TH4539B - Solenoid valve control circuit - Google Patents

Abstract

Solenoid valve control circuit for connecting the battery to work with the solenoid in order to power the solenoid to Tongue stimulation with Coulomb control circuit for current transmission Electricity goes into the solenoid in a controllable manner.

Claims (8)

1. Solenoid control circuit for connecting the battery to work with the solenoid to provide power to the solenoid to actuate the valve. The control circuit consists of a control device. Coulomb is used to transmit the amount of electric current to the solenoid in Controllable characteristics In which the said current quantity is The amount of current is equal to the potential difference of the aforementioned battery, the coulomb regulator consists of Delivery device The amount of exposure to the aforementioned solenoid, a selective circuit for the production of an energy signal, indicates that The battery will be connected to the said solenay. Under specified conditions, and a solenoid valve drive that responds to the energy signal to connect the battery to the solenoid. As mentioned in giving power to the solenoid; And which equipment The Coulomb controls include: - A monitor circuit showing the potential difference of the energy used to indicate the potential difference. Different voltage of the said battery and produce a signal corresponding to The battery potential difference, and the coulomb control circuit used to show the amount of current being delivered from The bacteria are then transferred to the solenoid and to produce a power stop signal on the basis of the signal obtained from The circuit shows the voltage level of the transmission when the amount of current sent to the solenoid is equal to The required quantity corresponding to the potential difference of the aforementioned battery. 2. Solenoid valve control circuit according to claim 1, which the Coulomb control circuit consists of - an amplifier connected to the solen. The above for expanding the current Electricity to be supplied to the charged solenoid-capacitor to a specified level The response to the amplified current from the amplified circuit and - a component that compares the potential difference throughout the value Such a probe with potential difference compares and produces a signal to give that energy when the voltage across the capacitance. Such a router is equal to the aforementioned comparative voltage, and - the amplifier works in response to the signal corresponding to the The potential difference of such a battery from the diaphragm circuit is different. Potential when expanding the said current in order to send it to the chain Such leoids increase in proportion to the difference. 3. The solenoid valve control circuit according to claim 2, the amplifier amplifies the said current at an increasing level. That is constant when the potential difference of such a battery is quite high. And the aforementioned comparative potential of the computer That said, it was determined to be equal to the potential difference throughout the capacitance. The sitter when the required amount of electricity has been Sent to the said solenoid in case the battery voltage 4. The solenoid valve control circuit, according to claim 1, in which the power stop signal from the Coulomb control circuit is sent. Let such a selection circuit In which the aforementioned selection circuit works in response Receiver with the stop signal to provide power to suppress the signal production to 5. The solenoid valve control circuit, according to claim 1, in which the selective circuit consists of a timer circuit that produces an exhausted signal. Time to stop producing such power signals when the signal Stop the energy not being produced within a predetermined time 6. The solenoid valve control circuit, according to claim 5, the selection circuit also consists of a new attempt to Produce a new attempt signal, an energy signal is produced. Again, when the time-out signal is produced by the timer circuit 7. The solenoid control circuit according to claim 6, the selection circuit also consists of a falling schedule circuit at Produce a falling signal.Stop controlling the said solenoid when Such energy cessation signals were not produced at that time. The preset has passed after the power signal is loud. It has been produced on the basis of the new attempt signal. 8. The solenoid valve control circuit according to claim 7, the failure schedule circuit consists of a valve suppression circuit. To force the valve to close and the problem display circuit used to show a failure condition. 9. Solenoid control circuit according to claim 1, which the selection circuit also consists of a schedule failure circuit to Produces a failure signal to stop the said solenoid control. When the signal stops, that energy is not produced inside. The specified time after the energized signal is produced, 1 0. The solenoid valve control circuit according to claim 1 also includes: - - A voltage reduction detection circuit to detect a reduction in voltage. different The potential of the said battery is lower than the rated drop and Produce a signal indicating the measured potential reduction 1 1. The solenoid valve control circuit according to claim 1 also consists of a counter circuit for the number of times the solenoid is received. The power from the said battery exceeded the specified number of times and To produce a voltage reduction signal that represents