DE3613683C2 - - Google Patents

Description

The invention relates to a device for the controlled Distribution of flowable media, with a distributor with central media supply and a multitude of outgoing Connections and with a control arrangement with which the Connections completely or partially independent of each other open and close.

This is from the area of laboratory equipment, for example Known need a fluctuating variety of liquid samples that are in open test tubes that in turn used in thermostatted collective recordings are to be fumigated for various preparation work. So must in this area of application, for example, some analysis samples gassed with an inert gas to protect against oxidation will. In other applications there is also a controlled one Oxygenation or other gases or treatment fluids required. Since the number of so far consumer stations to be loaded from case to case fluctuates and since the treatment media are often expensive and should therefore be used as sparingly as possible, one strives to target each individual consumer point  to be able to control or independently of the others Consumers places entirely from one feed shut down. For those who have become known in laboratory technology Devices of the generic type therefore exist Control arrangement from a variety of individual, the jewei current connections of associated control valves, namely in view of the often existing requirement of a Fine dosing in the form of high-quality needle valves. The resulting structural-constructive effort limits the economically justifiable right from the start Maximum number of consumer points on an order of magnitude of maybe 20. In practice, however, devices would be with consumer numbers from 50 to 100 desirable, which, however, cannot be realized with the known design are.

Diaphragm valves are also known (DE-OS 22 04 394, 33 37 233, US-PS 30 80 887), in which, as far as several Connections are available, each connection is complete trained valve is assigned in the form that the single valve seat from a single smaller diaphragm piece is closable, this membrane piece for itself taken in the immediate vicinity of this valve seat in the housing is fixed in position or at least compared to a fixed position stable intermediate supports near the valve has seat. With a correspondingly high number of This in turn leads to a complicated connection constructive structure. A fine dosage is with the known diaphragm valves are not highlighted. Already that basic structure according to this configuration Actuations of the individual valves hardly the settings of neighboring valves. This also applies to the  Case of DE-OS 33 37 233, in which the individual membranes subject of the overall membrane for the individual valve seats are, especially because with the membrane there Mouth area of the inlet bore itself does not act is struck, rather the actual valve function plays between the individual chambers and thereby for the Sealing long strong membrane webs are provided which are pressed against the chamber floors with considerable pressure can.

The present invention is based on the object a device for the controlled distribution flow capable of creating media that enables one except neat variety of side-by-side outlets ind vidually and independently of each other in pronounced fine dosing with a very simple construction Taxes.

The solution according to the invention results from the characterizing nenden part of claim 1.

With this configuration, a connection or mouth opening field of basically any number outgoing connections with a single, except for the edge clamping practically freely movable large membrane controlled. This leads to an extremely small construction effort. The control is thanks to the on the arranged on the other side of the membrane element both individually and finely dosed. Doing it has surprisingly been shown that the membrane displacements by adjacent control elements in the sense of  Activation of the affected mouth opening is not interfere with each other or at least through one to master the corresponding setting activity without any problems are. If you move a corresponding control element so far, that the affected adjacent membrane section completely before the mouth opening of the affected outgoing connection arrives, the latter is completely closed. Despite the Possibility of finely metered individual control of a Needs an extremely large variety of outgoing calls conclusions are not individual valves in the narrow sense of the word available for the outgoing connections, but only the membrane common to all connections with the corresponding appropriate actuators. It should also be emphasized that the Actuators as moving parts of this control arrangement sit on the side of the membrane on which there is no Treatment medium is located. Therefore, arise here too no sealing problems. So it doesn't have to be stuffed bushings or the like for sealing the actuators be worked.

It should also be emphasized that in today's art material technology for every flowable treatment medium suitable and resistant materials for the Manufacture of the membrane are present, hence the Device is therefore universally applicable, under one conclusion of aggressive fluid media.

The scope of the device is not on that Area of the Lebor technology mentioned at the beginning is limited. The Device can be used advantageously anywhere where a variable individual loading of a large number of consumption points is required.  

The advantages of this device for the controlled distribution come even with relatively low consumption digits to bear.

With the given construction principle, the exact fine dosage depends only on the positioning accuracy or fineness of the on set control elements. For example, if you use for a manual setting with fine thread screwable actuators can be obtained from this alone already the desired fine dosage option.

Advantageous further refinements of the device for the Controlled distribution of flowable media are in the Subclaims marked.

An embodiment of such a device is below with reference to the drawing wrote.

It shows  

Fig. 1 shows a schematic longitudinal section through a device according to the invention,

Fig. 2 is a plan view of such a device.

The device shown has a distributor which is formed from two shell elements 1 and 2 , which are screwed together by means of screws 3 and delimit a predetermined cavity. In the illustrated embodiment, the lower shell part 2 is assigned a central connection 4 for a central supply of a flowable medium, which is in a conductive connection with a conduit 5 inside the lower shell part 2 . The conduit 5 opens on one side, in the exemplary embodiment shown on the lower side, into a distribution chamber 6 formed in the distributor 1 , 2 . On the lower side of the distribution chamber 6 mentioned there is also a plurality of orifices 7 , to which corresponding connections 8 , for example screwed into the underside of the lower shell part 2 , with which supply lines are then connected to a corresponding plurality of consumption points or can be connected.

In the illustrated embodiment, for example, auswech gels on via respective quick-release couplings at the connections 8, so-called Luernadeln 9 are connected with those filters as consumption, for example liquid analysis samples in test tubes 10 can be fumigated, which case located these tubes example, in one of the distribution device heatable collecting block.

The side of the distribution chamber 6 opposite the orifices 7 is now delimited by a membrane 11 in a sealed manner, which can be achieved in a simple manner in the illustrated embodiment in that the membrane 11 is tight and sealed between the two shell parts 1 and 2 of the distributor is clamped.

