US3820567A - Pneumatic memory relay - Google Patents

Pneumatic memory relay Download PDF

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US3820567A
US3820567A US28154572A US3820567A US 3820567 A US3820567 A US 3820567A US 28154572 A US28154572 A US 28154572A US 3820567 A US3820567 A US 3820567A
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poppet
housing
conduit
relay
seat
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D Bouteille
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    • FMECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
    • F15FLUID-PRESSURE ACTUATORS; HYDRAULICS OR PNEUMATICS IN GENERAL
    • F15CFLUID-CIRCUIT ELEMENTS PREDOMINANTLY USED FOR COMPUTING OR CONTROL PURPOSES
    • F15C3/00Circuit elements having moving parts
    • F15C3/04Circuit elements having moving parts using diaphragms
    • FMECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
    • F15FLUID-PRESSURE ACTUATORS; HYDRAULICS OR PNEUMATICS IN GENERAL
    • F15CFLUID-CIRCUIT ELEMENTS PREDOMINANTLY USED FOR COMPUTING OR CONTROL PURPOSES
    • F15C3/00Circuit elements having moving parts
    • F15C3/06Circuit elements having moving parts using balls or pill-shaped disks
    • YGENERAL TAGGING OF NEW TECHNOLOGICAL DEVELOPMENTS; GENERAL TAGGING OF CROSS-SECTIONAL TECHNOLOGIES SPANNING OVER SEVERAL SECTIONS OF THE IPC; TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
    • Y10TECHNICAL SUBJECTS COVERED BY FORMER USPC
    • Y10TTECHNICAL SUBJECTS COVERED BY FORMER US CLASSIFICATION
    • Y10T137/00Fluid handling
    • Y10T137/8593Systems
    • Y10T137/86493Multi-way valve unit
    • Y10T137/86574Supply and exhaust
    • Y10T137/86622Motor-operated
    • Y10T137/8663Fluid motor

