane can be made rigid in a central area, in particular a circular central area, an elastic area extending around the rigid area, which is in particular annular. The advantage of the reset element is that the membrane can be brought into the closed position in a more targeted manner.

Furthermore, the actuator expediently comprises one or more wires, in particular SMA wires, by means of which the movable valve element is moved between the open and the closed position. SMA is a so-called shape memory alloy, ie one Shape memory alloy. The SMA wire or wires expediently shortens when a current is applied and extends back to its original state as soon as the power supply is interrupted. The wire can in particular be arranged in a U-shape. In an alternative embodiment, the wire or wires are directly connected to the motion transmission element, in particular an arm of an L-shaped motion transmission element. In this embodiment, the wire or wires are expediently connected to the free end of the shorter arm of the movement transmission element, while the longer arm extends through the through hole to the control valve body. The movement transmission element can thus be tilted by shortening the wire or wires, the through hole, preferably a seal accommodated in the through hole, advantageously serving as the bearing. A control board is expediently provided in the electronics chamber for controlling a heating current of the SMA wire. The SMA wire can be connected to the control board or a carrier carrying the control board via crimp connectors, in particular it can be fastened thereon.

In a second alternative embodiment, the wire or wires are connected to an actuating element which actuates the movement transmission element in particular by means of a pivoting movement. In this embodiment, the movement transmission element can be a rod-shaped element which is mounted in its central region, in particular in the through hole, preferably on a seal received in the through hole. The sealing element is provided on one side of the movement transmission element, which is simultaneously configured as a movable valve element, and the other side of the movement transmission element is in operative contact with the actuating element, the actuating element being, in particular, pivotably mounted. By shortening the wire or wires, the actuating element is moved, in particular pivoted, which then moves the movement transmission element. The movement transmission element is used either directly or indirectly to move a sealing element, which in the first case is arranged, for example, directly on or on the movement transmission element as a movable valve element, or which is arranged in the second case, for example, on a separate movable valve element which is connected to the actuator, in particular can be moved with the movement transmission element between an open position and a closed position.

In a further embodiment, a further restoring element is arranged between the movable valve element and the valve housing, which, in particular, forces the movable valve element to be returned to the closed position, the further restoring element being in particular a spring. The restoring element can in particular be a spiral spring arranged between the valve housing cover and the movable valve element. Such a spiral spring can be arranged, for example, around a movable valve element. Alternatively, a version with a leaf spring is also possible.

A first stroke of the movable valve element of the control valve can be variably set between the closed position and a maximum opening position and, depending on the first stroke, a second stroke of the membrane can be variably set between the closed position and a maximum opening position, so that a flow through the main valve can be controlled , Alternatively or additionally, the flow can be limited by selecting the diameter of the consumer connection (s).

Optionally, the valve housing comprises a valve housing cover and a valve housing base, a partition wall is expediently arranged between the valve housing base and the valve housing cover, which separates the control valve input chamber and optionally control valve output chamber from the main valve input chamber and the main valve output chamber, wherein a bore is provided in the partition wall between the control valve input chamber and the control valve input chamber is to establish a fluid connection between the control valve input chamber and the main valve input chamber, wherein the control valve input chamber and optionally the control valve output chamber are expediently arranged between the partition wall and the valve housing cover and the main valve input chamber and the main valve output chamber are arranged between the partition wall and the valve housing base. Alternatively, the control valve exit chamber can also be below the partition, i.e. be arranged between the partition and the valve housing base. The bore expediently has a throttle function. In particular, the bore has a smaller cross section than a valve opening of the control valve, so that the second fluid pressure causes the main valve to open when the control valve is open and to close the main valve when the control valve is closed.

Alternatively or additionally, the membrane is part of the partition. The bore can be arranged both in the partition itself and in the membrane.

The valve arrangement according to the invention for a cleaning system comprises one or more Valves according to the invention, the valves being arranged next to one another in such a way that the valve housing covers form a common housing cover and the valve housing bases form a common housing base, at least some of the pump connections, in particular all pump connections, being connected to a main pump connection. Such a housing has, for example, a size of 50-300 mm in length and width and 10-50 mm in height, ie in a housing bottom-to-housing cover direction.

