DE839432C - Device for the quick opening of valves - Google Patents

Description

Device for quick opening of valves on actuators for compressed gas or compressed air valves and aims a quick opening as well as relief of the opening means while maintaining the open> valve position after valve opening under: \ rrwendtrrrg new Aids. This also includes such aids to the invention that although the () Keep the valves open, but only rigidly (ituil the means to Form opening of the valves.

The earthing can be used as a combination of opening means for the valves and means for holding the valves open or supporting theirs () watch iten'halten.

The invention also has the combination of new means with lr ^ rcits known means and the lionrl) iiratiorr known 'means to the subject. So far, for example, electromagnets have served as means for opening the valves. In most cases an electromagnet is sufficient. But it should be a very fast one Effect can be achieved, then the electromagnet results in significant disadvantages. the Self-induction of an electromagnet prevents the rapid generation of the electromagnetic Field and causes a noticeable delay in the actuation of the valves.

Furthermore, pneumatic servomotors were used to open the switches related. The servomotors were made to respond by opening a valve. Through the valve one side of a piston, a plug or a Membrane put in contact with the free atmosphere, which was previously through the the pressure exerted on both sides were in equilibrium. These devices too work usually with a certain delay and, moreover, do not allow that the valve regulating the gas flow remains open when the pressure exerted the pneumatic Servomotor operated, from which gas flow is diverted, which is passed through the main valve flows, especially when the gas leak is a rapid drop in gas pressure has the consequence.

Such servo motors, which act as a pressure relief device, can be regarded as parts of the combination of elements which are the subject of the invention is, or as devices to which the invention can be applied, there the pressure outlet opening of a pressure relief device represents an outlet opening, for which the same objects exist that are achieved by the invention should.

As a particularly suitable new means for opening the Valves, an actuating device may be mentioned, which consists of one or more in conductors located in a magnetic field. This arrangement gives an essential one Reduction of the self-induction and thus a shortening of the response time of the Operating circle. Another advantage is that the arrangement is considerable is lighter than the armature of an electromagnet, so that the effective speed the arrangement can be considerably larger.

The force exerted by the operating conductor is for the same effort electrical energy considerably greater than that supplied by an electromagnet Force, so that the capacity of the electrical power source required to operate the Valves is used (accumulator or rectifier), can be reduced.

The conductor or conductors can consist of a lightweight coil with a consist of a small number of wires, which consist of a light metal wire with good conductivity, z. B. aluminum wire are formed.

The magnetic field can be generated by a permanent magnet or by a permanently energized electromagnet or from a shortly before the actuation circuit closes energized electromagnet exist.

Another means can be any by an electric motor Type, an electromagnet, a coil or the like, which are intended to to operate the valve regulating the gas flow, with a strong current pulse dem electric motor, the electromagnet, the coil or the like. A very fast initial movement issued, after which the strong current pulse is replaced by a normal current, the maintains the effect of the impulse.

According to the invention, various specific means for generating of the current pulse can be applied. Such a means is e.g. ; B. by electrical Resistors formed, the value of which increases with the duration of the load, and those made up of heating resistors can exist with a positive coefficient of resistance, such as B. electrical Light bulbs connected in parallel or in series. Another remedy can z. B. consist of one or more fixed resistors, which suddenly in the circuit of the electric motor through electrical and electromechanical Means to be switched on. Another remedy is formed by different levels of tension Current sources in such an arrangement that the entirety of the sources or the most of them switched on during the intended duration of the current pulse is one of these sources while for the maintenance of normal electricity remains switched on alone.

According to the invention, a capacitor can also be used which is connected in parallel to the power source and is charged by it. The sudden one Discharge of the capacitor results in the strong current pulse, which leads to a fast Start-up of the electric motor is required while normal energy is through the normal power source is supplied. In this case, one or more Resistors in the circuit must be switched on.

According to the invention, a compressed gas whose pressure controlled by an electromagnetically operated valve, suddenly expand and actuate the pneumatic motor, which in turn acts on the valve to be regulated acts.

