DE102005020857B4 - Flow divider valve insert, flow divider valve and valve module - Google Patents

Abstract

Electricity distribution valve core, the one main opening with a main flow area and a lateral surface comprising at least a first branch opening with a first branch flow area and a second branch opening having a second branch flow area, wherein the branch flow areas with the Main flow area over one flow path communicate, wherein the flow divider valve insert an end plate has, which closes the flow divider valve insert on an end face, characterized characterized in that End plate (14) is rectangular and has markings that in at least one peripheral portion of the end plate (14) has an opening ratio of Branch openings (8, 9) to the peripheral area.

Description

The The invention relates to a flow divider valve insert having a main opening with a main flow area and a lateral surface comprising at least a first branch opening with a first branch flow area and a second branch opening having a second branch flow area, wherein the branch flow areas with the Main flow area over one Flow path in Connection, wherein the flow divider valve insert an end plate has, which closes the flow divider valve insert on an end face. Further The invention relates to a flow divider valve with a flow divider valve insert and a valve tube, wherein the flow divider valve insert is movable is arranged in the valve tube, wherein the valve tube at least one first valve opening with a first valve flow area and a second valve opening having a second valve flow area and the flow divider valve insert in the circumferential direction of the valve tube is movable. The invention relates also a valve module for a modular flow divider valve incorporating a valve module insert in a valve block housing having, wherein the valve module insert at least one branch opening with having a branch flow area, the at least one branch flow area having a main module flow area of the Valve module module communicates and the valve block housing at least a valve opening having a valve flow area, which is connectable to at least one branch flow area.

In A fluid arrangement often uses a common supply line, to supply several consumers with fluid. The fluid flow is therefore split, in one as possible predetermined ratio. One causes a current division. For the power sharing are several options known. Most frequently you use flow divider valves that produce two partial streams. The flow divider valves share an incoming flow after the flow Throttle principle in two predetermined partial flows. The flow divider valve has while a control piston, which acts like a pressure compensator. The Partial accuracy is but only about + 3 to 5%.

In DE 101 52 186 C1 a device for the metered supply of oxygen-containing medium is disclosed. In this case, a medium flows through a main opening into the interior of a flow divider valve insert. In the lateral surface of the flow divider valve insert branch openings are arranged, through which the medium flows out again and is thereby divided. The branch openings are connected to the main opening via a flow path and of different sizes. The flow divider valve insert is tubular, with one end face being closed and the other end face being the main opening. By means of a stepper motor, which acts on the closed end, the flow divider valve insert can be rotated in various angular positions. An axial adjustment is not possible. The flow divider valve insert is surrounded by a valve tube having a plurality of valve ports. In this case, the flow divider valve insert is movable in the circumferential direction of the valve tube.

AT 002 806 U1 discloses a multi-way valve that consists of a valve body with a flow divider valve insert. This is tubular and has branch openings in its lateral surface. The branch openings are connected to the main opening, which is arranged on an end face of the Stromteilerventileinsatzes, via a flow path in connection. The opposite end face is closed by an end plate having a pivot. An actuator, not shown, can rotate about the flow divider valve insert and thus change the flow through the openings. The areas of the branch openings are the same size. The flow divider valve insert is rotatably disposed in a valve tube having a plurality of valve ports.

Out DE 619 219 C is a controllable throttle valve with purging known. The valve has a flow divider valve insert, which is formed like a bush, wherein an actuating device acts on the closed end side. The flow divider valve insert is provided on its lateral surface with branch openings and with an inflow opening. The branch openings are different sizes. The flow divider valve insert can be adjusted axially within the valve tube by means of the actuator. As a result, the passage areas of the openings are changed and thus affects the flow. In the flushing position, the inflow channel is connected to the flushing channel, while the working channel is disconnected. As a possible variation, it is proposed that the flow divider valve insert also or only rotatably adjustable to arrange within the valve tube.

DE 1 924 682 U discloses a throttle valve having a valve insert which is sleeve-shaped and is rotatably housed in a valve housing. In the lateral surface of the valve insert branch openings are arranged. They communicate via a flow path with a main opening, which is formed by the open end side of the valve core. On the closed end face, an axial projection can be formed, which projects through an opening of the valve housing and can serve to rotate the valve core. The valve housing is either tubular or cup-shaped, wherein in the tubular embodiment, an end face is closed with an end plate which is round. The valve housing has an inflow opening and a valve opening. The valve insert can be fixed in defined positions by means of a screw. As a position indicator is attached to the axial extension of the valve insert a pointer whose position can be read by means of indicator marks, which are attached to the end wall of the valve housing.