the number of checks 1 2. The solenoid valve control circuit according to claim 1 also contains: - - Battery voltage reduction detection circuit. Lower lower Set value and to produce a signal voltage reduction signal The first represents the decrease in the detectable voltage, and - the count of the number of times the solenoid is energized by The battery has exceeded the specified number of times and to produce The second reduction signal of the potential difference. The potential difference 1 3. The solenoid valve control circuit according to claim 1 also contains: - - A capacitor that can be charged up to the level of charging. Such batteries. While such solenoids are not energized Work by the said battery In which the said solenoids receive current When the solenoid is energized 1 4. In the valve control circuit containing the solenoids, Extend, which drives the thrust solenoid's needle from its closed position. Go to an open position And from the open position to the closed position when the solenoid is sensitive to work with the battery by enhancements include: - Coulomb control device used to control the overall amount of current. Electricity equal to the set value Which the collective quantity of current Such electricity is a quantity corresponding to the potential difference of The battery, and it is sent from the battery to the solenoid. Adherence When the needle has been driven from its position Closed to open position And from the open position to Such closed position Which the Coulomb control device will send The required amount of electricity goes to such a bonding solenoid, a selective circuit for producing an energy signal that indicates The battery is connected to the tethered solenoid. Under predetermined conditions, and a solenoid drive circuit that responds to the energy signal to connect the battery to a solenoid. The coefficient of this is to provide energy to the solenoid, and the Coulomb controller consists of a monitor circuit that shows the energy potential difference in the battery and produces a signal equal to the The battery potential difference, and the coulomb control circuit for the overall quantification of the electric current. It is transmitted from the battery to the adhesion solenoids and for the production of ground-based power stop signals. The base from the monitor circuit shows the energy potential difference in the battery. Such when the total amount of electric current delivered to the solenoid The adhesion form is equal to the required quantity, which is equal to The potential difference of the aforementioned battery 1 5. Solenoid valve control circuit according to claim 14, the aforementioned Coulomb control circuit consists of: - An amplifier connected to the aqueous solenoid. For Amplify the current to be delivered to the aforementioned solenoids, the capacitors that can be charged up to a predetermined level to It responds to the current being amplified by the amplifier circuit, and the compressor using perel to compare the potential difference through the capacitance. Such a factor compares to the potential difference and produces a stop-energized signal when the potential difference is achieved throughout the capacitance. It is equal to the comparator voltage, and the amplifier works to receive a signal that is equal to the potential difference. Of the battery, from the energy potential difference circuit To expand the electric current to be sent to the bonded solenoid Said at the increase in proportion to the potential difference 1 6. Solenoid valve control circuit according to claim 15, which the amplifier amplifies the said current at an increasing level. Constant when the voltage of such a battery is in Relatively high level And the said potential difference Of the aforementioned comparter set is relatively high, and the aforementioned comparable potential of such comparitor In other words, it is defined as the potential difference throughout the capacitance set. Such as when the required amount of electric current is sent Provide such a bonded solenoid in case the potential difference of The battery is relatively high level 1 7. The solenoid valve control circuit according to claim 14, where the signal stops after such work from the aforementioned Coomb control circuit. Was sent to the aforementioned selection circuit by such a selection circuit Work said in response to the signal to stop giving power to halt production. 1 8. The solenoid valve control circuit according to claim 3, the selection circuit consists of a timing circuit that serves to determine The stopping time signal produces such energy when the stopping signal is not produced in the given time. Prescribed after the production of the aforementioned energy signal 1 9. The solenoid valve control circuit according to claim 18, which the selective circuit also consists of. An instruction set that produces a signal for Attempt to produce the next energy signal again after At the time-out signal was produced with the aforementioned timing circuit 2 0. Solenoid valve control circuit according to Clause 19, which the selective circuit also consists of. Production cycle schedule The signal shows a failure to stop the grip solenoid control. Such when the stop-feeding signal is not produced in The set time after which the power signal has been It is produced on the basis of the aforementioned new attempt signal 2 1. The solenoid valve control circuit according to claim 20, which the failure determination circuit consists of. The circuit removes the closing of the tongue. To force the closing of the tongue 2 2. The solenoid control circuit, according to claim 14, which also consists of a failure determination circuit to Produces a failure signal to stop the solenoid control. This adheres to the signal when the signal stops. Produced within a specified period of time after the power signal sounds. 