Definitions

  • a memory relay has a poppet movable between two positions in a space of a relay housing. The poppet surfaces are arranged to sealingly engage a seat in each position, each seat bounding an input conduit ar ranged to receive a fluid under pressure. An output conduit is in communication with the space and the exterior of the housing.
  • Means are provided for moving the poppet from one position to the other in response to the application'of a set or reset signal to the relay whereby the pressure in one or the other input conduit is caused to appearat the output conduit.
  • Bistable mechanical biassing means are provided for retaining the poppet in at least one position independently of the presence or absence of pressures in the input conduits.
  • the present invention relates to a pneumatic control device for automatic systems, and more particularly to pneumatic relays which can be controlled by pneumatic pulses or signals and which have a memory or operate as a flip-flop, i.e., they retain the state set by a control pulse after the pulse has disappeared;
  • a pneumatic relay which operates as a flip-flop, i.e., can be altematingly set to one of two stable states by pneumatic control pulses.
  • a variety of such relays are already known. Most of the relays are of the spool-valve type, whereby pressurized fluid switching is achieved by the movement of a spoolthat slides under the action 'of control pressures which are applied at its ends.
  • the spool can be maintained in the positions set by the control pressure pulses by the inherent friction present in the structure, i.e., the friction between the seals needed to seal the fluids and the relay, by mechanical locking (also calledmechanical detent because of its detent effect) obtained by an elastic lock that deforms during the spool movement, or by magnetic means obtained by the spool.
  • mechanical locking also calledmechanical detent because of its detent effect
  • these spool valve memories are provided with two outputs. In the one state or position of the relay, one of the output ports is under pressure andthe other output port is at or below this pressure. In the other spool position or state, the output conditions at the .two output ports are reversed. In some cases, these memory relays are constructed with only one output. With the latter type, the two output pressure conditions appear at the single output altematingly in response to the application of appropriate control pulses.
  • Spool valve relays however, present disadvantages in that they are difficult to construct in mass production. The reason for this is that the operative elements of such relays must be constructed with high precision for proper and reliable operation of the parts and for satisfactory sealing. Additionally, their lifespan is limited and their cost, because of the required precision, is high.
  • poppet-type valve relays which allow switching by moving a poppet between two seats.
  • the input pressures which are to be communicated to the output. duct are provided at opposite sides of the poppet,
  • Output relays of this type have the advantage that they only require very short strokes of the poppet to effect switching, so that very little wear takes place. Additionally, high precision is not required in the construction of such relays.
  • poppets are not pressure-balanced, i.e., their postion is affected by the action of the pressure of fluid utilized for effecting the switching, and thus different locking mechanisms must be employed to retain the poppet in a set condition. Locking mechanisms frequently require special, elaborate designs which increase the price of the relays.
  • a pneumatic memory relay comprises a housing having a space interiorly therein.
  • First and second input conduits are provided in said housing, said conduits respectively having outer ends accessible exteriorly of said housing and respectively having inner ends which communicate with said space.
  • First and second seat means are respectively provided at said inner ends.
  • An output conduit in said housing communicates with said space and with the exterior of said housing.
  • Poppet means is arranged to move in said space between a first position in which it sealingly engages'said first seat means and places said output conduit in communication with said second input conduit, and a second position in which it sealingly engages said second seat means and places into communication said output conduit with said first input conduit.
  • First and second actuating means including means for receiving set and reset signals, are provided for moving said poppet means to said second and first positions, respectively, in response to application of said set and reset signals.
  • Retaining means are provided for retaining said poppet means in at least one of its positions absent the application of the respective signal.
  • an associated relay means has an auxiliary output conduit and cooperates with said above-mentioned memory relay and includes conduit means communicating with said first and second conduits as well as with said means for receiving said set and reset signals.
  • Means are provided in the associated relay means which cooperate with said conduit means for generating at said auxiliary output conduit an output signal which is complementary to that appearing at the firstmentioned output conduit so that two complementary signals normally appear at the two respective output conduits, altematingly in response to the application of the set and reset signals.
  • FIG. 1 is a side elevational cross section of a pneumatic relay with mechanical locking means in accordance with the present invention, the relay having one output;
  • FIG. 2 is a section taken on line 2-2 of FIG. 1;
  • FIG. 3 is a section of the embodiment shown in FIG. 1, taken on line b-b;