A another possibility is the use of a rotary current divider, with higher accuracy works as a flow divider valve and also suitable for more than two partial flows is. A rotary flow divider divides a flow rate of a hydraulic pump into two or more equal or unequal partial flows. He has a corresponding one Number of displacement units on, e.g. as gears or pistons whose shafts are rigidly interconnected. Rotary flow dividers have opposite Stromteilerventilen the advantage that they are without principle Throttle losses work and the partial flows can be very different sizes. Also will be a higher Accuracy achieved with leakage of about 1 to 1.5%. Of the Disadvantage of a rotary current divider, however, is its complicated Construction.

A valve module of the type mentioned is out GB 861,982 known. The multi-way valve is composed of several valve blocks, each valve block having a valve module insert, which is provided with a branch opening with a Abzweigdurchflußfläche. Through the branch opening, the module main flow area can be associated with a valve opening. For this, each valve module insert has a handling with which it can be twisted. The individual valve blocks are held together by screwing devices.

Of the Invention is based on the object, a fluid flow with simple Means in any divider ratios and partial flows divide.

These Task is at a flow divider valve insert of the aforementioned Sort of solved by that the End plate is rectangular and has markings in at least a peripheral portion of the end plate, an opening ratio of the branch openings allocate to the perimeter area.

Of the Flow divider valve insert is part of a flow divider valve and provides for the Distribution of the fluid, for example, through the Hauptdurchflußfläche to disposal stands. The fluid flows thereby through the Hauptdurchflußfläche and reaches the branch openings in the lateral surface the flow divider valve insert. Through these branch openings the fluid comes out of the flow divider valve insert and became thus shared. A division sets at least a first and a second branch flow area ahead. The branch openings can depending on the need for partial flows be present in any number. The number of branch openings corresponds to the number of possible Partial flows. However, you can through further measures also branch openings be locked so that results in a different number of branch flow areas. The valve insert according to the invention, which is inserted, for example, in a fluid pipe, any Shapes have. For example, it is possible for the insert to be cylindrical, spherical, oval or angular. Also, the use can be both one piece as also in several pieces be educated. By choosing the size of the branch openings is already a divisor ratio set the fluid flow. In this way, it is very easy to do a power split with adjustable divider ratio and to reach any number of sub-streams. The flow divider valve insert has an end plate which connects the flow divider valve insert to a Closes the front side. An end plate is a simple means to use one hand to close and on the other hand to direct the fluid in a different direction. The For example, fluid is directed radially outward. A rectangular one End plate can serve as a fixation of the insert at the same time. In this way, the entire insert can be stored against rotation. So can the set divider ratios of the fluid flows are not unintentionally change. The end plate has markings in at least one peripheral area the end plate has an opening ratio of branch openings allocate to the perimeter area. As markers, for example, words, Serve symbols or letters. There are also notches or holes as a marker advantageous. Through the markings on the end plate Is it possible, without removing the valve core from a flow divider valve, divider ratios or the number of partial streams to know. Also can several different valve inserts for a Power distribution valve may be provided so that the type of valve insert can be seen on the end plate.

It is particularly preferred that the first and the second branch flow area is different. are the branch flow areas differ, This is how a divider ratio is determined. The branch flow areas become For example, caused by a hole in the lateral surface. It is also possible that still another branch flow areas one have different size. How to determine multiple divider ratios, which influence the fluid flow depending on the open or closed state.

preferably, is the main flow area at one Front side of the flow divider valve insert arranged. A front page is for example present when the insert is cylindrical. By the main flow area flows the main part of the Fluid. If there is no other main flow area, flows through the main flow area of entire undivided fluid flow. Is the Hauptdurchflußfläche at the Front side, this has advantages for the flow of the fluid. One largely avoids Turbulence and flow obstacles. Also for mechanical reasons is it cheap if the biggest opening of the Valve insert is arranged on a front side.

