DE1600419A1 - Monostable device operated with a fluid to deliver output pulses of a certain duration - Google Patents

Description

Dr. Ing.E. BERKENfELD, patent attorney, KDLN, Univartitättttraße 31 Anlage ·,. Aktanztidiine

May 6, 1967 HN _{+ Nam # d Anm} CORNING GLASS WORKS

Corning, New York, USA

Monostable, fluid operated device for delivery of output pulses of a certain duration

The present invention relates to devices operated with a pluidum, and in particular relates to a monostable device operated with a pluidum, which responds to each input signal with an output pulse of a certain %

Duration supplies.

In a flow intensifier, a high energy fluid flow, hereinafter referred to as the working flow, generally enters a control caramer from a nozzle or orifice, the nozzle or orifice being constructed so that the working flow is well delimited in space; this working flow is directed to a receiving opening by the pressure distribution in the boundary layer area of the working flow. This pressure distribution is controlled by the shape of the wall of the control chamber, the energy level of the working fluid, the Transportiharakteristika of the fluid, the back pressure of training laßkanäle μ of the amplifier and by the current from the Steuerfluidum Grenzsehichtberelch.
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According to Bernoulli's theorem, the generates at high speed working flow emerging from the working flow opening on the walls of the control chamber areas low Pressure; this, and in part the shape of the control chamber, has the effect that the working flow is directed to a side wall the control chamber "applies" and without any control fluid flow remains in this contact position. A flow of control fluid can be supplied through control fluid openings from which a control flow emerges which towards the working flow is aligned and runs essentially at right angles to this

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In the case of a bistable flow amplifier, the working flow can flow through the control flow to the opposite wall deflected towards the control chamber and caused to adhere to this opposite wall as described above applies and remains there even after switching off the control flow. In the case of a monostable flow amplifier, the Apply the working flow to a wall only. You can to opposite wall are deflected, but only as long as a corresponding control flow is maintained, that is, when the control flow is interrupted, the working flow automatically returns to its contact position on the first wall back.

Opposite the working flow, the flow amplifier is provided with two outlets or fluid receiving openings or channels, which are arranged in such a way that when the working flow in a bistable or in a monostable device is applied to a wall, essentially all of the fluid in the working flow into one of the outlet channels is directed, and if the 'working flow is applied to the other wall or is diverted to the other wall, j # whether it is a bistable or a monostable device, substantially all of the fluid of the working flow is directed into the other outlet channel. The so guided into one of the fluid channels, or both may be delivered as desired at a working or Verbrauchsvor- w direction.

A flow of low energy can be the well-limited, high-energy Deflect the working flow so far that a substantial part of the flow is given into one of the outlet channels, while the integrity or good delimitation of the working flow is maintained even after the two flows have acted on each other remains, so that the total energy or the change in total energy emitted through this outlet channel is greater can be than the energy or the change in energy required to carry out this deflection

With a normal, monostable flow amplifier, where the working flow is stable when it passes through an exhaust port

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flows, in which the working flow is continuously diverted must be in order to get into the other outlet channel, the working flow only flows through the other outlet channel as long as to which it must be deflected, so that it is the unstable flow condition, like the Control fluid flow is present; that is, the duration of the flow of the working flow in this unstable one State through the second outlet channel is directly proportional to the duration of the control fluid flow. For certain applications it has been found desirable to have an outlet pulse of definite and controllable duration, the duration of this pulse being essentially independent of the Duration of the inlet signal is. One such use case is in the concurrently filed United States patent application of Robert H. Bellman, Serial No. . entitled "High Frequency Fluid Pulse Counter".

The present invention is intended to provide a flow device create, which generates an outlet pulse of a certain duration for each individual input signal.

The invention is also intended to provide an economical flow device create in which the duration of the outlet pulse can be precisely determined in advance.

Another object of the invention is to provide a flow device in which the duration of the outlet pulse is substantially independent is on the duration of the inlet signal.

In addition, the invention is intended to provide an economical flow device that works in a predictable manner.

In general terms, the present invention provides a flow device having an inlet means for the delivery of a working fluid flow, with means that form two outlet channels arranged in the receiving position for the working flow in such a way that the working flow is not deflected stabilizes and flows into only one of the outlet channels, so that the device; is monostable, with a first and a second lattice * which are arranged in such a way that

it sström'miing the work from this one outlet duct to the divert another outlet channel * whereby the first control means is in communication with the second control means and the second control means is arranged opposite the first control means, and with delay means between the Inlet means and the second control means are connected.