  • FIG. 4 is a side elevational cross section of another embodiment of the present invention, the relay having one output and a different mechanical locking means;
  • FIG. 5 illustrates still a further embodiment of the relay as shown in FIG. 4, combined with an associated relay connected thereto to provide two outputs which are complementary to one another.
  • the single-output relay illustrated in FIG. 1 comprises a housing 1 having provided therein a space 1a.
  • a poppet 1b is positioned in the space la and arranged to move between two positions, as will further be described hereafter.
  • Seats 2 and 3 are provided at opposite sides of the space la and are each arranged to be engaged by one of the major surfaces of the poppet lb when the latter is in one of the two positions.
  • the seats 2 and 3 are preferably made from an elastomeric material, such as rubber, which is capable of at least partial deformation for providing a good seal when the poppet lb comes into contact therewith.
  • An inlet conduit 7 is provided in the housing 1 which has an outer end accessibletexteriorly of the housing 1, and an inner end which is bounded by the seat 2 and communicates with the space 1a.
  • the conduit 7 is arranged to receive fluid under a predetermined pressure.
  • the pressure which normally exists in the conduit 7 is represented by the reference character P.
  • Pressure P is provided by a permanent pressure supply (not shown). In the position of the poppet lb as shown in FIG. 1, the lower-surface of the poppet engages or makes contact with the seat 2 to thereby close or seal the inner end of the conduit 7.
  • Retaining means in the form of bistable biasing means 4, 5 are mounted in the housing 1, and arranged to urge said poppet means against the seat 2 when the poppet means is in a first position, i.e., the position shown in FIG. 1, and for urging the poppet lb against the seat 3 when the poppet is in the other of its positions.
  • the biasing means as can best be seen from FIGS. 1-3, comprises a snap-over center plate spring mounted in the housing and has holding portions 4, 5 for holding the poppet lb.
  • the holding portions 4, 5 are arranged to snap either to one or the other of the stable positions, after the poppet has been caused to pass through an unstable central position toward a stable position.
  • the snap-over center plate spring can advantageously be constructed by punching a plate of spring material to provide two extending holding portions 4, 5 which are adapted to engage the poppet.
  • the seats 2, 3 be made from a somewhat resilient material (for example, an elastomer).
  • the seats 2, 3 are made from a hard material while the poppet lb is made of a plastic or resilient material.
  • the reverse arrangement is equally suitable and this is illustrated in FIG. 4.
  • the material for the plate is preferably selected to be one which can resist fatigue due to many snapping actions.
  • a material which is suitable for this purpose is beryllium-bronze, of the type which is commonly used for snap contacts in electric switches.
  • the blades 4, 5 are deformed in such a manner that the forces generated as a result of the deformations of the holding portions as well as that of the poppet 1b itself, are sufficient to .cause the poppet to abut against seats 2 and 3, respectively, with significant force. Additionally, the poppet is forced to move from its seat 2 abutment position to its seat 3 abutment position, and vice versa, in response to the deformation or bending of the holding portions 4, 5 once the poppet has passed through a central position between the two seats 2, 3. With the poppet 1b held by the holding portions 4, 5 in abutment with seat 2 as shown in FIG. 1, the pressure P does not appear in the relay beyond the conduit 17.
  • An output conduit 1 has an inner end in communication with the space la and an outer end opening at the exterior of the housing.
  • the output conduit 1 is provided to communicate the pressure conditions in the space la to the exterior of the hosuing output signal being represented by the reference character S.
  • the inlet conduit 8 has an outer end communicating with the exterior of the housing 1, and its inner end communicates with the space la via a seat 3 which bounds the inner end of this conduit. With the position of the poppet lb as shown in FIG. 1, it will be clear that the output conduit 1 is in communication with the inlet conduit 8 via the seat 3.
  • the conduit 8 is arranged to receive a fluid at a predetermined pressure.
  • the conduit 7 is supplied with a fluid at a pressure above atmospheric pressure, while conduit 8 is placed at atmospheric pressure.
  • the inlet conduit 8 extends through the housing 1 and the exhaust port 8a of the conduit 8 is schematically illustrated as being in communication with the atmosphere.
  • the memory relay With the poppet 8b is in the lower position so that the conduits 8 and 1' communicate with each other, the memory relay is said to be in the zero" state, i.e., the output S is at a relative pressure of zero. Stated in another way, the zero state of the relay indicates that the pressure S at the outer or output end of the conduit 1' is atmospheric pressure.
  • the cross-sectional area of the seat 2 is smaller than the. cross-sectional area of the seat 3.
  • the crosssectional area of the seat 2 is made sufficiently small so that the pressure P acting on thepoppet lb over the area of the conduit or seat 2, is insufficient to overcome the locking force or retaining force developed by the holding portions 4, 5 so that the poppet 1b is maintained in abutment with the seat 2 despite the presence of the pressure Pin the conduit 7.
  • Actuating means are provided which can move the poppet from the position wherein it engages one seat to a position wherein it engages the other seat.