Preferably the flow divider valve insert has control edges. control edges can for example, used in a power distribution valve to shift so that the control edges Mark different positions. The control edges can do this other external dimensions have like the other body of the Valve insert. The control edges can be areas that have no openings have, from areas, the openings have, separate. Cheap it is when the control edges are on the circumference of the valve core. In this way, the insert can also be rotated in the circumferential direction be without the Control edge loses its effect.

Preferably the flow divider valve insert has an actuator. With an actuator the valve insert can be displaced. It is an advantage if the actuator move the valve insert both rotationally and translationally can. For this purpose, conventional means, such as hydraulic devices, electrical devices, magnetic Devices or the like, be used. So it is also possible that the actuating device of the Remotely controllable. The working position of the insert can then coordinated with other facilities of the fluid device become.

The Task is at a flow divider valve of the aforementioned Sort of solved by that the flow divider valve insert a rectangular end plate having markings, in at least a peripheral region of the end plate, an opening ratio of branch openings allocate to the perimeter area.

The Valve tube has as well as the valve core at least two openings on, for example, arranged on a lateral surface of the valve tube are. Under valve tube are understood here other geometries, that are not cylindrical, but for example have rectangular cross-sections. A Movement in the circumferential direction has the advantage that this outside the valve tube no additional space is needed. With an adjustment in the circumferential direction the valve insert remains within the valve tube. With a rotational movement of the valve insert within the valve tube can the branch flow areas with the valve flow areas in accordance to be brought. For example, the branch flow areas and the valve flow areas in Circumferential direction arranged on a line, so is a movement the valve core in the circumferential direction particularly favorable. In a first working position are then the first and the second branch opening and the first and the second valve opening can be flowed through. In a second working position, for example, with the first branch Durchflußdurchfläche the second valve flow area in coverage. The other flow areas are locked. The outflowing Fluid flow was thus reduced and reduced to a partial flow. In a third working position, the valve core can be so displaced that no the two branch flow areas with none of the two valve flow areas matches. The fluid flow is thus interrupted. Of course, the example presented here is also for a larger number of branch flow areas and valve flow areas. The number of branch flow areas and the number of valve flow areas does not have to necessarily match.

It is particularly preferred that the Flow divider valve insert movable in the axial direction of the valve tube is. The movement of the valve insert has a further degree of freedom on. In this way you are even more flexible to working positions choose. It is also possible, that he a displacement of the valve insert in the axial direction with a Displacement in the circumferential direction combined. This can be done in a row done or simultaneously. With simultaneous adjustment in axial and circumferential direction become the branch flow areas on a spiral track guided.

preferably, the flow divider valve insert is continuously movable. At a Continuous movement of the tube insert becomes a transition between open Flow areas and uniformed flow areas. It will an abrupt transition avoided, what else connected components is advantageous and so for example Pressure peaks are reduced.

It is envisaged that the flow divider valve insert is detectable in at least one position in the valve tube with a locking device. With a locking device, the reliability of the flow divider valve is increased. The set current divider ratio is maintained until the locking device is actuated. A random adjustment the valve insert by, for example, high pressures inside the valve core is avoided.

It is provided that at least a boundary line of a valve flow area with at least one boundary line corresponds to a branch flow area. If the two boundary lines agree, then the danger of a Leakage low. Furthermore thus the accuracy of the set divider ratio improved.

It it is preferred that the Flow divider valve is designed as a modular flow divider valve, wherein the valve module is part of the flow divider valve and therein the Stromteilvereintileinsatz is arranged.

Of the Valve module takes on the flow divider valve insert, so that inside of the valve module, the fluid can flow. By the simple Construction of the flow divider valve insert is the flow divider valve insert can be inserted in the valve module and also easily removed again, if For example, the flow divider valve insert to be replaced should.

Preferably the flow divider valve has at least a first and a second Valve module block, wherein the first valve module block the first valve opening with the first valve flow area and the second valve module component has the second valve opening with the second valve flow area. The number of valve module blocks thus defines the number of disposal placed valve openings firmly. The number of valve openings can be easily done by adding or removing a valve module changed become. In this way, you can easily change the number of partial streams.

The Task is in a valve module of the aforementioned Art solved by the fact that the valve module module has at least one connecting element, which on the valve module insert is arranged, wherein with the connecting element at least one second valve module insert in a second valve module module actuated is.