The invention provides as a new device that the pressure of the uses flowing gas to hold the valve in the open position, so z. B. a device that exerted by the flowing gas on the valve Can reinforce impact effect or a device that works in the event of a leak Pressure medium from a closed space the decrease in the impact of the outflowing Gas on the valve.

An embodiment of the first-mentioned device has a Outflow opening of protruding or nozzle-like shape, while the surface of the valve is provided with a bell-shaped body which covers the nozzle in such a way that that the bell on the one hand limits the expansion of the gas, but on the other hand a sufficient distance between the walls of the nozzle and the bell walls leaves so as not to prevent the gas from flowing out.

In one embodiment for the last-mentioned embodiment the device is designed so that the cross section of the outflow opening is proportionate changes to the outlet port of the valve, thereby accelerating the opening of the valve will.

A third embodiment is formed by a device in which accelerates one side of the piston by a jet of compressed gas under pressure is set, from the other side of the piston and preferably in the axial direction the jet of pressurized gas passes through the outlet opening.

The devices which are used to compensate for the deterioration in the impact of the flowing gas due to the pressure drop of the gas can be different Be execution. A first embodiment of such a device consists of a pressure relief device connected to a compressible, hollow body is combined, its interior with the outer atmosphere by a Outlet opening is in communication. The cross section of the outlet opening changes in the same way as the released opening of the shutter valve. At this Device takes the pressure of the gas in <[a hollow body which the valve against the outlet opening presses, to the same extent as the pressure of the through the outlet opening of the outflowing gas decreases and the shut-off valve vgn the outlet opening strives to take off.

Another embodiment is formed by a device which regulates the gas flow and is actuated by a pneumatic motor which, in turn, is operated by the pressure diverted from the flowing gas. This device is kept in the open position by the vortex of the compressed gas in the pneumatic motor, the original pressure of which is restored by the automatic re-closing of the motor's inlet valve. The inlet valve may be by an electromagnetically operated valve or by a pneumatic device, e.g. 13. a pressure release device, which in turn is controlled by an electromagnetically operated valve.

The mode of operation of the invention is shown below in several exemplary embodiments explained which are the simplest embodiment in order to improve their principle to make understandable.

The drawings schematically illustrate several exemplary embodiments the invention.

Abbot i and 2 show two forms of actuation of an exhaust valve a current pulse; Fig. 3 and 4 give cross sections of one in a magnetic field arranged coil again, which actuates a valve; Alb. 5 illustrates the combination a pneumatic motor for a valve that regulates the flow of a compressed gas, with a depressurization device operated by a solenoid operated valve is controlled; Fig.6] shows a device in which a valve is below the action of compressed air is kept in the open position; Fig. 7 shows a Similar device in which the cross section of the gas The available space corresponds to the cross section of the outflow opening released by the valve changes; Fig.8 shows the combination of the valve with a hollow, compressible one Body again, the outlet of which changes in the same sense as that Cross section of the outflow opening released by the valve; Fig. 9 represents a combination the devices shown in Fig.7 and 8; Fig. Io illustrates a pressure relief valve, welclies releases an axially directed jet of compressed gas. Fig. I and 2 represent two special embodiments represent, with «-elchen an outlet valve by an electric one The motor is operated, when the initial impulse has produced its rapid effect, a resistor of a certain value is switched into the circuit here. .

i is the power source which the motor 2 via the switch 3 the supplies the necessary energy. In this embodiment, the current pulse directly supplied to the electric motor 2 from the source i, during the normal Current from the same source flows through resistor 4.

To achieve the current pulse, the resistor 4 is above the switch 6 short-circuited, which is actuated by a relay 5 connected in parallel with motor 2 will.

The arrangement has the following effect: When the valve 7 is closed is, the switch 6 is closed. By closing switch 3, the Normal voltage current of source i suddenly to the servomotor, d. H. the electromagnet 2 supplied so that there is an accelerated response of the latter. That Exhaust valve 7 is pulled down and allows the outflow of the in the tension cylinder 8 contained pressurized gas to the outside, so that inside the cylinder the atmospheric Pressure adjusts. At this moment the coil 5 of the relay opens the switch 6, which turns resistor 4 into the circuit and a normal Power is fed when the voltage is reduced.