  • the actuating means which is adapted to bring the poppet lb into abutment against the seat 3 includes aconduit 7 arranged to receive fluid under pressure, and particularly to receive pneumatic pulses or signals X, which will hereinafter be referred to as set signals.
  • set signals When a set signal is transmitted to the conduit 7', the pneumatic control pulse is applied to one side of a diaphragm 9 which is movable in an upward direction when viewed in FIG. 1.
  • actuating member 10 having a first portion 10a arranged to be engaged by the diaphragm 9 and a second portion conv figurated in the form of afork 10b, to engage the poppet lb and urge the same in an upward direction, as viewed in FIG. 1, against the retaining forces exerted on the poppet by the holding portions 4, 5.
  • the upward movement of the actuating member 10 causes the fork 10b to abut against the holding portions 4, 5 and cause the same to move the poppet 1b towards the seat 3.
  • the thrust developed by the active area of the diaphragm 9 is greater than the thrust required to overcome the retainingforces exerted on the poppet lb by the ,holding portions 4, 5.
  • the holding portions 4, 5 Once the holding portions 4, 5 have passed a central or neutral position, thisbeing an unstable position, the holding portions 4, 5 snap to the other side towards a new stable position wherein they apply forces to the poppet lb to cause the latter to abut against the seat 3.
  • the diaphragm 9 is arranged to deform sufficiently so as to cause the bifurcated portion or fork 10b to move in upward direction, as viewed in FIG. 1, by a distance sufficient to urge the poppet lb towards seat 3 until engagement has been effected.
  • actuating member in the form of a piston 12 has a portion configurated to pass into and extend through the seat 3 while having another portion which is adjacent to the diaphragm 11.
  • the piston 12 Upon deformation or flexing of the diaphragm 11, the piston 12 is urged in a downward direction, as viewed in FIG. 1, the portion extending into the seat 3 and abutting against the poppet lb to urge the same to move towards the seat 2.
  • the lifting of the poppet 1b from seat 3 is facilitated by making the cross-section of the diaphragm 11 as well as the cross section of the portion of the piston engaging therewith, greater than that of seat 3.
  • the holding portions 4, 5 are advantageously made from a material which develop forces on the poppet lb when engaged with the seat 3 which caneasily be overcome by the piston 12 in response to movement of the diaphragm l1 and the thrust developed by the air pressure on the poppet lb.
  • Poppet lb again passes the central or neutral position and, in response to the downward movement of the piston 12, is forced to abut against the seat 2 where it is maintained by the forces imparted thereto by the spring or elastic holding portions 4, 5 even after the signal X has disappeared.
  • the output S is then reconnected to the conduit 8 and the memory relay is again said to be inthe state .zero.
  • the output remains in this state after disappearance of the X reset signal and only returns to the state 1 when a set signal X appears. Because of this characteristic, the relay is said to have a memory since it'retains its states indefinite, as long as no external control pulses are applied.
  • Push buttons 13 and 14 are manual overrides which permit changing the states of the memory relay by simple manual control. Upon depressing of the respective push button a force is exerted on a respective diaphragm 9 or 11, which has the same effect as do the forces exerted by the pressures on diaphragms caused by the control signals 'X, and X respectively. Thus, push button 13 sets the memory to state 1 and push button 14 resets it to state 0.
  • FIG. 4 illustrates a second embodiment for mechanical retaining means which retains the poppet lb in abutment against seats 2 or 3 in the absence of any external signals or in the event that the pressures in the housing are removed.
  • the poppet lb is in the form of a substantially flat member which has a fixed portion 1c which is fixed to the housing 1.
  • the flat member is in the form of a flexible blade having a free portion ld which is movable in upward and downward directions, as viewed in FIG. 4, while pivoting about the fixed portion 1c.
  • the solid outline of the flexible blade 1d represents the position where the flexible blade engages the upper seat 3, while the dashed outline, or lower representation, depicts the flexible blade in its position when it engages the seat 2.
  • the supply pressure P is transmitted to the conduit 7 and then via the seat 2 to the output conduit 1 where it appears as the output S.
  • the relay is thus in the state 1.
  • a helical spring 15 maintains the free portion 1d in the upper position as shown.
  • the poppet 1b is also maintained in this position by the pressure differential which appears across the poppet, i.e., the pressure P below the seat 3, and a pressure lower than P at the seat 3.
  • the free portion 1d is movable in a downward direction against the action of the helical spring 15 if the force of the latter is overcome by the action of the piston 12.
  • a reset signal X is applied to the diaphragm 1 1, it acts on the piston 2 which moves the flexible poppet blade from the seat 3 to the seat 2, thus communicating the output S with the conduit 8 via seat 3 and placing the memory relay in state zero.
  • Latching means are provided which are to utilized retain the free portion 1d in abutment against the seat 2.
  • This latching means includes a bell crank 17 having a first arm 17a and a second arm 17b. The two arms are substantially displaced from one another by about 90.
  • the helical spring abuts against the second arm 17b,-the free end of said second arm being arranged for engagement with a piston 10.