It is thus possible to connect several valve module components together to inside the Valve block housing a common flow path provide. This flow path is used by the valve module inserts the merged valve module modules formed. Valve module inserts various Valve module blocks can have different Abzweigdurchflußflächen, so that simple Way different divider ratios are provided. The valve module has at least one connecting element on, which is arranged on the valve module insert, wherein with the Connecting element at least a second valve module insert in a second valve module block is actuated. Adjacent valve module blocks are connected with each other. The valve module insert takes over here another function. Will one of the valve module inserts of actuated modular flow divider valve, at the same time further valve module inserts are mitbetätigt. This facilitates the Control of the individual branch flow areas, by using only one adjustment several valve module inserts actuated are.

It is preferred that the second valve module insert is actuated by a rotational movement. For this purpose, the valve module insert, for example, two Ver connecting elements at its periphery, in recesses of an adjacent valve module insert intervention. The connecting element can in one piece with be formed the valve module insert, so that no further components for the transmission the rotatory movement are necessary.

The Invention will be described below with reference to preferred embodiments described in conjunction with the drawing. Herein show:

1 a schematic representation of a flow divider valve,

2 a flow divider valve insert,

3 an embodiment of an end plate,

4 a schematic representation of another Stromteilerventileinsatzes,

5 a section in the axial direction of the flow divider valve insert after 4 .

6 a gas supply module as an application example,

7 an embodiment of a modular flow divider valve in the gas supply module according to 6 .

8th a side view of the gas supply module according to 7 .

9 a sectional view of the gas supply module according to 8th .

10 a valve module module and

11 a sectional view of the valve module after module 10 ,

1 shows a flow divider valve 1 with a flow divider valve insert 2 , which in the following "valve insert 2 To clarify the structure is the valve core 2 outside a valve tube 3 shown and is in this valve tube 3 in the axial direction 4 insertable. The valve insert 2 has a main flow area 5 on, on one end face 6 of the valve insert 2 is arranged. On a lateral surface 7 of the valve insert 2 are branch openings 8th . 9 . 10 . 11 arranged. The first branch opening 8th has a larger branch flow area 12 on as the second branch opening 9 with a second branch flow area 13 , The third branch opening 10 and the fourth branch opening 11 are mutually in the axial direction 4 aligned and are opposite to the first and the second branch opening 8th . 9 arranged in the circumferential direction. The valve insert 2 is cylindrical, so that even more branch openings can be arranged on the circumference. The valve insert 2 is at the front, that of the Hauptdurchflußfläche 5 opposite, with an end plate 14 locked.

Through the valve tube 3 flows fluid 15 in the axial direction 4 , The valve tube 3 has at its periphery a first valve opening 16 with a first valve flow area 17 and a second valve opening 18 with a second valve flow area 19 on, here the valve flow areas 17 . 19 are not arranged in the circumferential direction to each other, but in the axial direction. The valve flow areas 17 . 19 and the branch flow areas 12 . 13 are circular, with the size and boundary line of the first valve flow area 17 with the branch flow area 12 matches. The same agreement applies to the second valve flow area 19 with the second branch flow area 13 , Now become the corresponding flow areas 17 . 12 and 19 . 13 brought into coincidence, so is a fixed current divider ratio of for example 2: 1 at the flow divider valve 1 set. If you move, for example, the flow divider valve insert 2 in the circumferential direction, so that the third and the fourth branch opening 10 . 11 in overlay with the first and the second valve opening 16 . 18 is brought, so another divisor ratio is possible, for example 3: 4. The flow through the first and the second valve flow area 17 . 19 be interrupted, it moves the valve core 2 in a working position, in which the lateral surface 7 the two valve flow areas 17 . 19 covers. It is also possible that only one of the valve flow areas 17 . 19 is closed. It is also possible that the fluid 15 from the valve flow areas 17 . 19 into the valve tube 3 enter, for example, different fluids within the valve tube 3 to mix.

2 shows an embodiment of a flow divider valve insert 2 in the axial direction 4 has three branch openings. Also are in 2 control edges 20 shown in the circumferential direction of the valve core 2 run. These control edges 20 Separate areas in which branch openings are arranged, of areas that have no branch openings. At the control edges 20 the outer diameter of the valve insert changes 2 , In areas that have no branch openings, the outer diameter of the valve core is 2 smaller than in areas having branch openings. The control edges 20 can thus be used to adjust the valve insert 2 be used.