On the other side of the membrane 11 , that is, the side of the diaphragm 11 facing away from the distribution chamber 6 and thus the connections 8 , the mouth openings 7 of the connections 8 are now provided in exactly the same number and in a corresponding spatial distribution of adjusting elements with which locally the adjacent area of the membrane 11 can be shifted in the direction of the orifice 7 concerned, up to its complete closure by the corresponding local section of the membrane 11 , as is indicated in FIG. 1 by a dash-dot line for an orifice 7 .

In the illustrated embodiment, adjusting screws 12 are provided for manual operation as control elements with knurled head, which are screwed in at the appropriate place with fine thread into a corresponding threaded hole in the upper shell part 1 of the distributor and stamp the underside small, the membrane compared to appropriately rounded pressure 13 wear. In this way, all of the orifices 7 of all the connections 8 going out from the central distribution chamber 6 can be controlled independently of one another. If the associated set screw is not actuated, the affected connection is loaded over the full cross section. With a correspondingly wide screwing in of the set screw 12 , depending on the position of the connector 8 concerned, it is charged in exact fine metering from the common distribution chamber 6 , or else it is completely closed with the screwing in of its set screw accordingly.

Special sealing measures in the area of the control elements, in the exemplary embodiment thus the set screws, are not necessary, since there is no flowable medium on this side of the membrane 11 .

The membrane 11 is expediently very soft and elastic and also very light in weight for many applications, so that, if necessary, only a low pressure of the flowable medium in the distribution chamber 6 , for example a low gas pressure, holds the membrane in its upper open position. In such an embodiment, the membrane is suitably made of a foam inside, but then a closed outer skin is expediently provided at least on the side facing the distribution chamber 6 over the foam. The choice of material for the membrane depends on the type of medium to be distributed.

Is in other applications a practically unpressurized flowable medium for distribution is appropriate the membrane is preloaded in the manifold, so that it keeps itself in its upper position and into this when the actuator is retracted in its Position is, can also return automatically.

As can be seen from Fig. 2, the adjusting screws 12 and thus naturally also the connections 8 are expediently arranged in rows, even if the distributor 1 , 2 itself has a substantially round shape. The row arrangement of the set screws 12 has proven to be expedient for their handling, especially in the case of the large number of set screws which are located in relatively close proximity.

In the illustrated embodiment, a device with manual control of the individual outgoing connections is assumed. It is understood that the individual setting of the individual connections 8 via the membrane 11 can also be automated from the construction principle. With basically the same structure, it is sufficient to use actuating elements that are particularly useful for automation. In such a case, the set screws 11 shown could be replaced by small setting cylinders, for example, which would be operated pneumatically or hydraulically according to a predetermined program. Electrically actuated control elements could also be used, which in turn are to be actuated according to a predetermined program in terms of the opening, the fine metering or the closing of the individual connections.

Control elements which can be controlled in this way can also be opened easily a fine metering can be interpreted as they are easy to use stepless travel can be given.

The fine dosing has not only the advantage, if necessary to save relatively expensive treatment medium, there are also many rich use cases conceivable in which the desired techno logical effect with depends on a corresponding fine dosage. In some cases, for example, it hangs in the laboratory area technology the desired effect of gassing liquid analyzes rehearse with the fact that you always in predetermined time intervals only a gas bubble rises through the analysis liquid, which with the device described above to achieve.

Claims (11)

1. Device for the controlled distribution of flowable media, with a distributor ( 1 , 2 ) with central media supply line ( 4 , 5 ) and a plurality of outgoing connections ( 8 ) and with a control arrangement with which the connections ( 8 ) independently of one another or partially to open and close, characterized in that the plurality of outgoing connections ( 8 ) in the distributor ( 1 , 2 ) side by side on the inside of a wall of a distribution chamber connected to the central media supply line ( 4 , 5 ) ( 6 ), the opposite wall of which is bounded by a membrane ( 11 ) which is firmly clamped at its edge and is otherwise freely movable, on the other side of which in the distributor ( 1 , 2 ) in a number and position corresponding to the outgoing connections ( 8 ) Adjusting elements ( 12 ) are arranged, with which the respectively adjacent section of the membrane ( 11 ) against the mouth opening ( 7 ) of the corresponding opposite The connection ( 8 ) can be moved up to its complete closure. 2. Device according to claim 1, characterized in that the Membrane is made of an elastic material. 3. Apparatus according to claim 1 or 2, characterized in that the membrane ( 11 ) is lightweight. 4. Device according to claims 2 and 3, characterized in that the membrane ( 11 ) consists of a foam on which a closed outer skin is provided at least on the side facing the distribution chamber ( 6 ). 5. The device according to claim 2, characterized in that the membrane is mounted under prestress in the distributor ( 1 , 2 ). 6. Device according to one or more of the preceding claims, characterized in that the distributor is formed from two interconnectable shell parts ( 1 and 2 ), between which the membrane ( 11 ) is fixed. 7. The device according to one or more of the preceding claims, characterized in that the adjusting elements ( 12 ) are finely adjustable in the sense of a fine metering. 8. The device according to one or more of the preceding claims, characterized in that the adjusting elements are provided with fine-thread adjusting screws ( 12 ). 9. The device according to claim 8, characterized in that the adjusting screws ( 12 ) have at their diaphragm ( 11 ) facing ends punch ( 13 ). 10. The device according to one or more of claims 1 to 7, characterized in that the adjusting elements ( 12 ) are arranged in rows. 11. The device according to one or more of the preceding An sayings, characterized in that electrically, hydraulically or pneumatically actuated control elements are provided.