DE1814429B2 - Fluidic control device - Google Patents

Description

The invention relates to a fluidic control device, with a on a top surface with a Provided recess, having at least one output line communicating with the recess Base block, a control membrane stretched over the recess, one on the base block arranged facing away from the side of the control membrane, one perpendicular to that facing the control membrane A cover block having a control line opening into the top surface, one opening into the recess Inlet line and at least one ventilation duct communicating with the outlet line.

In GB-PS 10 55 045 is a fluidic control device of this type described, in which the input line is essentially parallel to the top surfaces of the Base block on the one hand and the cover block on the other hand in the one covered by the control membrane Opening opens out, wherein on the opposite side of the opening of the inlet line of the recess a ventilation duct is provided both on one in front of the first one in the fluidic control device according to GB-PS 10 55 045 provided two output lines as well as behind the second output line, namely in front of the ventilation duct mentioned there is one in each case in the known device Throttle provided. Located on the opening perpendicular to the top surface facing the control membrane Control line does not apply any control pressure, one output line necessarily has a low, positive pressure on. On the other hand, when the control pressure is applied, the retaining membrane in the known device is applied a vertically pointing into the recess mentioned rib, so that inevitably the connection between the inlet line and the ventilation duct interrupted and a relatively high pressure on the said Output line is generated.

A disadvantage of the known fluidic control device is that even when there is no control pressure is present, there is a positive pressure signal in the aforementioned output line. When using such fluidic control devices in fluidics, it has proven to be disadvantageous in some cases that the Control device is unable to change between a state in which in the output line no or even a negative pressure is present, and a state - namely at control pressure - where this Pressure is positive to bring about, because with the special design of the fluidic control device According to GB-PS 10 55 045, there is always a necessarily on the output line, i.e. also without control pressure positive pressure present.

The invention is based on the object, while avoiding the above-mentioned disadvantages, a fluidic To create a control device of the type mentioned at the outset which, with a simple structure, is also reliable in operation Control of relatively low pressures enables.

According to the invention, this object is achieved in a fluidic control device of the generic type solved in that the input line in the control membrane facing top surface of the base block opens into the recess; that the mouth of the Input line is surrounded by a protruding ring lip; that the control diaphragm is in the normal position rests flat on the cover block and seals the control line and that the control diaphragm at control pressure rests against the ring lip.

An annular lip with an attachable membrane is already known from US-PS 30 76 477, which a Describes a non-generic, pneumatic multi-way valve which can assume two positions.

In the fluidic control device according to the invention, there is no control pressure when is present on the fluid exit line no pressure, rather it only occurs when the control pressure is applied positive pressure in the outlet line. If there is no pressure signal on the control line, then the pressure in the inlet line is released through the ventilation channels or bores, so that in there is no pressure in the outlet line or there is only a negligible pressure

The particular importance of the result brought about by the fluidic control device according to the invention that there is no or even a negative D-.ick when there is no control pressure, consists in the fact that the device according to the invention is used in fluidic circuits in which there are no moving parts it is particularly advantageous to have a switched output available which is at atmospheric or negative pressure, while the alternatively switched output has a positive pressure .

Therefore, in a particularly preferred Ausgestal device of the fluidic control device provided that the input line between its inlet and its mouth in the recess has a Venturi tube in which the mouth of the output line is arranged essentially at the narrowest point , so that the pressure at the estuary at control pressure is negative positive and connected with the atmosphere estuary. This is because a negative pressure occurs in the output line when there is no control pressure in the control line.

Exemplary embodiments of the invention are explained in detail below with reference to the drawing. It shows

F i g. 1 shows a longitudinal section through a first embodiment of the invention and

F i g. 2 one of the F i g. 1, similar longitudinal section through another embodiment of the invention.

In Fig. 1, a fluid control device 10 designed according to the invention is shown, which a having a closed component consisting of a top base 12 and a base block 14. The two Blocks 12, 14 are connected to one another by connecting elements in the form of screws 16. The cover block 12 of the component is provided with a bore 18, into which a tube 20 made of plastic or metal is inserted. The tube 20 forms a first Control line 25, the inlet end 24 of which is pressurized, from a first external source of fluid absorbs incoming fluid. The fluid source can be any one of fluid be pressurizing means suitably by means of devices not shown is connected to the tube 20, as will be described in detail below in connection with the The mode of operation and the usability of the fluidic control device 10 is described.