3 shows a detailed view of the end plate 14 , As end plate 14 Here is the part outside the flow divider valve insert 2 understood that both an area or an entire end face of the valve core 2 closes as well as for fixing the valve core 2 can serve. The end plate therefore does not necessarily have to be plate-shaped. The end plate 14 has markings 21 on, on the perimeter of the end plate 14 are distributed. Due to the rectangular shape of the end plate four areas are available, each having a different number of holes. These holes serve as markings 21 and indicate the adjustable partial flows. For example, a single bore on one side of the endplate means that if there are two branched orifices arranged axially to each other, a divider ratio of 1: 1 exists. Accordingly, two holes indicate a divide ratio of 1: 2, three holes have a divide ratio of 1: 3, and four holes indicate a divide ratio of 1: 4. Also, the markers can 21 indicate the number of existing branch openings in the axial direction. Three holes therefore indicate that three branch openings are arranged side by side in the axial direction. Will the valve insert 2 twisted in the circumferential direction, then, for example, only two branch openings or, for example, four branch openings are available. The valve insert can be fixed after adjustment using the holes by, for example, pins engage in individual holes.

4 and 5 show a further embodiment of the valve core 2 in the axial direction, wherein 5 a sectional view of 4 is. The lateral surface 7 and the end plate 14 of the valve insert 2 are made in one piece. The end plate has a square base, with one side of the square being larger than the largest outside diameter of the valve core 2 on the lateral surface 7 , It is shown an embodiment in which the valve core 2 Provides a different number of branch openings in the axial direction, depending on a selected working position. At the in 4 and 5 shown lower boundary line of the valve core 2 are in the axial direction 4 arranged three branch openings. If the valve insert 2 shown is rotated forwards by 90 ° in the circumferential direction out of the plane of the drawing, then it is at the lower boundary line of the valve insert 2 the first branch opening 8th and the second branch opening 9 to disposal. These two branch openings 8th . 9 are in the sectional view in 5 visible, noticeable. Will the valve insert 2 from the illustrated working position rotated by 90 ° in the plane of the drawing, so is at the lower boundary of the valve core 2 no drainage area available, as well as from 4 based on the lateral surface 7 is recognizable. The valve insert 2 in the 4 and 5 is for a valve tube 3 provided, which has at least three valve flow areas. The size of the Abzweigdurchflußfläche a branch opening is less than or equal to the size of the valve flow area, which cooperates with the Abzweigdurchflußfläche. In this way, no further seals are necessary. The volume flow of the fluid 15 is thus limited only by the branch openings with their associated Abzweigdurchflußflächen. To simplify the construction of the flow divider valve 1 it is useful if the branch openings are aligned with each other both in the axial direction and in the circumferential direction. For this purpose, the centers of the branch openings are, for example, on a straight line in the axial direction 4 , The centers of the branch openings in the circumferential direction are also distributed uniformly on a circular line around the circumference.

4 shows a gas supply module, the flow divider valve according to the invention 1 with the flow divider valve insert 2 having. It is a gas supply module 22 that a vacuum pump 23 supplied with nitrogen. A vacuum pump does not conduct gas under vacuum conditions inside, so that dirt or particles inside the pump can not be carried away. For cleaning and flushing the pump 23 Therefore, nitrogen is used as a fluid 15 fed. Flooding with nitrogen cleans the pump 23 and is a simple measure to extend the life of a vacuum pump. The nitrogen enters the gas supply module 22 via an inlet opening 24 , Here, the nitrogen has an overpressure between 1.4 and 6.8 bar. The supply of nitrogen is from an inlet valve 25 controlled. With the help of a pressure control valve 26 the nitrogen pressure is reduced to about 0.5 to 1.5 bar. The pressure control valve 26 at the same time has an integral check valve so that the nitrogen does not go back over the inlet port 24 can get into a nitrogen tank.

Behind the pressure control valve 26 Branches the flow of nitrogen at the branch point 27 into a first and a second primary line 28 . 29 , The second primary line 29 leads via a throttle directly to a drive device 30 the pump 23 , The first primary line 28 indicates a first flow change 31 in the form of an orifice and leads to the flow divider valve 1 , This flow divider valve 1 divides the incoming fluid flow in a fixed divider ratio for a first and a second branch line 32 . 33 on. The divider ratio is by choosing a working position of the flow divider valve 1 variable. The branch lines 32 . 33 lead to different places of the pump 23 or to different pumps.