  • the bell crank 17 is pivoted about a pin 18. With this arrangement the lever can move between two angular positions, as to be described hereafter.
  • the first arm is provided with engaging means in the form of a notch 16, at the free end thereof. When the piston l2-is urged in a downward direction, this causes the free portion 1d to move in a downward direction and to further compress the helical spring 15. This action increases the downward force applied against the second arm 17b this increasing the clockwise moment, as viewed in FIG. 4, applied to the bell crank lever 17 about the pin 18.
  • the notch 16 is provided with a bearing surface 16a, and as soon as the free portion 1d has moved to a position below the bearing surface 16a, the free portion is engaged by the notch 16 as the bell crank 17 moves slightly in the clockwise direction. The free portion 1d is held by the bearing surface 16a in the position illustrated by the dashed-outline. At this time, the helical spring 18 is compressed to its near maximum. In this locked state, the flexible blade 1b is in a stable condition, the action of the helical spring 15 and the bell crank 17 being capable of maintaining the position of the flexible blade 1d indefinitely if no further pneumatic signals are transmitted to the device. Thus, when the control signal X disappears, the poppet blade remains locked and the state of the memory relay is kept.
  • a signal X applied to the diaphragm 9 urges the piston 10 in an upward direction, as viewed in FIG. 4, to thereby engage the free ends of the second arm 17b.
  • the effect of the upward movement of the piston 1 causes the bell crank lever 17 to rotate in a counterclockwise direction while slightly further compressing the helical spring 15.
  • the bell crank 17 has rotated in a counterclockwise direction, through an angular distance sufficient to cause'the surface 16a to disention 1d applies sufficient restoring force against the bearing surface 16a to maintain engagement.
  • buttons 13 and 14 allow the manual switching of the memory relay, and in the absence of control signals X and X in a manner similar as that described in connection with the embodiment illustrated in FIGS. 1-3. Also, the description of features of the first embodiment which are common with features of the second described embodiment are equally applicable to the latter.
  • the locking mechanisms or retaining mechanisms can take different forms, as exemplified by thetwo described embodiments. All of the retaining means or locking mechanisms have the function of urging the poppet into one position wherein it abuts one seat, and for permitting the poppet to move into engagement with another seat upon the application of a control signal while maintaining the poppet against the second seat and only pennitting the return of the poppet to the first seat upon the provision of a further control signal.
  • the locking mechanisms as described are exemplary but illustrate the principle and the advantages of utilizing such locking mechanisms.
  • the moving parts are not exposed to the exterior and their lifetime can be excellent if the locking mechanism has been properly designed and constructed.
  • the locking mechanisms are at least partially surrounded by the fluids which the relay is intended to switch, friction is generally minimized and temperatures are stabilized during high frequency operations. Also, lubrication is frequently not necessary.
  • the memory devices which have just been described in conjunction with FIGS. 1-4, are single output memories.
  • the single output S at the output of the conduit 1' is either in communication with the larger pressure P in the conduit 7 or with the lower or atmospheric pressure in the conduit 8.
  • These input pressures, as described above, can selectively be applied to the output conduit 1 by the application of suitable set and reset signals to the conduit 7 and 8', respectively.
  • the just described memory relay may be modified by connecting to the same a NOT relay in the form of a switch 19. In the embodiment of FIG. 5, the switch 19 has been connected to a memory relay as shown in FIG. 4. The switch 19 is in communication with the conduit 7 via a conduit 20.
  • the pressure P taken from the input conduit 7 can be selectively applied to the output S and the output S, which is the inverse or complement of the output S.
  • Conduit means are provided in the housing, this including the conduit 20 which is in communication with'the conduit 7.
  • the pressure P is simultaneously applied to conduits 7 and 20, the latter being bounded by a smaller crosssectional seat 2.
  • a conduit 21 of the NOT relay is in communication with the space la.
  • the pressure P acts on the diaphragm 22 to urge the same in an upward direction, as viewed in FlG. 5. This action forces the poppet 23 to open seat 3 and seal or close seat 2 placing the output S at the atmospheric pressure of conduit 8" or the output S is placed at the level.
  • the output S is at the pressure existing in the conduit 7 -this being the pressure P.
  • the conduit 21 is in communication with the space 1a which feeds the output conduit 1 so that the pressure P is applied simultaneously to the poppet 23 through the valve 2' as well as the diaphragm 22.
  • the output is in communication with the conduit 8" which is at a pressure lower than-that of pressure P.
  • the above described function very much used in automation, has until now remained difficult and costly to use in pneumatic devices as compared with the memory functions obtainable with electrical or electronic devices.
  • the pneumatic memory relays with mechanical locking mechanisms achieve the objects of this invention, while the relays are easyv to construct and to miniaturize.