A resilient membrane 26 is arranged between the adjacent surfaces of the blocks 12 and 14, which membrane is pressed against the adjacent surfaces in a sealing manner by the screws 16. The control membrane 26 is a pressure-sensitive component which is connected to an opening 28 of the tube 20 and normally closes it off. The control membrane is designed so that it can be moved from its normal, closed position into another position shown in dashed lines when the pressure of the fluid in the control line 22 rises. The purpose of this position shown in dashed lines will become clear below.

The base block 14 has a central bore 30 ί pass into which a rigid plastic or metal The tube 32 is inserted an input conduit 34 having an inlet 36 which is that of a second source of fluid under pressure standing fluid is supplied. One one

ίο smaller diameter section 38 of the Bore 30 forms an extension of the inlet line 34 which ends in a first opening 40 which provided centrally and near the bottom in a surface of the base block 14 adjacent to the control membrane 26

! ■> nen recess 42 is arranged in this way the input line has a 34 between its inlet 36 and its mouth 40 is substantially equal to keep the cross section of the mouth 40 is surrounded by a protruding annular lip 44, which ensures a good sealing contact with the control membrane 26th The recess 42 communicates with the atmosphere via one or more passages or bores 46, which, starting from the recess 42, extend through the base block 16 to the opposite one.

: ■ -> extend to the end. The first opening 40 is so close to the Steuer.Tiembran 26 that it can either be closed by the control membrane 26 or opened when the control membrane 26 moves from its one position to the other. the

κι input line 34 is connected to the atmosphere, when the control diaphragm 26 is in its normal position shown in solid lines.

There is an essential feature of the invention

in that a much larger area of

i-> control membrane 26 is exposed to the influence of the fluid pressure prevailing in the control line 22 than is the case with the input line 34, so that a relatively low fluid pressure in the control line 22 is sufficient to the first opening 40 of the

4Ii input line 34 to close against a relatively high fluid pressure of the input line 34. Therefore, the cross-sectional area of the recess 42, which is the effective area of the fluid pressure in the control line 22.

A ^r < set control membrane 26 is substantially larger than that of the inlet line 34 at the opening 40, which is exposed solely to the fluid pressure when the opening 40 is closed by the control membrane 26.

A second tube 48 is inserted into the bore 30,

> o the one with the pipe 32 near the mouth 40 of the Input line 34 is firmly connected. The junction of the two tubes 32 and 48 forms an opening 50 for the inlet line 34, which via the outlet line 52 formed by the pipe 48 with a flow

Vi medium-actuated device can be connected. It will be understood that tube 48 may be connected to one or more fluid actuated devices preferably using one or more of the; provided with several outlets, at the outer end 54 of the

wi tube 48 arranged connector connected can be.

In the operation of the device shown in Fig. 1 flows when the pipe 32 to a suitable, the Fluids pressurizing fluids

Ι - Ί telquelle is connected and the control membrane 26 is in its normal de-energized position, fluid through input line 34 and the Mouth 40 in the recess 42, from which it is through the

Bores 46 enters the atmosphere. There is negligible pressure in the outlet line 52. When fluid under pressure is introduced into the control line 22, the pressurizes increased pressure the control membrane 26 in the position indicated by dashed lines in which the Control membrane 26 rests against the annular lip 44 and partially wraps around the annular lip 44, around the first Mouth 40 of the input line 34 to close securely. The fluid flowing in the input line 34 is pressed through the orifice 50 into the output line 52, with an overpressure or Pressure and flow arise at the mouth 50 in the outlet line 52. The overpressure or the Pressure and flow are fluid-operated by suitable connecting elements Transfer facility. When the fluid pressure in the control line 22 is released, the Control diaphragm 26 back to its normal position, and the overpressure or the pressure and the flow to the Orifice 50 are again negligibly small.