To prevent the power source from suddenly dropping in voltage when switching on, a capacitor can be connected in parallel to the power source, which acts as an auxiliary source and provides an additional energy that sustains it the original tension allowed.

In the same way, the coil 5 of the relay can operate a changeover switch, which after switching on the electric motor 2 switches off the source of higher voltage and energize a lower voltage source in the circuit. This switch can, if necessary, carry out several power sources originally connected in series Switch suitable intermediate contacts in such a way that the motor is activated after the initial impulse has been given a reduced voltage is applied. In such a case it will be natural the resistors are superfluous.

According to the embodiment of Fig. 2, a capacitor 9 is parallel connected to the electric motor in the circuit, namely between the switch 3 and the resistor 4.

During the rest period, the capacitor 9 is connected via the resistor 4 charged by the power source i. If the actuation switch 3 is closed, so the sudden discharge of the capacitor creates an initial current pulse which brings about an accelerated response of the electric motor2. After subsiding of the pulse, the normal current continues to flow through resistor 4. When the power source i the necessary Supplies normal current, then the resistor can 4 omitted and the initial current pulse due to the interaction of the current source and the capacitor.

The embodiments illustrated in Dependencies 3 and 4 relate to the electrical actuation of valves by provided in a magnetic field Wash.

According to Fig. 3 ', the conductor or conductors through which the response of the valves is effected in the form of a coil 2, which is on a lightweight .Spulenkör io is provided. As soon as a current flows through the coil, the coil moves in the annular air gap of a magnetic circuit in the axial direction. Of the magnetic circuit consists of the core i i provided with an excitation coil 12, the yoke 13 and the legs 14. The coil io divides its movement by a suitable one Transmission form with the valve regulating the gas flow. The transmission facility can e.g. B. be formed by a rod 15, which has a cutting edge 16 on a Lever 17 acts. The latter pivots about a real or a geometric axis 18. The end of the lever, not shown in the figure, actuates the aforementioned valve. The lever can optionally directly carry a valve, so that it is hot down through the conductor or the conductor of the coil 2 the valve the outflow allows a certain amount of pressurized gas, which is in any vessel, for. B. in one Cylinder or in a hollow body, in which see a piston, a closure member b that moves a membrane.

Instead of pulling the coil io can also act by pushing it, like it Fig.4 shows. The numbers 2 Iris i8 denoted the same parts as in : 1bb. 3. If a current flows through conductor 2, the coil presses io on the punch of valve i9. In the embodiment, the valve is through the in the housing 2o prevailing pressure in the rest position and kept closed by the compression spring 21. The line 22 is via the outlet opening 23 under the pressure of the free atmosphere. If an appropriately directed current is sent through conductor 2, the valve will i9 pushed down and closes the outlet port 23 at the moment in which the valve connects the interior space 20 with the line 22, so that the pressurized gas in the line 22 can flow in.

The invention is not limited to the illustrated embodiments limited. So z. B. the coil 12 can be omitted, which in the shown Embodiments generated the magnetic field. If the coil is omitted 12, the magnetic field can be generated by a permanent magnet, which z. B. can win that the magnetic core partially, z. B. the core i i, or is formed entirely from a material with high magnetic remanence.

The embodiment shown in Fig. 5 does not reproduce the valve regulating the gas flow. This valve is operated by a pneumatic motor. It is actuated by the compressed gas branched off in front of the valve. The inlet valve is directly connected to the piston of the pneumatic motor. The movement of the piston is regulated by a pressure relief device which in turn is controlled by an electromagnetically operated outlet valve. In Fig. 5, 24 denotes the line connecting the pneumatic motor to the compressed gas source and 25 denotes the master cylinder of the pneumatic motor in which the piston 26 provided with the piston rod 27 slides. A housing 28 is arranged on the cover of the cylinder 25. The line 24 opens into the housing. The upper part of the housing 28 forms a cylinder in which an auxiliary piston 30 slides. The auxiliary piston 30 is connected to the inlet valve 32 via the rod 31. On the top of the cylinder 29, an opening 33 is provided which is closed in the rest position by the electromagnetically operated outlet flap 34.