2 3. The solenoid valve control circuit according to claim 14 also consists of a voltage reduction detection circuit for the aforementioned battery below a predetermined value. And produce the tsunami shown To reduce the detectable voltage, 2 4. The solenoid valve control circuit according to claim 14 also consists of a count of the number of times the bonded solenoid is received. The power of the battery exceeds the specified number of times. And to produce a signal showing the voltage reduction that can be measured number of times 2. 5. The solenoid valve control circuit according to claim 14 has also been composed of a battery voltage reduction detection circuit that low Than the set value And to produce the first signal that indicates the reduction The detectable voltage difference, and the count of the number of times the bonded solenoid is received The power from the aforementioned battery occurs the specified number of times. And to produce a second signal indicating a reduction in the potential difference The number of times can be measured. 2. 6. Solenoid valve control circuit according to claim 14 also includes; - A capacitor that can be charged up to the level of charging. Such batteries. While such adhesion solenoids are not Receives power from the said battery. Which the said solenoids Electric current is received from the said capacitor when the solenoid is loud It is said that power 2 7. In the solenoid valve control circuit for the island solenoid valve Seizure containing Replacement needle, which serves as the body of the tongue The movement is obtained during open positions. With the closed position with the first attachment of the needle In a close position And the second set of traction devices that act Hold the needle in the open position. And it has a solenoid The grip style drives the needle from the closed position to the open position and from the open position to the closed position. When the island solenoid The aforementioned bracket was attached to the battery with a circuit. Control it The improvements include: - Coulomb regulators that regulate the total amount of current. To be at the specified level from the said battery to the chain Lenoid such a grip. When the needle was driven From closed position to open position And from the open position to the closed position, a selective circuit for producing an energy signal that The battery is plugged into the tethered solenoid. Under predetermined conditions, and to which the coulomb controller consists of; - monitor circuit showing the potential difference of such battery and For the production of a battery voltage signal, the loop until the time of energy is selected per a bonded solenoid. It is in response to the energy signal from the selective circuit. And the signal showing the potential difference of the said battery from the loop The monitor, and the drive circuit for connecting the battery to the solenoid. Adherence For powering the bonded solenoid This is for a specified period of time. 2 8. In the adhesion solenoid valve control circuit consisting of The thrust needle, which serves as the body of the movable tongue. Between open and closed positions With a device to hold the set The first to hold the stab in the closed position and the second set of the replacement needle Keep in open position And has an island-type solenoid to act Drive the needle from closed position to open position. And from the open position to the closed position when the traction solenoid is plugged in. The modifications include: - Coulomb regulators that control the total amount of current. To be at the specified level from the said battery to the chain Such a grip lens when the needle is driven. From closed position to open position And from the open position to the closed position, a selective circuit for producing an energy signal that The battery is plugged into the tethered solenoid. Under defined conditions, and which the Coulomb controller is equipped with: Connect the stick solenoid in response to the energizing signal. Work from the aforementioned selection circuit, and a drive circuit for connecting the battery to a solenoid. These adhesives provide power to the adhesion solenoids. This is for a specified period of time 2. 