In an embodiment, the valves are arranged offset from one another in two rows. For this purpose, the valves are expediently designed in two lengths, alternately a longer and a shorter valve being arranged next to one another. Such a valve arrangement can comprise, for example, four shorter and five longer or three shorter and four longer valves. Valves with consumer connections with different diameters can be provided in the valve arrangement. In particular, the longer valves can have a consumer connection with a first diameter and the shorter valves can have consumer connections with a second diameter.

In a further embodiment, the housing has a common electrical connection for at least some, in particular all, valves. Such a common electrical connection can be configured as a bus, so that each of the control valves can be controlled individually.

The cleaning system according to the invention comprises at least one valve according to the invention, in particular a valve arrangement according to the invention. Such a cleaning system is particularly suitable for cleaning windows and / or sensors and / or headlights on a motor vehicle and is connected to a container for cleaning fluid.

• 1 Querschnitt eines Ventils in einer ersten Ausgestaltung,
• 2 Ansicht einer Ventilanordnung einer ersten Ausgestaltung bei geschlossenem Gehäuse,
• 3 Ansicht der in 2 gezeigten Ventilanordnung mit geöffnetem Gehäuse,
• 4 Querschnitt eines Ventils in einer zweiten Ausgestaltung,
• 5 Ansicht einer Ventilanordnung einer zweiten Ausgestaltung bei geschlossenem Gehäuse und
• 6 Ausschnitt eines Querschnitts eines Ventils in einer dritten Ausgestaltung.

The invention is also explained in more detail below with regard to further features and advantages based on the description of exemplary embodiments and with reference to the accompanying drawings. Each shows in a schematic sketch:

• 1 Cross section of a valve in a first embodiment,
• 2 View of a valve arrangement of a first embodiment with the housing closed,
• 3 View of the in 2 valve arrangement shown with the housing open,
• 4 Cross section of a valve in a second embodiment,
• 5 View of a valve arrangement of a second embodiment with the housing and closed
• 6 Section of a cross section of a valve in a third embodiment.

1 shows an embodiment of a valve 2 , The valve 2 is in a valve housing 8th with a valve housing cover 10 and a valve body bottom 12 added. The valve housing 8th has a pump connection 14 , as well as a consumer connection 16 on. The consumer connection 16 extends from a side wall of the valve housing 8th to the outside and is designed in particular for attaching a hose. The consumer connection 16 also serves as a valve housing outlet 18 ,

In the valve housing 8th is a control valve 6 and a main valve 4 arranged, both of which are fluidly connected to the pump connection. The main valve 4 has a main valve body 44 , a main valve input chamber 42 and a main valve exit chamber 52 on. The main valve 4 is a diaphragm valve with a diaphragm 46 designed. With the main valve open 4 can the fluid, especially a cleaning fluid from the main valve input chamber 42 on the membrane 46 over into the main valve body 44 flow into. With the main valve closed 4 seals the membrane 46 against the main valve body 44 , The main valve body 44 can be cylindrical. The main valve input chamber 42 is cylindrical around the main valve body in the embodiment shown 44 arranged. In particular, main valve outlet chamber 52 and main valve body 44 be designed as a concentric cylinder.

The main valve outlet chamber 52 is with the consumer connection 16 fluidly connected. In the embodiment shown, the main valve 4 in one to the valve housing bottom 12 aligned area of the valve housing 8th arranged.

The control valve 6 is in the embodiment shown partially in a to the valve housing cover 10 aligned area of the valve housing 8th arranged. The aforementioned areas are here by a partition 60 separated from each other, the control valve outlet chamber 32 Part of the main valve outlet chamber 52 is.

The control valve 6 has a control valve input chamber 22 on, which in the embodiment shown through a bore 62 with the pump connection 14 is fluidly connected. The control valve 6 also has a control valve body 24 and a control valve exit chamber 32 on. The control valve exit chamber 32 is with the valve housing outlet 18 fluidly connected. To the Opening and closing the control valve 6 is a movable valve element 38 with a sealing element 26 intended. In this embodiment, the movable valve element 38 at the same time motion transmission element 28 of the actuator 88 , The sealing element 26 can in particular be an elastic element, for example made of rubber. The motion transmission element 28 extends from an electronics chamber 68 to the control valve body 24 through a through hole 72 , In the electronics chamber 68 is still a control board 76 intended. The control board 76 is here on a support 80 stored.