  • a pneumatic relay of this type makes the use of pneumatic relays practical in many applications which have been up to this point impractical. lt-should be noted that during switching from one state to another, movement of the parts, and in particular movement'of the poppets is reduced to a very small travel and this results in increased lifetime and dependability of the relays. Because no sliding seal is utilized the components can operate perfectly without any lubrication.
  • the construction of the relay does not require precautions for guiding and sealing and can be mass produced, for example, with the use of plastic molded parts, thus leading to a very low unit price.
  • the housing 1 is composed of molded plastic and limited to this construction and other economical methods. of construction can also be used in the framework of the invention, as for example, assembling by riveting, snapping means made of elastic parts, or by ultrasonic welding of plastic parts.
  • a pneumatic memory relay comprising a housing having a space interiorly therein; first and second input conduits in said housing, said conduits respectively having other ends accessible exteriorly of said housing and respectively having inner ends each communicating with said space; means for establishing in at least one of said input conduits a predetermined fluid pressure different from atmospheric pressure; first and second seat means respectively provided at said inner ends; an output conduit in said housing communicating with said space and with the exterior of said housing; poppet means arranged to move in said space between a first position in which it sealingly engages said first seat means and places said output conduit in communication with said second input conduit, and a second position in which it sealingly engages said second seat means and places said output conduit into communication with said first input conduit; first and second actuating means including means for receiving set and reset signals for moving said poppet means to said second and first positions, respectively, in response to application of said set and reset signals; and retaining means for retaining said poppet means in at least one of said positions absent the application of the respective signal; wherein said first and second means are spaced from each
  • said retaining means comprises means operative after said poppet means has been moved to at least a predetermined one of said positions for maintaining said poppet means in said predetermined position even in the absence of the respective one of said set and reset signals and even in the absence of said-predetermined fluid pressure.
  • a pneumatic memory relay comprising a housing having a space interiorly therein; first and second input conduits in said housing, said conduits respectively having outer ends accessible exteriorly of said housing and respectively having inner ends each communicating with said space; first and second seat means respectively provided at said inner ends; an output conduit in said housing communicating with said space and with the exterior of said housing; poppet means arranged to move in said space between a first position in which it sealingly engages said first seat means and places said output conduit in communication with said second input conduit, and a second position in which it sealingly engages said second seat means and places said output conduit into communication with said first input conduit; first and second actuating means including means for receiving set and reset signals for moving said poppet means to said second and first positions, respectively, in response to application of said set and reset signals; and retaining means for retaining said poppet means in at least one of said positions absent the application of the respective signal; wherein said first and second input conduits are arranged to be connected to stronger first and weaker second sources of pressure respectively, and wherein said first and second seat means
  • a pneumatic memory relay comprising a housing having a space interiorly therein; first and second input conduits in said housing, said conduits respectively having outer ends accessible exteriorly of said housing and respectively having inner ends each communicating with said space; first and second seat means respectively provided at said inner ends; an output conduit in said housing communicating with-said space and with the exterior of said housing; poppet means arranged to move in said space between a first position in which it sealingly engages said first seat means and places said output conduit in communication with said second input conduit, and a second position in which it sealingly engages said second seat means and places said output conduit into communication with said first input conduit; first and second actuating means including means for receiving set and reset signals for moving said poppet means to said second and first positions, respectively, in response to application of said set and reset signals; and retaining means for retaining said poppet means in at least one of said positions absent the application of the respective signal; wherein said poppet means comprises a substantially flat member having one free portion and having another portion connected to said housing, said flat member being reversibly
  • a pneumatic relay as defined in claim 10, wherein said retaining means comprises biassing means abutting against said free portion and urging said flexible blade toward said second position, and latching means for locking said flexible blade in said first position of the latter.
