DE1600424C - Delayed, diaphragm-controlled, logical three-way valve for flow media - Google Patents

Description

3 4

Excitation pressure alone for a switchover of the valve bundle. The feed line 13 belongs to one of the hebeis contributes, but this switchover, not shown any further in the figure, belongs to a considerably greater force and thus considerably in which a pressure (feed pressure) P ₂ ^ P ₁ prevails. Which is effected more quickly. The period in which the useful line c is connected via a line 16 to the useful three-way valve in neither of its two discrete 5 circle. The outlet line e corresponds to the positions, is thus considerably shortened. Man free atmosphere in connection,
thus receives an element that works in a practically binary manner. The three-way valve works as follows:
In addition, this ensures that the desired construction, the force effect of which exceeds the force of the spring 9 delay precisely and easily reproducibly, as soon as in the exciter chamber 6 a pressure on the structural design is built, the valve lever 5 begins in its other will. tilt discreet location. First he gives the

According to a further development, the connection opening of the feed line d can be free, so that this one line is connected to the feed line and vented on the one hand with the utility line c and on the other hand with the outlet line. In this way the outlet line e is connected. Due to the minimal additional design effort on this. Due to the pressure decrease in the connection initiation of the valve actuation, which occurs for a short time in lines 14 and 15, the chamber is suddenly vented on one side of the pressure reduction in the sub-chamber 7, namely a membrane becomes moreover when the valve finally, on the one hand, because of the outflow of pressure medium through responds, the switchover occurs particularly quickly before the outlet line e and, on the other hand, because of the flow. 20 change of pressure medium in the utility line c. the

The connection connected to the utility line. Pressure reduction in the subchamber? occurs even then

line at which the delayed pulse on when the outlet line e replaces the free one

stands, can be connected with a further line to the pathogen atmosphere with a memory, in

chamber of a diaphragm-controlled three-way valve, the pressure is less than P ₂ . Due to the

Changeover switch lead. The excitation pressure can also reduce the pressure in the sub-chamber? they change

by a three-way pressure ratios on the membrane 8 after the source in the sense of a

valve switch can be switched on. very rapid actuation of the valve lever 5, the

In the drawings, exemplary embodiments are finally the invention at the end of its tilting movement illustrated, namely make the laßleitunge closes and thus the outflow F i g. 1 to 4 four embodiments of the invention 3 ° terminated by fluid. The pressure in the useful line c reaches 80% des in a very short time

According to FIG. 1 has an on-delayed mem- feed pressure P ₂ . A clear operation of the three-line controlled logical three-way valve 1 for directional control valve is thus ensured.
Fluid a first chamber 2 and a second. The spring 9 can also be omitted. A chamber 3. The first chamber 2 is the actual tilting movement of the valve lever 5 thereby becomes a three-way valve, while in the second it accelerates further, and the pressure in the utility chamber 3 around the actuator of the three-way valvec almost instantly reaches the Feed valve acts. The two chambers are of impression P ₂ .

the other is separated by a dense wall4, on which in Fig.2 there is a slightly modified triangle Valve lever 5 is pivotably mounted. 40 directional control valve Γ shown, which differs from the according to

The second chamber 3 is itself again in two figures. 1 differs in that the spring 9 is divided into sub-chambers, namely in an excitation chamber 6 is arranged so that it is on chamber 6 and a sub-chamber 7, which exerts a pressure through a membrane 8, which are separated from one another with regard to deformable membrane are. its effect is added to the exciter pressure. The one in the chamber 7 housed spring 9 45 excitation pressure is now via the control line b holds the valve lever 5 in its in FIG. 1 illustrated supplied. The feed line 13 is in the controlled rest position. line α connected. The to the first chamber 2 of the

To the excitation chamber 6 is a control line α three-way valve Γ connected feed line or and to the subchamber? a control line b connected - the outlet line have reversed their roles. Im closed. Likewise, in which the three-way valve 50 the rest of the function corresponds, as can easily be seen, the first chamber 2 forming a utility line c, one of those of the embodiment according to FIG. 1.
Feed line d and an outlet line e, which are shown here in FIG. 3 illustrates a further free execution empties. The feed line d and the outlet form with a three-way valve 1 α and a three-line e are from the valve lever 5 depending on its directional valve switch Ib. The excitation takes place in the closed position. In the case of the in FIG. 1 shows 55 again via the line 10, which here closes the control lights rest position of the valve lever, he closes line α of the three-way valve 1 α is connected. the mouth of the feed line d in the first chamber The feed line 13 is to the three-way valve 1 α and mer 2, so that this and thus the utility line c via the three-way valve switch 1 & to the outlet the outlet line e is vented. line e connected. On the three-way valve 1 α is at