The actuator 88 includes in addition to the motion transmission element 28 an SMA wire 36 and a control board 76 , The motion transmission element 28 can in particular by means of the SMA wire 36 are operated, which is with the control board 76 connected is. In the embodiment shown, the movement transmission element 28 L-shaped and in the through hole 72 stored. To prevent the fluid, especially the liquid, from entering the electronics chamber 68 to prevent is the puncture 72 with a seal 86 Mistake. Furthermore, the movement transmission element 28 between the sealing element 26 and that in the through hole 72 stored section may be provided with a molded flange. To open the control valve 6 becomes the SMA wire in this embodiment 36 , which is particularly U-shaped, shortened. The SMA wire 36 thus pulls on a free end of a particularly shorter arm of the L-shaped movement transmission element 28 , The motion transmission element 28 , which is also a movable valve element 38 is thus a pivoting movement and the sealing element 26 is from the control valve body 24 lifted. The control valve 6 will be opened. As soon as the SMA wire 36 The movable valve element is extended again 38 swung back and the control valve 6 closes.

With the control valve open 6 is also the main valve 4 at least partially opens or opens when the control valve is closed 6 is also the main valve 4 closed or closes. The membrane 46 of the main valve 4 is arranged so that from one side, here the underside, which to the valve housing bottom 12 is aligned that fluid from the main valve input chamber 42 is applied. On the opposite side of the membrane 46 limits the membrane 46 either the control valve input chamber 22 or, as shown here, another one with the control valve input chamber 22 fluidically connected chamber 64 , This means that the pressure from the pump connection is at the top of the membrane 46 on. The membrane 46 has on the top a larger area that the fluid presses on than on the bottom, so that when the control valve is closed 6 the membrane 46 is closed by the fluid pressure on the top against the fluid pressure on the bottom. With the control valve open 6 the fluid flows through the control valve 6 off so the fluid pressure from the top of the membrane 46 not enough to the membrane 46 to keep in the closed position. The membrane 46 in this case it will be transferred to the open position.

Advantageously, is still on the top of the membrane 46 a reset element 54 provided, which is shown here in the form of a spring, which is between the membrane 46 and the valve housing cover 10 is arranged. The valve housing cover 10 can at this point one from the valve body 8th to an outside protruding area 66 exhibit.

2 shows an external view of a valve assembly 100 , The valve assembly 100 has a housing 102 on which is a housing cover 110 and a case back 112 having. On the housing cover 110 is a variety of bulges 108 arranged, each of a projecting area 66 of a single valve 2 correspond.

The housing 102 has a main pump connection 106 as well as a number of consumer connections corresponding to the number of existing valves 16 that also act as valve body outputs 18 serve on.

3 shows an interior view of the valve assembly from 2 , It can be seen here that each of the nine valves in this embodiment 2 a consumer connection 16 16 ' assigned. The consumer connections 16 have a larger diameter than the consumer connections 16 ' on. The diameter of the consumer connections 16 . 16 ' is matched to the amount of fluid required by the consumer. A different distribution of the diameters can also be provided, or consumer connections with further diameters can also be provided. Every valve 2 includes a main valve 4 and a control valve 6 , with the main valve 4 each on the consumer connection 16 opposite side of the control valve 6 is arranged. In one direction from the consumer connection 16 to the main valve 4 extends the motion transmission element 28 and the movable valve element 38 , The valves 2 are arranged in a row next to each other, always a valve 2 a shorter extension length and a valve 2 has a longer extension length. A higher packing density of the valves can thus be achieved.

4 shows a second embodiment of the valve according to the invention 2 , In the second embodiment of the valve according to the invention 2 is a electronics compartment 68 next to the valve main body 70 arranged.