  • a pneumatic memory relay comprising a housing having a space interiorly therein; first and second input conduits in said housing, said conduits respectively having outer ends accessible exteriorly of said housing and respectively having inner ends each communicating with said space; first and second seat means respectively provided at said inner ends; an output conduit in said housing communicating with said space and with the exterior of said housing; poppet means arranged to move in said space between a first position in which it sealingly engages said first seat means and places said output conduit in communication with said second input conduit, and a second position in which itsealingly engages said second seat means and places said output conduit into communication with said first input conduit; first and second actuating means including means for receiving set and reset signals formoving saidpoppet means to said second and first positions, respectively, in response to application of said set and reset signals; and retaining means for retaining said poppet means in atleast one of said positions absent the application of the respective signal; wherein said first and second actuating means each comprise a movable actuating member having a portion configurated to extend respectively through said
  • Apneumatic memory relay comprising a housing having a space interiorly therein; first and second input conduits in said housing, said conduits respectively having outer ends accessible exteriorly of said housing and respectively having inner ends each communicating with said space; first and second seat means respectively provided at said inner ends; an output conduit in means for receiving set and reset signals for moving said poppet means to said second and first positions, respectively, in response to application of said set and reset signals; and retaining means for retaining said poppet means in at least one of said positions absent the application of the respective signal; wherein one of twocomplementary output signals appears at said output conduit; and further comprising associated relay means cooperating with saidmemory relay and including conduit means communicating with said first and means comprises means operative after said poppet means has been moved to at least a predetermined one of said positions for maintaining said poppet means in said predetermined position even in the absence of the respective one of said set and reset signals and even in the absence of said predetermined fluid pressure.
  • a pneumatic memory relay comprising a housing having a space interiorly therein; first and second input conduits in said housing, said conduits respectively having outer ends accessible exteriorly of said housing and respectively having inner ends each communicating with said space; first andsecond seat means respectively provided at said inner ends; an output conduit in said housing communicating with said space and with the exterior of saidhousing; poppet means arranged to move in'said space between a first position in which it sealingly engages said first seat means and places said 5 said poppet means to said second and first positions,
  • said mechanical retaining means comprises obstructing means automatically operative after said poppet has moved to a predetermined one of said two positions thereof for maintaining said poppet means in said predetermined position by obstructing the path of movement of said poppet means from said predetermined position to the other position'of said poppet means.
  • said obstructing means comprises a latch mechanism arranged to detain said poppet means in said predetermined position thereof, and release means responsive to receipt of one of said set and reset signals for unlatching said latch mechanism.
  • said obstructing means comprises an element movable to a position obstructing the path of movement of said poppet means from said predetermined position to the other position of said poppet means, and means automatically operative in response to receipt of a predetermined one of said signals for moving said element out of said path of movement of said poppet means.
  • said mechanical retaining means comprises bistable biasing spring means automatically operative after said poppet means has moved to said first position for maintaining said poppet means in said first position even in the absence of a reset signal by applying to said poppet means a spring biasing force holding said poppet means in said first position, and automatically operative after said poppet means has been moved to said second position for maintaining said poppet means in said second position even in the absence of a set signal by applying to said poppet means a spring biasing force holding said poppet means in said second position.
  • bistable biasing spring means comprises a single bistable biasing spring.
  • a pneumatic memory relay comprising a housing having a space interiorly therein; first and second input conduits in said housing, said conduits respectively having outer ends accessible exteriorly of said housing and respectively having inner ends each communicating with said space; first and second seat means respectively provided at said inner ends; an output conduit in said housing communicating with said space and with the exterior of said housing; poppet means arranged to move in said space between a first position in which it sealingly engages said first seat means and places said output conduit in communication with said second input conduit, and a second position in which it sealingly engages said second seat means and places said output conduit into communication with said first input conduit; first and second actuating means including means for receiving set and reset signals for moving said poppet means to said second and first positions, respectively, in response to application of said set and reset signals; and mechanical retaining means automatically operative after said poppet means has been moved to a predetermined one of said two positions thereof for maintaining said poppet means in said predetermined position even in the absence of the respective one of said set and reset signals by obstructing the path of