The control line α of the excitation chamber 6 is connected to a line 17 60 of the utility line c , which is connected via a line 10 to a fluid under pressure (exciter with the control line α of the three-way valve changeover pressure) P ₁ from one in the ters 1 b . A connecting line 18, not illustrated in the figure, pressurized medium source produces a fluid connection of the line 17 via an adjustable fluid throttle 11 and to the sub-chamber 7 of the three-way valve 1 a . a fluid capacity 12 is supplied. 65, the connection to the useful circuit producing control line b of the sub-chamber 7 is provided with a food grade line 16 is connected to the utility line c of the three-way line 13 and the feed line d connected via connecting valve change-over switch 1 b. On the three lines 14 and 15 with the feed line 13, the displacement valve 1 α is connected to the feed line d with a pressure

5 6

connected medium source, the pressure of which is lower connected to the outside space. In Fig. 4 is again as the feed pressure P ₂ . If necessary, the rest position of the three-way valve 1 α and the three-three-way valve 1 α with the feed line d can also be shown in the directional valve switch 1 b . Is the line open free. Also, the three-way valve switch 20 without pressure, there is the valve lever 5 of the three-way-1 b opens with its feed line d to the outside. 5 valve switch 16 in the shown in the figure

The three-way valve 1 α and the three-way valve- illustrative position. Accordingly, the exciter switch 1 b are shown in FIG. 3 in the state dar- chamber 6 of the three-way valve 1 α out of the utility position in which they are when no supply c of the three-way valve switch 1 b exciter or. Excitatory pressure acts on them. If the pressure F _{1 is} applied and the valve lever 5 of the feed pressure P _{2 is applied} via the feed line 13, the three-way valve 1 α remains pivoted so that the three-way valve 1 α is further closed in the illustrated feed line 13. If a pressure builds up while the three-way valve switch 1 b of the line 20 builds up, the valve feed pressure P ₂ is fed via the line 17 into its levers 5 of the three-way valve switch 1 & tilted regerkammer6 and therefore receives the and thus the supply of the three-way valve 1 a valve lever 5 tilts into a position in which this 15 is interrupted with excitation pressure. Its valve, the confluence of the feed line 13 into the three lever 5 tilts into the position shown in FIG. 4 illustrated directional control valve switch 1 b closes. Will now return to the position. The feed line 13 is thus with excitation chamber 6 of the three-way valve 1 α on managerial line 16 connected to the useful circuit. As soon as the _{device 10 is supplied with excitation pressure P 1} and valve lever 5 of the three-way valve 1 α exceeds this Kippbedieser finally the force of the spring 9, so the 20 movement begins, occurs in the sub-chamber 7 a pressure valve lever 5 of the three-way valve la in a position, there this via the connecting line 19 in which it closes the confluence of the feed line 13 in the bond with the feed line 13 and thus with the three-way valve 1 α . As a result, the feed pressure is P ₂ . This leads to a rapid tilting pressure in the exciter chamber 6 of the three-way valve process of the valve lever 5 reduced by the support of the switch 1 b , the valve lever 5 of which tilts 25 venting process of its exciter chamber. Also in the in F i g. 3, and here, after the reversal has been carried out, the line 16 supplies the useful circuit from the feed circuit to the useful circuit a pressure is available,
line 13 ago with fluid. In the production of the three-way use of the three-way valve changeover switch described, such known designs can be used in particular that at the end of the delay the 30 den. Pressure that is already in use at its beginning can also be made available again in the three-way valve of the known type of the above BeLeitung 16. Spelling can be converted accordingly. The for

In Fig. 4 is also an embodiment with the pathogen pressure and the feed pressure using a three-way valve 1 α and a Dreiwegeventil- th pressure values are arbitrary, as long as the feed switch 1 shown b. Here the control line pressure P _{2 is} smaller than the excitation _{pressure P 1} . The device b of the three-way valve 1 α via a connection difference between the two is so large to the connection line 19 connected to the line 16, that the pressure difference is the force acting on the diaphragm 8 via that of the useful circuit on the useful line c of the three to overcome the spring 9 in the directional control valve 1 α is connected. The feed line location is. Practical values for the pressure are 13 which opens again at the outlet line e at the three 40, for example P ₁ = 1.4 bar, P ₂ = 0.8 bar. With the directional valve 1 a. The line 10 for supplying the logical three-way valves with a structure can be used to replace the excitation pressure leading to the outlet line β on the electrical controls. This applies to the three-way valve switch 1 b. Can be according to the position of the other, where already a fluid is b in the three-way valve switch 1 available to the valve lever 5, subjected for control purposes herangewird the pathogen pressure on the Strömungsmittel- 45, or where the three-way valve throttles and fluid capacity 12 the control line α and thus the excitation chamber 6 must work in an explosive or at least flammable atmosphere, as in the chemical industry, the three-way valve 1 α supplied. The excitation chamber 6, the petroleum industry, pyrotechnics, etc. In addition, lead three-way valve switch 1 δ is supplied to the excitation parameters and thus the behavior of the pressure via a line 20. Both three-way valves are stant again via their 50 three-way valves over any length of time con-feed lines d. Maintenance work is not required.