On a side wall of the main valve body 70 is a consumer connection 16 arranged. The pump connection 14 cannot be seen in the sectional view. The main valve 4 is mainly on the side of the valve body bottom 12 arranged and the control valve 6 is on the side of the valve housing cover 10 arranged. Between the main valve chambers 4 and the control valve input chamber 22 is a partition 60 arranged in a hole 62 is provided through which the main valve input chamber 42 and the control valve input chamber 22 are fluid-connected. The hole 62 thus provides the control valve input 20 The control valve input chamber 22 stands with the other chamber 64 in fluid communication.

The main valve 4 comprises a membrane 46 which is rigid in particular in a central region and comprises an annular flexible region. On the side of the valve housing cover 10 borders the membrane 46 to the other chamber 64 , on the side of the valve housing base 12 borders the membrane 46 to the main valve body 44 and the main valve input chamber 42 , being in an open position of the main valve 4 the membrane 46 from the main valve body 44 , which is cylindrical, is lifted off, so that a fluid connection between the main valve input chamber 42 which form a ring around the main valve body 44 extending region includes, and the main valve body 44 and an associated main valve outlet chamber 52 consists. The membrane is in a closed position 46 on the side walls of the main valve body 44 sealing so that there is no fluid connection.

In the other chamber 64 is a reset element 54 arranged, which is between the valve housing cover 10 , especially a projecting area 66 , and the membrane 46 extends.

The control valve 6 includes a control valve body 24 , a control valve input chamber 22 and a control valve exit chamber 32 , The control valve exit chamber 32 has a control valve outlet 30 through which the control valve outlet chamber 32 with the main valve outlet chamber 52 is fluid-connected. The control valve body 24 can with a on a movable valve element 38 arranged sealing element 26 can be opened and closed, so that in an open position of the control valve 6 the control valve input chamber 22 via the control valve body 24 with the control valve outlet chamber 32 is fluid-connected and in a closed position there is no fluid connection between the control valve input chamber 22 and control valve outlet chamber 32 consists. The sealing element 26 is particularly at one end of the movable valve element 38 arranged. To the movable valve element 38 is another reset element 34 arranged, which has a stop on the valve housing cover 10 having. The movable valve element 38 is with a motion transmission element 28 , which is in particular rod-shaped, operatively connected. In particular, the movable valve element 38 a implementation perpendicular to the direction of movement of the movable valve element 38 in which the motion transmission element 28 is introduced with a first page. The motion transmission element 28 is central in a hole 72 which is in a wall 78 between the electronics chamber 68 and the valve main body 70 is provided, stored. The hole 72 expediently has a seal 86 on which, in particular, as a bearing for the movement transmission element 28 serves. By pivoting the motion transmission element 28 becomes the movable valve element 38 moved between the open position and the closed position.

The actuator 88 comprises an SMA wire in this embodiment 36 , a control board 76 , a carrier 80 , an actuator 74 and the motion transmission element 28 , For actuating the movement transmission element 28 is the actuating element in this embodiment 74 provided which is in the electronics chamber 68 is arranged. Furthermore is in the electronics chamber 68 the control board 76 added. With the control board 76 is the SMA wire, for example, via crimp connectors 36 , especially two SMA wires 36 or a U-shaped SMA wire 36 , connected. The SMA wire 36 is still with the actuator 74 so connected that the actuator 74 if the SMA wire is shortened 36 is pivoted about an axis. The SMA wire 36 shortens in particular if it is heated by a heating current. A pivotal movement of the actuator 74 also pivots the motion transmission element 28 with its second side in, on or on the actuating element 74 stored and / or operatively connected. The actuator 74 is in this embodiment in a recess of the carrier 80 stored so that the actuator 74 via a knife hinge 84 can be tilted as a pivot axis. On the knife hinge 84 opposite side has the actuating element 74 a recess 82 in which the motion transmission element 28 intervenes. A pivoting of the actuator 74 causes the movement transmission element to pivot 28 , In particular, the actuating element 74 a recess 82 in which the actuator 28 intervenes. The actuator 74 is particularly about the Swivel axis with the control board 76 or, as shown here, with a carrier 80 on which the control board 76 is arranged, connected.