Other objects, features and advantages of the present invention result for the person skilled in the art from the following description and the accompanying drawings, in which a preferred embodiment of the present invention is is purified.

w Fig. 1 shows a side view of a fluid of the invention be · exaggerated device according ·

Figure 2 is a top plan view of a fluid operated Device according to the invention

Fig. 5 shows in a double graph the inlet and outlet pressure depending on the fluid impulse device according to the invention from the time*

Fig * 4 let a plan view of another embodiment of a with a fluid operated device according to the invention

The flowing fluid can be compressible, such as air * Nitrogen or other gases, or incompressible such as water or other liquids · Both the compressible and the Even the non-compressible fluid can have solid components included The present invention is not limited to any particular fluid

In Fig. 1 there is shown a fluid flow pulse device 10 which Plates 12, 14 and 16, in which suitable channels or Openings are formed * The depth of the channels and internal openings in the plates 12 and 16 must be less than that Plate thickness, since these plates also form the outer cover plates of the device

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one of the plates may be formed, while the remaining part of the device, such as the delay line, is formed in another plate - the plates are then so put together so that the correct connections of the channels arise. Pipes 18, 20 and 22 form suitable connections for the different channels. The connection between the plates 12, 14 and 16 is made in the illustration by fusing. To facilitate the description and illustration, the plate 12 in the illustrated embodiment is made of transparent material manufactured"

The plates 12, 14 and 16 may be formed, such as metal, glass, ceramic, plastic or the like from any suitable material, and can with any "Λ which the skilled worker is familiar, such as by fusion of the panels, by fastening of the plates to one another with screws and the like, to be fastened to one another, welded to one another or connected to one another.

As shown in Fig. 2, a suitable (not shown) source of high pressure fluid is connected to the port 24, from which this fluid enters a control chamber 28 through the working flow opening 26 as a well-defined working flow of high energy. Since it is a monostable device, its design and arrangement of the parts is such that the working flow is automatically applied to the wall j50 of the control chamber 28 and flows through the outlet channel j> 2 . There are several ways to achieve this. For example, one can design the control chamber 28 with respect to the working flow opening 26 in such a way that the wall J> Q is closer to the working flow than the wall 34 leads into the outlet channel 32. The person skilled in the art is readily able to arrange and design the various elements in such a way that the device is monostable.

On the opposite side of the control chamber 28, Sfceuer fluldums & Tfmangen 38 and # 0 are provided »The work flow emerging from the opening 26: flows automatically through the outlet

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32, but it can emerge through an opening 38 Control fluid flow are deflected in such a way that it flows through the outlet channel 42 »Since it is a monostable Device acts, the working flow flows through the outlet channel 42 only as long as the control fluid uras flow through the opening 38 is present therethrough. Hear this control fluid flow through the opening 38, the working flow reverses returns to its stable state and flows again through the outlet channel 32. Through an inlet signal opening 44, this becomes Control fluid introduced into the device.

Inlet port 44 is also connected to a fluid delay line 46 connected, which consists of a long pluidum canal. The other end of the delay line 46 is connected to one Control port 40 connected. Supply openings 48 and 50 in a manner known to the person skilled in the art when the working flow flows through the outlet channel 32 or through the outlet channel 42 a dragged current »

Reference is now also made to the accompanying Figure 3, to describe the operation of the device. A suitable source of high pressure fluid which is not shown, is connected to the opening 24, and the fluid enters the control channels 28 through the opening 26 as a working flow. According to the description above the working flow automatically applies to the wall 30 and enters the outlet channel 32. Normally the outlet channel 32 leads to the outside in the open environment, it can if necessary however, it must also be connected to some work device.