The arrangement has the following effect: In the rest position the outlet flap 34 closes the opening 33. The pressure in the cylinder 29 and in the housing 28 is constant and balanced as a result of the compressed air passing between the piston 30 and the wall of the cylinder 29. The auxiliary piston 30 and the inlet valve 32 are under the influence of their own weight or the compressed air or a spring (not shown) acting on the piston 30 in the lower position. The piston 26 is held in its upper position by means not particularly reflected. In order to set the pneumatic motor in motion, a direct or indirect action on the outlet valve 34 is sufficient. If the outlet valve 34 is opened, the space ol> erhalli of the auxiliary piston 30 is connected to the free atmosphere. The pressure prevailing in the housing 28 then acts on the underside of the piston 30 and pushes it quickly upwards, so that the inlet valve 32 is opened. This results in the connection of the housing 28 to the cylinder 25 and means that the pressure prevailing in the latter acts on the upper side of the piston 26 and presses the piston 26 downwards.

To effect the reverse movement of the piston 26, the closing of the opening 33 by the flap 34 is sufficient, with the result that the pressure on the upper side of the auxiliary piston 30 increases again, and the piston 30 is pushed downward. As a result, the inlet valve 32 is closed again and the connection between the housing 28 and the cylinder 25 is interrupted. Compressed gas can now no longer flow to the cylinder 25. If the pressure in the cylinder 25 is released through an outlet valve (not shown), the piston 26 moves upwards again.

The invention can be applied to numerous valves. she is however, it is particularly intended for the control valves of compressed air switches.

Fig. 6 shows a valve in which a cylinder surrounds the opening of the compressed gas line like a bell. The cylinder has in its upper part the valve plate 36, which. line 35 closes. Welln (read valve 36 from its seat- Gehol) eiiwwill, the pressure of the outflow acts Compressed air on an area that is significantly larger than the opening cross-section of the line 35. Here- the compressed air amplifies the effect of the Valve 36 actuating solenoid so that (read the valve a substantial acceleration experience. : 11) 1 ) . 7 gives a _lusfülli'trrlgsl) example again, (read gCC1155 @ 1'lllaßell vain 7tls @ it7lostlllg to the jll i \ 1) 1). 6th shown-eii embodiment represents by itself de 1- Cross-section of the discharge opening of the pressure gases into the open finite (learning released by the valve Cross-section of the discharge opening of the pressurized gas line tion changes. In Fig. 7, 37 means the cylinder, in which one is provided with the piston rod 39 KOII) Erl 38 slides. The pressure release from the cylinder which takes place through the pressure relief opening 4o, the through (read 1) i-tickal) let valve 41 is closed. Before- licgeii (Ieiifalls is (read valve 41 on a lever 42 ordered by one: lclise oller an appropriate t1c1111111e11ei1Punkt 43 pivots and by an or inchrere springs 44 111 held in the closed position tvird. : '\ 1i place of the spring can of course also any other suitable means of maintenance Provide for a more closed position of the valve. The valve 41 can be 1) 'for example by a Activate electromagnet 45. It is from a cy- linder 4 (umgelxn, the same, at the same time the in form an I) iise formed pressure relief opening 4o des Cylinder 37 surrounds. The cylinder 46 is with off- length 47 provided when the valve is closed 41 completely oller partially through a piston ring 49 are locked. The changeable one: '\ tisströmraum is located between the walls .48 the exit flow (> ttnung 4o, (learn cylinder 46, valve 41 and (learn piston ring 49. With the opening of the valve tils 41, the cylinder 46 slides down so that the openings 47 are released and the on the underside of the piston 38 located compressed air can escape. Fig. 8 shows a pressure relief valve that is associated with a collapsible convoluted container is loud. This vessel 34 is on (learn Iehel 53 pre #s ellen, on R "elcllcrl, similar to i \ 1) 1) .7, a spring acts. Is the valve closed? (tann is (read vessel 54 is filled with pressurized gas, since it is via the opening 55 finite (learn inside the cylinder 5o in connection stands. Inside the vessel 54 is the cylinder 56 is provided, which serves as a guide for the vessel and atif.iertleiii the free interior of the vessel decreased. 111 (Icr closed position of valve 52 presses (read elastic vessel 34. which under (learn inflow of ill it ruling 1) rticl; to expand it 1) e- sti-eht is, (read valve 32 against his seat. The one in front Vessel 34 <ttiääte 1) i-ttclc leaves a less strong l'cillessttllg the atif den Iel> el 53 acting spring ztt. The GeF: iß 54 attcll offers yet another Advantage. The pressure exerted by the spring 44 has always the same size, so (let the 'occur an unprecedented print in cylinder 50 there is a risk that the valve 52 will open. However, the vessel 54 prevents such an opening, because when the pressure in the cylinder rises, the pressure in the vessel 54 also rises. The latter then presses more strongly on the valve 52, so that the tightness of the valve always remains the same.