9. In the solenoid control circuit (10, 20, 100, 200, 400, 500, 600, 700) for the needle-mounted tethered solenoid valve. A stab which serves as the body of the tongue that can Movable between open and closed positions With an island device The first holding the stab in the closed position, and the second holding the stab in the open position, and the grip solenoid (2) driving the needle. Thrust from closed position to open position. And there is a holding solenoid (2) to drive the thrust needle from the closed position to the open position and from the open position to the closed position when the solenoid is connected to work with the Such a lottery (1) with such a control circuit The improvements include: - Coulomb regulators (4, 5; 5) for total throttling. The current (Q) is set to the specified value (Qo, Qc; Q10) where the amount of that current is a constant that is passed from the battery (1) to the solenoid. Grip type (2) when the needle is driven from the closed position to the open position and from the open to closed position. Which the Coulomb control device It sends that constant quantity of electric current to it. Such a solenoid, a selective circuit for the production of an energy signal that shows the battery The tory is then connected to the tethered solenoid. Under specified conditions, and a solenoid valve that responds to the energy signal. To connect the aforementioned battery to a solenoid Such adhesion, in this way, is sent after work to the aforementioned adhesion solenoid, and which the aforementioned Coulomb control device consists of; The power is supplied to the bonded solenoid from the battery and for the production of a power stop signal when The total amount of electric current delivered to the solenoid has The value is equal to the aforementioned constant of the current 3 0. The solenoid valve control circuit according to claim 29, the aforementioned Coulomb control circuit consists of: - An amplifier connected to a bonded solenoid. It serves to amplify the electric current that will be sent to the solenoid in Defined boost level, a set of capacitors that can be charged up to a level that Defined as the response to the amplified current from the amplification circuit, and the component for the constant voltage comparison. Such a capacitor set is comparable and produces a signal of stopping power when the voltage is applied across the capacitor pack. The sitter is equal to the aforementioned voltage difference. 3. 1. The solenoid control circuit according to claim 30, where the total quantity current with such constant is the amount of exposure. The power required of such a bonding solenoid when the battery The ri has a constant potential difference, and a constant Different fields of the comparator are equal to The potential difference throughout the capacitor set when the Such current is required to be supplied to the clinging solenoid. 3 2. Clause 29 of the solenoid valve control circuit, in which the signal stops the supply of energy from the coulomb control circuit. g Hunt has been sent to the aforementioned selection circuit. The power down circuit 3. 3. Solenoid valve control circuit according to claim 29, which the aforementioned selection circuit consists of a timing circuit for production. The stop signal produces that power when the signal stops. Energy is not produced within a predetermined time period. After the power signal has been produced, 3 4. The solenoid valve control circuit according to claim 33, which is also included in the selection circuit. Instruction set to be tried Produce a power signal again when the signal stops. The power signal generator was produced by the said timing circuit. 3. 5. Solenoid valve control circuit according to claim 34. The schedule circuit has failed at Produce failure signal for chain stop control Leonid said When the signal stops providing such energy Was produced within a specified period of time after attempted The aforementioned power signal has been produced. 3 6. The solenoid valve control circuit in accordance with Clause 25, which determines the failure circuit, consists of Circuit cross closing the tongue Which forces the tongue to be closed And there is a circuit showing the problem When in a failure state 3 7. The solenoid valve control circuit according to claim 28, which the selection circuit also consists of. Defective circuit To produce a failure signal to stop the solenoid control. It is down when the signal stops providing such energy. It is produced within a specified time after the energizing signal. 3 8. In the solenoid valve control circuit for connecting the battery to the Solenoids provide energy to stimulate the tongue It consists of the body part of the tongue which can move between Open and closed positions The said solenoid will drive the needle. When such a solenoid has been connected to work with The battery as such a control circuit The modifications include: - Coulomb regulators that regulate the total amount of current. To have the same fixed value that has been sent from the battery The relay to the said solenoid When the body of the tongue has been moved from the closed position to the open position. And from the open position to the closed position where the control device Control the Coulomb, sending a constant electric current to the chain. Such leoyids, a selective circuit for the production of energy signals, are expressed That the battery will be connected to the said solenoid Under the specified conditions, and a solenoid valve drive that responds to the energy signal. Said to connect the said battery to the said solenoid In order to provide energy to the solenoid, and which control devices The Coulomb controller contains: - Coulomb control circuit for indicating the total amount of current delivered. From the aforementioned battery to the aforementioned solenoid, and to produce a power stop signal when the total amount of electricity 3 9. The solenoid valve control circuit according to claim 38, the aforementioned solenoid valve control circuit consists of: - Circuit Expansion attached to such solenoid for amplification. Electricity to be supplied to the solenoid at a predetermined boost level, a set of capacitors that can increase the charge up to the charging level. Which