When an input fluid signal shown by curve 52 in FIG is supplied through the opening 44, then some of the control fluid flowing in here passes through the control opening 38 and causes "the working flow from Exhaust duct 32 is diverted away to exhaust duct 42 · The rest of the input signal 52 flows through the delay line 46 and, after a certain period of time, passes through the Control opening 40 through. Since the pressures of the fluid exiting through the openings 38 and 40 are substantially balance, the working flow automatically returns to their

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steady state in abutment against wall jQ. To ensure that the portion of the input signal which flows through the delay line and exits through control port 40 is strong enough to withstand the force of the portion of the control fluid exiting through control port 38 overcome, the control opening 4o has a slightly larger cross section than the opening 58. It has already been explained that that part of the signal which flows through the delay line 46 arrives at the opening 40 with a delay which corresponds to the period of time it takes for the signal to traverse the delay line 46 The time span during which the working flow flows through the outlet channel 42 can be controlled very precisely and precisely by making the delay line 46 correspondingly long. The curve 54 in FIG the outlet channel 42 is generated, the duration of this pulse being independent of the duration of the input signal 52. The input signal 52 can be a continuous signal as shown in FIG. 5, but it can also consist of a pulsating signal; the outlet always consists of the pulse 54 or a number of such pulses, the number of these pulses being equal to the number of interruptions of the inlet signal 52. The only limitation of the device is that the duration of the input signal must be at least sa as long as the duration of the desired outlet pulse, the duration of which is in turn equal to the time required for the relevant part of the inlet signal to traverse the delay line; If the duration of the inlet signal is shorter than the desired duration of the outlet pulse, the duration of the outlet pulse is equal to the duration of the inlet signal, since the deflection of the working flow into the outlet channel 42 and thus the duration of the outlet pulse is then only controlled by the control fluid flow which exits through the control opening 58

If, according to a typical example, the delay line is designed for Sjichall or echo currents and has a length of approximately 60 cm, the duration of the discharge pulse is about 0.002 seconds if the device is operated with air »

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Fig. 4 shows another embodiment of the present invention. The device shown here is essentially the same as the device described in connection with FIG. 2, only .that the delay line is replaced here by a fluid resistance 56 and a fluid collecting reservoir 58. The resistance and the memory are connected in series and the input of the resistor is connected to the inlet signal port 44, while the output of the memory 58 is connected to the control port 40 is. Fluid resistance can result from a narrowed opening or from a longer constriction of the fluid line exist, while a fluid collection storage consists of a container which has a large volume for the collection of the fluid. fe By correctly choosing the properties and dimensions of the resistor and the Sanmel memory connected in series with this, a time delay of that part of the through the Reached opening 44 flowing fluid which does not exit through the control opening 38. The time delay is achieved by first constricting or restricting the flow and then providing that the fluid must collect in the collecting reservoir until it supplies a pressure at the control port 40 which is sufficient to keep the work streams stable as described above Attributed to the state.

The skilled worker knows that the design and dimensions of the individual flow devices depend in any case on the density of ψ temperature and pressure of the fluid and on the properties, which is said to have the work flow at the point of use.

Claims

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Claims (6)

Dr. Ing. E. BERKENFELD, patent attorney, COLOGNE, Univeriitättttrae "31 Annex" Akttrroidmt zur Input "from May 6th 19Ö7 HN + Nam.d.Anm. CORNING GLAS3 WORKS Coming, New York, USA claims 1. Monostable device operated with a fluid which delivers a single output pulse of a certain duration to each input signal and in which a fluid working flow of high energy enters a control chamber from a nozzle or opening and is directed into a receiving opening by the pressure distribution in the boundary layer area of the working flow, characterized by two outlet channels (32, 42) which are so arranged in a collecting position to the working fluid, that the device is monostable, by a first control opening (38) which is arranged such that the working fluid from an outlet (32), into which the working flow enters in the stable state, deflects to the other outlet channel (42), through a second control opening (40) arranged opposite the first control opening, and by delay means (46), which at one end part of the flow through an inlet fluid channel (44) absorbs fluid passing through, while the rest of this fluid s is directed to the first control opening (38). 2. Device according to claim I _9, characterized in that the first and the second control fluid opening (38, 40) are arranged on opposite sides and substantially at right angles to the working fluid flow » 3 «Device according to claim 1 or 2 _$, characterized in that the delay means is an elongated fluid channel (46). 4. Device according to claim 1 or 2, characterized in that the delay means is a fluid resistor (56) and a fluid collecting reservoir (58) connected in series to this, 009840/02 * 7 5 »Device according to claim 2, characterized in that the second control fluid opening (40) has a larger one Has cross section as the first control fluid opening (58). 0Q98A0 / 0267