1 sheet of drawings

Claims (4)

1 . 2 claims: control lines supplied control signals adjusted by their bulge the valve lever, whereby the 1. Response-delayed membrane-controlled control line opening into the excitation chamber via logical three-way valve for fluids with. ' a fluid throttle and a flow of a first chamber in which of three one 5 medium capacity with an excitation source, its pressure discharging lines (feed line, useful line - higher than the pressure supplied to the feed line device, outlet line) the feed line and the (feed pressure) is connected. Outlet line alternating from a valve It is already known ("Regelstechnik", 1962, levers can be covered, and a second chamber adjoining it, p. 410 to 412; "Maschinenwelt-Elektrotechnik"), in which a 10th 1966, p .44 to 46) that by interconnection with the valve lever, the chamber _: the individual inputs and outputs of such valves dividing membrane can be achieved on its the first part different logical functions chamber facing side by a spring, with delay effects biased is and become a reality with its other side. The response delay consists of the second sub-chamber (exciter chamber) closes 15 in that between the time of entry and according to the differential pressure between the control variable and the time of the actual response of the three-way valve to the control variable supplied to the two sub-chambers via control lines, a delay time is switched on. Such exercise adjusts the valve lever, with the control line opening into the response delays to the exciter chamber via 20 selmotor remote control systems, for example. With these one fluid throttle and one fluid flow, the engine must first be supplied with ignition air for a certain time, with an ■ medium capacity, for example, for 10 seconds, with prelubricating oil and pressure higher than that supplied to the feed line. The pressure (feed pressure) is connected to the fact that the control pulse is indicated for example with the aid of the that the first 25 push button is emitted. The actuation of the pressure sub-chamber (7) via a connecting line button leads directly to the start of the feed line (15, 14; 18; 19) with one of the three lines of lubrication pump and, on the other hand, is connected to a three line (utility line c, feed line d, outlet line e) given directional valve, which is automatically connected to a response of the first chamber (2) in such a way that a delay of 10 seconds causes and thus only the first sub-chamber is vented during the switch 30 after this 10 seconds after actuation of the valve lever. The pilot air valve opens. 2. Response-delayed diaphragm-controlled In the three-way valves of the above-mentioned logical three-way valve according to claim 1, of the known type, the response delay is characterized in that the connecting line is connected to the feed line (13) through the fluid throttle and the flow control (15, 14) medium capacity causes. The achieved response delay is closed and the outlet line (s) is vented. The smaller the throttle, the greater the 3. Delayed response diaphragm-controlled cross-section and the larger the fluid capalogical Three-way valve according to claim 1, that is citation. characterized in that the at the utility line should now theoretically be the three-way valve of the device (c) connected connecting line (18), 4 ° initially mentioned known design from his at which the delayed pulse is pending, with 'tilt one discrete position into the other as soon as another line (17) to the excitation chamber the pressure prevailing in the excitation chamber the (6) a diaphragm-controlled three-way valve membrane is applied with a force, the value of which is the Changeover switch (1 b) leads. counterforce acting on the membrane exceeds. 4. Response-delayed diaphragm-controlled 45 In practice, however, it has been shown that the reversal of the logical three-way valve according to claims 1 is not suddenly and in the context of an unambiguous and 3, characterized in that the exciter switching behavior takes place. Rather, a three-way valve changeover switch (1b) that can be switched on remains between the two pressure points (P ₁ ) through a desired discrete end position located after the source. the three-way valve for a period of time from not to 50 of negligible duration in an undefined one Intermediate state. That is undesirable. The object of the invention is to provide a three-way valve to create, in which after the desired. · .. ■ · period for the response delay an immediate The invention relates to a response-delayed 55 ger transition from the three-way valve to the controlled one Diaphragm-controlled logical three-way valve for discrete position takes place. Fluid having a first chamber in which this object is achieved according to the invention three merging lines (feed line, releases that the first sub-chamber via a connecting utility line, Outlet line) the feed line and the line with one of the three lines of the first Outlet line is alternately connected by a valve lever 60 chamber, such that the first part can be covered, and an adjoining chamber during the switching of the valve lever second chamber, in which one with the valve is vented. In this way it is achieved that im lever-connected meme dividing the chamber, moment of the beginning of the response of the triad on their valve facing the first subchamber and through this response itself out-side is biased by a spring and with its 65 called the difference of the on both sides of the on the other side a second sub-chamber (excitation chamber membrane suddenly acts on this mer) closes and increases sharply according to the difference, so that not the delayed build-up pressure between the two sub-chambers over and the counterforce only gradually overcoming