5 shows a view of a valve assembly 100 a second embodiment with the housing closed. In the valve arrangement 100 are in the embodiment shown, in particular five valves in 4 shown embodiment added. The valves can share a common electronics chamber 68 have which on one side of the housing 102 is arranged. On the opposite side of the case 102 are consumer connections 16 . 16 ' , which are also used as valve housing outputs 18 serve, arranged. The consumer connections 16 and 16 ' have different diameters here. The diameters can be adapted to the cleaning fluid requirement.

In the housing cover 110 that the case back 112 is opposite for each valve 2 a bulge 108 arranged, which with the respective membrane 46 of the main valve 4 is aligned. On another side of the case 102 is a common main pump connection 106 for everyone in the housing 102 recorded valves 2 arranged.

6 shows a section of a cross section of a valve 2 in a third embodiment. The third embodiment differs from the second embodiment in the arrangement and configuration of the actuator 88 ,
In the electronics chamber 68 is a control board 76 added. With the control board 76 is an SMA wire, for example, via a crimp connector 36 or two SMA wires 36 connected, which in turn with the actuator 74 are connected. The actuator 74 is pivotable with the carrier 80 the control board 76 connected. By shortening the SMA wire 36 becomes the actuator 74 pivoted about a pivot axis. The actuator 74 has a recess 82 in which a rod-shaped motion transmission element 28 intervenes. A pivoting of the actuating element 74 causes the movement transmission element to pivot 28 and thus leads to an opening or closing of the control valve 6 through the movable valve element 38 ,

LIST OF REFERENCE NUMBERS

2

Valve

4

main valve

6

control valve

8th

valve housing

10

Valve cover

12

Valve housing bottom

14

pump connection

16.16 '

consumer connection

18

Valve housing homes

20

Control valve input

22

Control valve inlet chamber

24

Control valve body

26

sealing element

28

Motion transmitting member

30

Control valve output

32

Control valve output chamber

34

another reset element

36

SMA wire

38

movable valve element

40

Main valve inlet

42

Main valve inlet chamber

44

Main valve body

46

membrane

50

Main valve output

52

Main valve outlet chamber

54

Return element

60

partition wall

62

drilling

64

another chamber

66

projecting area

68

electronics compartment

70

Valve main body

72

through hole

74

actuator

76

control board

78

wall

80

carrier

82

recess

84

knife hinge

86

poetry

88

actuator

100

valve assembly

102

casing

104

Electrical connection

106

Main pump port

108

bulge

110

housing cover

112

caseback

QUOTES INCLUDE IN THE DESCRIPTION

This list of documents listed by the applicant has been generated automatically and is only included for the better information of the reader. The list is not part of the German patent or utility model application. The DPMA assumes no liability for any errors or omissions.

Patent literature cited

• DE 102016120641 A1 [0002]
• DE 102016120642 A1 [0003]
• DE 112009004389 T5 [0004]

Claims (13)