is defined as response to the amplified current from the circuit Such amplification, and the comparitor used to compare the voltage across the package. Such sitters with a comparable potential difference and produce a stop signal for that energy when the potential difference is across the series. The capacitors are equal to the aforementioned comparative voltage 4 0. Solenoids control circuit according to claim 39, where the constant quantity of such current is the quantity that Required by such solenoid when the battery voltage They have a constant, and the potential difference is as follows. The capacitance of such capacitors is equal to the potential difference. Throughout the a series of capacitors, when the required amount of current Being sent to the said solenoid 4 1. A solenoid valve control circuit in accordance with claim 38, in which the signal stops the supply of energy from the aforementioned Coulomb control circuit. Was sent to the selection circuit And the aforementioned selection circuit works. Respond to the power stop signal to stop production. Energy signal 4 2.Solenoid valve control circuit according to claim 38, which the aforementioned selection circuit consists of The timing circuit at which the signal is produced Stops the production of the power signal when the signal stops. Let that energy not be produced within a specified period after From where the power signal has been produced 4 3. Solenoid valve control circuit according to claim 42, which the aforementioned selection circuit also consists of Instruction set to be tried To produce a signal, one more attempt to produce a signal It provides power when the timing signal is also produced. 4 such timing circuit 4. The solenoid valve control circuit, according to claim 43, the selection circuit also contains a failure determination circuit that Will produce a failure signal to stop the control of the chain Such leoyids when the power stop signal was not produced. Up within the specified time After the power signal sounds It was produced again from the operation of the above attempt signal 4. 5.Solenoid valve control circuit in accordance with claim 44, the failure-defining circuit consists of: Cycle across the closing of the tongue at Will force the tongue to be closed And there is a cycle showing birth Problems when in a failing state 4 6. The solenoid valve control circuit according to claim 38, which the selection circuit also includes The circuit defines the failure at It will produce a failure signal to stop the control of the said solenoid when the stop power signal is not produced. Up within a specified period of time after the power output is loud. It has been produced 4 7. In the solenoid valve control circuit used to connect the battery to work. With the solenoid to provide energy to the solenoid in the To stimulate the tongue that consists of the body part of the tongue, which It can move between open and closed positions, with the solenoid to drive a thrust needle when the said solenoid is connected. With the battery with the aforementioned control circuit The improvements include: - Coulomb regulators used to control the total amount of electric current. Set to equal the value set By the total amount of electric current Said was sent by Battery to the said solenoid. When the body of the tongue is moved from a closed position. To open position And from the open position to the closed position, a selective circuit that produces a power signal indicates that the battery The relay will be connected to the said solenoid under The specified conditions, and which the Coulomb control device contains, consists of: - A monitor circuit used to display the potential difference of the transmitted current. Provided by the said battery And it produces signals corresponding to Different battery potential, the timing circuit for the power to the said solenoid is the answer. The power signal is received from the selection circuit and the signal corresponds to the voltage difference of that battery from the The monitor circuit shows the voltage level of the incoming current, and the drive circuit that connects the battery to the solenoid. To power the solenoid, it is for a specified period of 4. 8. In the solenoid valve control circuit used to connect the battery to It works with solenoids to provide energy to the solenoid in the To stimulate the tongue with the body, tongue, which is able to Movable between open and closed positions By a loud solenoid It serves to drive a needle when the solenoid is connected. The battery can be operated with the aforementioned control circuit, which enhancements include: - Coulomb controller that controls the total amount of current. Set to equal the value set By the total amount of electric current It is transmitted from the aforementioned battery to the said solenoid. When the body of the tongue is moved from position. Closed to open position And from the open position to the closed position, the selective circuit for producing the energy signal indicates that The battery will be connected to the said solenoid. Within a predetermined condition, the aforementioned Coulomb controller consists of: - The timing circuit for the power to the said solenoid is in response Receive the energy signal from the selective circuit, and the drive circuit that connects the battery to the said solenoid. In order to give energy to such a solenoid for a period of time Has defined it (48 claims, 15 pages, 19 photos)