If the valve 52 opens under the influence of a rite-speaking force, such as, for. B. in Fig. 7 by the force of an electromagnet, then the irii elastic vessel 54 located compressed air flows out through the opening released by the valve 52 and the pressure in the vessel 54 decreases to the same extent as in the cylinder 5o. The pressure exerted by the vessel 54 on the lever 53 decreases to the same extent as the pressure in the cylinder 50 and in the vessel 54, so that the valve 52 opens very quickly. In order to compensate for the slightly pivoting movement of the valve 52, the vessel 54 can be arranged on a spherical pin 57 which allows the vessel to pivot slightly Vessel 54 and to the desired extent equalizes the pressure exerted by the compressed air on the surface of valve 52 acted upon by opening 51. When valve 52 is opened, vessel 54 is compressed and the compressed air in it is emptied. The latter flows through the channel 55. At the same time, the pressure at the passage opening 51 is brought to drop to atmospheric pressure.

Fig. 9 can be a combination of the embodiments shown in Fig. 7 and 8 recognize, wherein an electromagnetic device is provided for actuation. Here the valve is actuated by one or more conductors forming a coil 58. The coil 58 is in the magnetic field of the electromagnet 6o, which is created by the winding 59 is excited. A permanent magnet can also be provided in place of the electromagnet be.

The effect of the compressible vessel 54 shown in FIG. 8 can be increased in that one or more springs 61 are accommodated within the cylinder 56, which springs act in the same way as the vessel 54 under pressure. If a current is sent through the coil 58, then the coil moves downwards with the valve 52 being carried along. The pressure relief opening, like the outflow openings 49, is now released. At the same time, the vessel 54 and the springs 61 are compressed and the compressed air is expelled from the vessel. The compressed air flows out of the vessel through the channel 55. In this way, a weak tensile force exerted on the valve 52 quickly brings the cylinder 50 to atmospheric pressure, so that its piston can take effect without any appreciable delay.

Fig. I, o shows another embodiment of a pressure relief device after the invention again. 37 is the cylinder in which the; with the piston rod 39 piston 38 slides. At the bottom of the cylinder is the pressure relief port 4o, which in the idle state of the cylinder by the Valve 41 is closed. A channel 62 is drilled into the piston rod 39, which Has side channels 63. The cross-section of the individual side channels is smaller than the cross-section of the channel 62. The sum of the cross-sections of the side channels can exceed the size of the cross section of the channel 62. At the mouths of the canal 62 and the channels 63, filters (not shown) can be provided.

According to the invention and according to the graphic representation the channel 62 is provided coaxially to the outflow opening 4o. The through the Compressed air flowing off the upper side of the piston leads to the lower side of the piston through the suction it creates an accelerated exit of the compressed air located on the underside of the piston and increases the shock effect exerted on the valve 41 by the compressed air.

The operation of the arrangement is as follows: The piston 38 is through Means not shown in the drawing, e.g. B. by a spring, in its rest position brought back. The pressure relief opening 4o is closed by the valve 41. The compressed air fills the upper part of the cylinder 37 and flows through the channels 63 and 62 in the lower part of the cylinder so that the same pressure on both Sides of the piston prevails. To set the pneumatic motor in motion, the valve 41 is actuated directly or indirectly, so that the overpressure at the pressure relief oil opening 4o drops to atmospheric pressure. In that moment there is balance canceled, which allowed the piston 38 to remain in its rest position. Of the The pressure prevailing on the top of the piston quickly drives the piston into its own End position down.