The fluid control device described herein can be used for various purposes can be used. For example, it can be used as a simple force booster in which a relatively low pressure signal fluid flow; a higher control fluid flow Pressure controls. So when the inlet 36 of the tube 32 is connected to a source of high pressure fluid and the second tube 48 to one operable by fluid pressure or fluid Device are connected, one acting on the large area of the control membrane 26 is sufficient relatively low pressure of the signal fluid to move the control diaphragm 26, the orifice 40 to close and to hold closed against a pressure that is much greater than that in the Control line 22. This feature is independent of whether the device to be controlled is on the pressure or on responds to the fluid flow rate.

The device described above is also excellent as a switch for a by the pressure or the fluid flow controlled device suitable. In Fig. 1, tube 60 is a suitable one Represent a device with which a fluid flow can be passed through a control gap 62, the flow of fluid reaching conduit 22 with sufficient energy to place the membrane in its to move the position shown in dashed lines. In Fig. 2 another embodiment is shown, that in structure and mode of operation in FIG. 1 illustrated embodiment is similar and only has the significant difference that the output value of the pressure or the pressure and the

! Fluid flow rates are either positive or negative, while the initial value is at the previous one described embodiment can be either positively or negligibly small.

In Fig. 2 correspond to connecting blocks 112 and 114 Screws 116, a tube 120, a control membrane 126, a first opening 140, a recess 142 and Bores 146 for venting essentially the respective elements of FIG. 1, if one of does not allow for minor deviations in size. An input conduit 134, however, points between an inlet 136 and the first opening 140 a Venturi tube 135, which has a usual constriction in the flow channel. Another tube 148 can be connected to any fluid pressure in the same manner as tube 48 in the embodiment shown in FIG. 1 or the fluid flow rate responsive device be connected.

It is clear that the fluidic properties of the Venturi tube are chosen so that when the first orifice 140 as a result of the fluid pressure is completed in the control line 122 by the control membrane 126. entering line 134 Fluid is forced through a second port 150 and an overpressure in that of the second Tube 148 formed output line 152 developed If by means previously described, ζ. Β Inserts, or in some other way the fluid pressure in the control line 122 is reduced, then flows to the Control fluid passes through venturi 135 and orifice 140 and enters Atmosphere, creating a negative pressure at the orifice 150, creating a reverse flow of fluid through the output line 152 seeks to effect.

1 sheet of drawings

Claims (5)

Patent claims: 1. Fluidic control device, with a base block provided with a recess on a top surface, having at least one output line communicating with the recess, a control membrane stretched over the recess, one arranged on the side of the control membrane facing away from the base block, one perpendicular to that facing the control membrane A cover block having a control line opening into the top surface, an input line opening into the recess and at least one ventilation duct communicating with the output line, characterized in that the π input line (34; 134) in the cover surface of the base block (14) facing the control membrane (26; 126) ; 114) opens into the recess (42; 142); that the mouth of the input line (34; 134) is surrounded by a protruding annular lip (44); that the control diaphragm (26; 126) rests flat against the cover block (12; 11 ) in the normal position and seals the control line (22; 122) and that the control diaphragm rests against the annular lip (44) in a sealing manner when the control pressure is applied. - '"> 2. Fluidic control device according to claim 1, characterized in that the mouth (28) of the control line (22, 122) has a larger cross section than the mouth (40, 140) of the input line (34; 134). 1" 3. Fluidic control device according to claim 1 or 2, characterized in that the inlet line (34; 134) between its inlet (36) and its mouth (40) in the recess (42) has a substantially constant cross section; and that the output line (52) opens into the input line (32) between the inlet (36) and the mouth (40), the pressure at the mouth (50) of the output line (52) being positive and then negligible at the control pressure is small if .the mouth (40) of the input line (34) is in communication with the atmosphere. 4. Fluidic control device according to claim 1, characterized in that the input line (134) between its inlet (136) and its ^ mouth (140) in the recess (142) has a Venturi tube (135) in which the mouth (150) the outlet line (152) is arranged essentially at the narrowest point, so that the pressure at the opening (150) is positive when the control pressure is positive and ^V) is negative when the opening (14) is connected to the atmosphere. 5. Fluidic control device according to one of the preceding claims, characterized in that the cross section of the recess (42; 142) ^ν > is significantly larger than the cross section of the input line (34; 134), so that a relatively low fluid pressure in the control line (22 ; 122) for closing the mouth (40; 140) of the input line (34; 134) against a relatively ^hl) high fluid pressure is sufficient in the input line.