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  • Engineering & Computer Science (AREA)
  • General Engineering & Computer Science (AREA)
  • Theoretical Computer Science (AREA)
  • Physics & Mathematics (AREA)
  • Fluid Mechanics (AREA)
  • Mechanical Engineering (AREA)
  • Fluid-Driven Valves (AREA)
  • Multiple-Way Valves (AREA)
  • Supply Devices, Intensifiers, Converters, And Telemotors (AREA)
US28154572 1971-08-27 1972-08-17 Pneumatic memory relay Expired - Lifetime US3820567A (en)

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
FR7132043A FR2150639B1 (enrdf_load_stackoverflow) 1971-08-27 1971-08-27

Publications (1)

Publication Number Publication Date
US3820567A true US3820567A (en) 1974-06-28

Family

ID=9082520

Family Applications (1)

Application Number Title Priority Date Filing Date
US28154572 Expired - Lifetime US3820567A (en) 1971-08-27 1972-08-17 Pneumatic memory relay

Country Status (9)

Country Link
US (1) US3820567A (enrdf_load_stackoverflow)
JP (1) JPS5546526B2 (enrdf_load_stackoverflow)
CA (1) CA981558A (enrdf_load_stackoverflow)
CH (1) CH581269A5 (enrdf_load_stackoverflow)
DE (1) DE2241668A1 (enrdf_load_stackoverflow)
FR (1) FR2150639B1 (enrdf_load_stackoverflow)
GB (1) GB1407014A (enrdf_load_stackoverflow)
IT (1) IT986848B (enrdf_load_stackoverflow)
SE (1) SE387165B (enrdf_load_stackoverflow)

Cited By (4)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US4078580A (en) * 1975-05-02 1978-03-14 Manfred Rudle Multiway valve
US5007447A (en) * 1989-02-13 1991-04-16 Quiet S.A. Pneumatic feed safety apparatus with re-setting control
US5615710A (en) * 1994-09-22 1997-04-01 Smc Corporation Pilot-type change-over valve
US5620027A (en) * 1994-12-29 1997-04-15 Smc Corporation Poppet type directional control valve

Families Citing this family (3)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CH645166A5 (de) 1978-07-10 1984-09-14 Willy Gassert Pneumatisch betaetigte steuerventilvorrichtung fuer eine vollpneumatische nieder- und arbeitsdrucksteuerung.
US5250142A (en) * 1990-07-27 1993-10-05 Longwood Elastomers, Inc. Rubber surface having non-stick ply turn-up bladder
DE19845380A1 (de) * 1998-10-02 2000-04-13 Gerhard Habla Membran-Sitzventil

Cited By (5)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US4078580A (en) * 1975-05-02 1978-03-14 Manfred Rudle Multiway valve
US5007447A (en) * 1989-02-13 1991-04-16 Quiet S.A. Pneumatic feed safety apparatus with re-setting control
US5615710A (en) * 1994-09-22 1997-04-01 Smc Corporation Pilot-type change-over valve
CN1072324C (zh) * 1994-09-22 2001-10-03 速睦喜股份有限公司 导阀控制式换向阀
US5620027A (en) * 1994-12-29 1997-04-15 Smc Corporation Poppet type directional control valve

Also Published As

Publication number Publication date
SE387165B (sv) 1976-08-30
FR2150639B1 (enrdf_load_stackoverflow) 1976-09-03
JPS4831383A (enrdf_load_stackoverflow) 1973-04-24
JPS5546526B2 (enrdf_load_stackoverflow) 1980-11-25
FR2150639A1 (enrdf_load_stackoverflow) 1973-04-13
DE2241668A1 (de) 1973-03-15
IT986848B (it) 1975-01-30
GB1407014A (en) 1975-09-24
CA981558A (en) 1976-01-13
CH581269A5 (enrdf_load_stackoverflow) 1976-10-29

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