It is sufficient to move the piston in the opposite direction it to close the opening 4o through the valve 41 again. The pressure arises then quickly on both sides of the piston 38 again, causing the aforementioned return spring is able to return the piston to its original position.

The invention also relates generally to pneumatic motors and motors particularly to devices in which the piston 39 is connected to a valve that regulates the flow of a gas or liquid under pressure.

Claims (20)

PATENT CLAIMS: i. Device for the rapid opening of valves, characterized in that the impact of an outflowing gas keeps the valve in the open position, so that the valve-opening means can be relieved when the valve is kept open. 2. Device according to claim i, characterized in that electromagnetic means are provided for opening the valve are. 3. Apparatus according to claim 2, characterized in that the valve with one or more electrical conductors is connected, which are in an electromagnetic Move field. 4. Apparatus according to claim 2 and 3, characterized in that the electrical conductor or conductors actuating the valve form a coil. 5. Device according to claim 2, characterized in that the conductor with electrical Means is combined that the tensile force of the electrical conductor when opening the Valve experiences a gain. 6. device according to claim 2, characterized in that that the electrical conductor is combined with means at the moment of opening of the valve in the conductor generate an initial impulse by means of a stronger current ;. 7. Apparatus according to claim 2 and 6, characterized in that the electrical Conductor is combined with means that reduce the initially flowing current in it, when the valve has opened. B. Device according to claim 2, characterized characterized in that electromagnetic means are connected in series with a resistor and the possibility of short-circuiting the resistor at the moment the valve opens is provided. 9. Apparatus according to claim 3, characterized in that electromagnetic Means are connected in series with a resistor, the value of which increases over time. ok Device according to Claims 8 and 9, characterized in that the resistor has a heating element with a positive temperature coefficient. i i. contraption according to claims 8 and 9, characterized in that the resistor is electric incandescent lamps contains. 12. Apparatus according to claim 8 and 9, characterized in that one Possibility of sudden disconnection of the means short-circuiting the resistance is provided after the application of a current pulse in the electrical conductor. 13. The device according to claim 2, characterized in that one of the electrical Current provided for the electrical conductor supplying power source and a capacitor is connected in parallel to the power source and switching means at the end of the off the power source, conductor and capacitor of the existing electrical circuit are provided. 14. The device according to claim 2, characterized by the combination a relatively high voltage electrical power source for feeding a electrical conductor with etinef electrical power source relatively lower Voltage, which also supplies current to the conductor, and a changeover switch for alternating connection of the conductor with one or the other Power source and a delay relay for operating the changeover switch. r, 5. Device according to claim 2, characterized by the combination of several Power sources for feeding the conductor with electricity with a relay and a through the relay actuated switches in such a way that he single of the power sources Switch off from the circuit of the electrical conductor and switch on in this can. 16. Apparatus according to claim 2 and 5, characterized by pneumatic means to increase the force acting at the moment of opening on (read valve. 17th Device according to claim 2, characterized in that the outflow opening is a Discharge nozzle with a valve for opening and closing by electrical means and that the valve is provided with a cylindrical shell which the outflow (liise encloses a bell-like distance at a distance. 18. Apparatus according to claim 17, characterized in that in the walls of the Zvlin (lerliiille as a function openings which become free from the opening movement of the valve are provided and The free space between the nozzle and the cylindrical shell changes accordingly the opening of the valve changes. i g. Device according to claim 17, characterized in that a cylinder is connected at one end to the discharge nozzle and at an intermediate point to a source of pressurized gas, and a piston is slidably arranged in the cylinder between the discharge nozzle and the intermediate point, the cylinder having a leakage opening for comprises the overflow of the compressed gas from one side to the other side of the cylinder. 20. Apparatus according to claim ig, characterized in that the piston has a piston rod with her and the Coaxial discharge nozzle leading from one side of the piston to the other side of the piston Has channel inside and the channel in the piston rod has transverse outlets in the form from into the cylinder space on the side of the piston opposite the discharge nozzle having opening transverse channels.