Within the gas supply module 22 Two differential pressure measurements are carried out. The first differential pressure measurement takes place at the first flow change 31 , The second differential pressure measurement is at the flow divider valve 1 carried out. This is parallel to the first primary line 28 a secondary line 34 arranged, the device for each pressure measurement Absperrvorrich 35 in the form of a two-position valve. Between the two shut-off devices 35 is a pressure gauge 36 arranged, in turn, via a limiter 37 with the primary line 28 communicates.

The flow divider valve 1 points in 6 a cylindrical flow divider valve insert 2 on that in a cylindrical valve tube 3 of the flow divider valve 1 is arranged. The flow divider valve 1 provides two valve flow areas 16 . 17 ready, each at the first and second branch line 32 . 33 are arranged. For this purpose, the valve tube 3 at every valve opening 16 . 18 a valve branch pipe, as well as in 1 indicated. Overall, the flow divider valve 1 four working positions 38 . 39 . 40 . 41 on. The first three working positions 38 . 39 . 40 differ in their divider ratio, that through the branch flow areas 12 . 13 the first and second branch opening 8th . 9 is predetermined. In the fourth working position 41 is the flow divider valve 1 in a closed position. The fluid flow is then at both the first branch flow area 12 as well as at the second branch flow area 13 interrupted. This is achieved, for example, that according to 2 in the axial direction between two control edges 20 a region is arranged which has no branch openings. This area can then be the blocking function of the flow divider valve 1 take. Because two such areas in the flow divider valve 1 , as in 2 are indicated, are also a blocking function as an intermediate state in the transition from the working position 38 to the working position 39 and at the transition from the working position 39 to the working position 40 and in each case reversed at the flow divider valve in 6 possible.

The flow divider valve 1 also has a feast adjusting device 42 on. The locking device 42 For example, with the end plate 14 of the flow divider valve 1 interact. This is the end plate 14 rotatably mounted in a holder. All four working positions 38 - 41 can be so reliably maintained, respectively, until the flow divider valve 1 is pressed. For this purpose, an actuating device, not shown, is provided, which is the locking device 42 triggers and the endplate 14 guided moved to another position in the locking device. The operation of the locking device 42 and the actuator is remotely controlled. By remote control, the fixed divider ratios, for example, for the first working position 1: 2, for the second working position 1: 3 and for the third working position 1: 4, are selected. It is also possible that the locking device 42 and the actuator the flow divider valve insert 2 not in the axial direction, as in 6 suggested, adjust, but also in the circumferential direction of the flow divider valve insert 2 , In this way, further working positions are available, so that the flow divider valve 1 is versatile.

The 7 . 8th and 9 show a modular flow divider valve 43 that in the gas supply module 22 is arranged. 7 shows the gas supply module 22 in perspective view and 8th in a side view. In 9 is the gas supply module 22 in egg ner sectional view according to the section DD in 8th shown. The gas supply module 22 is here as a modular gas supply module 22 educated. Module elements of the gas supply module 22 like a connection module 44 , the modular flow divider valve 43 , a measuring terminal module 45 and a control module 46 , have defined connection geometries, which make it possible to connect adjacent module elements together, so that, for example, a common flow path 47 for the fluid 15 arises, as in 9 shown.

The modular flow divider valve 43 here has a total of six valve module modules 48 . 49 . 50 . 51 . 52 . 53 on, wherein the valve module module 52 at the same time as a control module 46 is trained.

The 10 and 11 show one of the valve module blocks 48 - 53 , where here the second valve module module 49 was selected by name. This second valve module block 49 is the same as the other valve module components 48 . 50 - 53 , The fifth valve module 52 has the same connection geometry to its adjacent valve module blocks 51 . 53 on, wherein the valve module module 52 equipped with additional features. In 11 is a section of the valve module 49 perpendicular to the flow path 47 shown.