Valve (2) for a cleaning system, comprising a valve housing (8) with a pump connection (14) and a consumer connection (16, 16 '), further comprising a main valve (4) and a control valve (6) and an electronics chamber (68), which are accommodated in the valve housing (8), the main valve (4) having a main valve inlet (40) which is fluidly connected to the pump connection (14) and a main valve outlet (50) which is fluidly connected to the consumer connection (16, 16 '), wherein the main valve (4) with a main valve body (44) further comprises a membrane (46) which can be moved between an open position and a closed position, in an open position the main valve inlet (40) with a main valve inlet chamber (42) with the main valve outlet ( 50) is fluidly connected to a main valve outlet chamber (52) through the main valve body (44) and in a closed position there is no fluid connection through the main valve body (44) between the main valve inlet (40) and the main valve outlet (50), wherein the control valve (6) has a control valve inlet (20) with a control valve inlet chamber (32) and a control valve outlet (30) with a control valve outlet chamber (32), the control valve inlet (30) being fluidly connected to the pump connection (14) and the control valve outlet (30 ) is fluidly connected to a valve housing outlet (18), the control valve (6) further comprising a control valve body (24), an actuator (88) with a movement transmission element (28), a movable valve element (38) and one with the movable valve element (38) connected sealing element (26), the movement transmission element (28) extending through a through hole (72) from the electronics chamber (68) to the control valve body, the actuator (88) being able to bring the control valve (6) into a closed position, in which there is no fluid connection between the control valve inlet (20) and the control valve outlet (30) through the control valve body (24), and into an opening can be brought into a position in which there is a fluid connection between the control valve inlet (20) and the control valve outlet (30) through the control valve body (24), wherein the main valve (4) is opened by opening the control valve (6) and the main valve (4) is closed by closing the control valve (6). Valve (2) after Claim 1 , against the diaphragm (46) a first fluid pressure from a side facing the main valve body (44) and a second fluid pressure from a side facing away from the main valve body (44), the first fluid pressure in the main valve input chamber (42) expediently on the diaphragm ( 46) and the second fluid pressure in the control valve input chamber (22), in particular in a further chamber (64) connected to the control valve input chamber (22), is applied to the membrane (46), the first fluid pressure and in particular when the control valve (6) is closed the second fluid pressure is the same and when the control valve (6) is open the first fluid pressure is greater than the second fluid pressure. Valve (2) after Claim 1 or 2 , wherein the electronics chamber (68) is arranged next to or in a main valve housing (70), which comprises the main valve input chamber (42), the main valve output chamber (52), the control valve input chamber (22) and the control valve output chamber (32). Valve (2) according to one of the preceding claims, wherein the membrane (46) is connected to a reset element (54), the reset element (54) in particular one between a valve housing wall and the membrane (46) on a side facing away from the main valve body (44) Side arranged spring includes. Valve (2) according to one of the preceding claims, wherein the actuator (88) comprises one or more wires, in particular SMA wires (36), by means of which the movable valve element (38) is moved between the open and the closed position, in particular the wire or wires are connected to the motion transmission element (28), in particular to an arm of an L-shaped motion transmission element, or the wire or wires are connected to an actuating element (74) which actuates the motion transmission element (28) in particular by a pivoting movement , Valve (2) according to one of the preceding claims, wherein the through hole (72), in particular a seal (86) accommodated in the through hole (72), serves as a bearing for the movement transmission element (28). Valve (2) according to one of the preceding claims, wherein between the movable valve element (38) and the valve housing (8) a further reset element (34) is arranged, which in particular forces a return of the movable valve element (38) to the closed position, the further restoring element (34) is in particular a spring. Valve (2) according to one of the preceding claims, wherein a first stroke of the movable valve element (38) of the control valve (6) can be variably set between the closed position and a maximum opening position and, depending on the first stroke, a second stroke of the membrane (46) can be variably set between the closed position and a maximum opening position, so that a flow through the main valve (4) can be controlled. Valve (2) according to one of the preceding claims, wherein the valve housing (8) comprises a valve housing cover (10) and a valve housing base (12), between the valve housing base (12) and the valve housing cover (10) a partition (60) is arranged, which separates the control valve input chamber (22), and optionally the control valve output chamber (32), from the main valve input chamber (42) and the main valve output chamber (52), with a bore (62) in the partition (60) between the control valve input chamber (22) and the main valve input chamber (52 ) is provided in order to establish a fluid connection between the control valve input chamber (22) and the main valve input chamber (42), with the control valve input chamber (22), and optionally the control valve output chamber (32), between the partition wall (60) and the valve housing cover (10) and the main valve input chamber (42) and the Main valve outlet chamber (52) between partition (60) and valve housing base (12) s ind, and / or wherein the membrane (46) is part of the partition (60), the bore (62) optionally being arranged in the membrane. Valve arrangement (100) for a cleaning system, comprising one or more valves (2) according to one of the Claims 1 to 9 The valves (2) are arranged next to one another such that the valve housing cover (10) forms a common housing cover and the valve housing base (12) forms a common housing base, with at least some of the pump connections (14), in particular all pump connections (14), also a main pump connection (106) are connected. The valve arrangement (100) according to claim 10, wherein the valves (2) are arranged offset in two rows from one another. Valve arrangement (100) after Claim 11 , wherein the housing (102) has a common electrical connection (104) for at least one part, in particular all valves (2). Cleaning system comprising at least one valve (2) according to one of the Claims 1 to 9 , in particular a valve arrangement (100) according to one of the Claims 10 to 12 ,

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