The valve module block 49 in 11 has a valve module insert 54 in a valve block housing 55 on. The valve module insert 54 encloses a module main flow area 56 and has a total of four branch openings 8th . 9 . 10 . 11 with in each case by a flow area, of which two of the flow areas with 12 and 13 are designated. The valve module insert 54 is rotationally movable in the circumferential direction, so that in a working position at least one flow area, eg 12 , with the flow area 17 the valve opening 16 can interact. Flows through the fluid 15 this flow area 17 So it happens an exhaust operation 57 , a nozzle 58 and then enters a first outlet channel 59 of the valve module 49 , With the exhaust operation 57 If necessary, the fluid flow can be interrupted manually or remotely, for example if the second secondary line is at the first outlet channel 34 of the gas supply module 22 Will get removed. On the opposite side of the first outlet channel 59 is a cover plate 60 arranged, which has a second outlet channel 61 closes. This cover plate 60 is removable, so that the second outlet channel 61 For example, as a measuring point for a pressure measurement is available. In 10 are two fasteners 62 shown on the valve module insert 54 are arranged and in recesses of an adjacent valve module, eg 50 , intervene. In this way, it is very easily possible by a rotational movement of the valve module insert 54 additional valve module inserts 54 in adjacent valve module blocks 48 . 50 - 53 to operate when connecting with each other via fasteners 62 each connected.

Claims (14)

A flow divider valve cartridge having a main port with a main flow area and a shell surface having at least a first branch port with a first branch flow area and a second branch port with a second branch flow area, the branch flow areas communicating with the main flow area via a flow path, the flow divider valve core being an end plate having the Stromteilerventileinsatz closes at an end face, characterized in that the end plate ( 14 ) is rectangular and has markings which in at least one peripheral region of the end plate ( 14 ) an opening ratio of the branch openings ( 8th . 9 ) to the peripheral area. Flow divider valve insert according to claim 1, characterized in that the first and the second branch flow area ( 12 . 13 ) is different in size. Flow divider valve insert according to claim 1 or 2, characterized in that the main flow area ( 5 ) on a front side ( 6 ) of the flow divider valve insert ( 2 ) is arranged. Flow divider valve insert according to one of claims 1 to 3, characterized in that the flow divider valve insert ( 2 ) Control edges ( 20 ) having. Flow divider valve insert according to one of claims 1 to 4, characterized in that the flow divider valve insert an actuating device. Flow divider valve with a flow divider valve insert according to one of the claims 1 to 5 and a valve tube, wherein the flow divider valve insert movably disposed in the valve tube, wherein the valve tube at least one first valve opening with a first valve flow area and a second valve opening having a second valve flow area and the flow divider valve insert in the circumferential direction of the valve tube is movable. Flow divider valve according to claim 6, characterized in that the flow divider valve insert ( 2 ) in the axial direction of the valve tube ( 3 ) is movable. Flow divider valve according to claim 6 or 7, characterized in that the flow divider valve insert ( 2 ) is continuously movable. Flow divider valve according to one of claims 6 to 8, characterized in that the flow divider valve insert ( 2 ) in at least one position in the valve tube ( 3 ) with a locking device ( 42 ) is detectable. Flow divider valve according to one of claims 6 to 9, characterized in that at least one boundary line of a valve flow area ( 17 . 18 ) with at least one boundary line of a branch flow area ( 8th . 9 ) matches. Flow divider valve according to one of claims 6 to 10, characterized in that the flow divider valve as a modular flow divider valve ( 43 ), wherein the valve module module ( 48 - 53 ) Part of the flow dividing valve ( 43 ) and therein is the Stromteilvereintileinsatz ( 2 ) is arranged. Flow divider valve according to one of claims 6 to 11, characterized in that it has at least one first ( 48 - 53 ) and a second ( 48 - 53 ) Valve module, wherein the first valve module ( 48 - 53 ) the first valve opening ( 16 ) with the first valve flow area ( 17 ) and the second valve module module ( 48 - 53 ) the second valve opening ( 18 ) with a second valve flow area ( 19 ) having. A modular flow divider valve module module having a valve module insert in a valve block housing, the valve module insert having at least one branch port with a branch flow area, the at least one branch flow area communicating with a module main flow area of the valve module and the valve block housing having at least one valve port with a valve flow area can be connected to at least one branch flow area, characterized in that the valve module component ( 48 - 53 ) at least one connecting element ( 62 ) mounted on the valve module insert ( 54 ) is arranged, wherein with the connecting element ( 62 ) at least a second valve module insert ( 54 ) in a second valve module module ( 48 - 53 ) is operable. Valve module component according to Claim 13, characterized in that the second valve module insert ( 54 ) is actuated by a rotational movement.