This invention relates to a hydraulic elevator wherein working oil is transferred from a tank to a jack or vice versa by means of a hydraulic pump which is driven by an electric motor, so as to cause the elevator to ascend and descend; characterized in that a hydraulic circuit is equipped with elect
This invention relates to a hydraulic elevator wherein working oil is transferred from a tank to a jack or vice versa by means of a hydraulic pump which is driven by an electric motor, so as to cause the elevator to ascend and descend; characterized in that a hydraulic circuit is equipped with electronically-controlled variable flow solenoid valves which set flow rates of the working oil in accordance with a program for electronic control in correspondence with respective stages of stop, slow speed ascent, full speed ascent, slow speed descent and full speed descent of the elevator.
대표청구항▼
1. A hydraulic elevator of the type in which a working oil is transferred from a tank to a jack having a ram, or vice versa, by means of a constant capacity type hydraulic pump so as to move said ram up and down to cause said elevator to ascend or descend, respectively, comprising: a cage type in
1. A hydraulic elevator of the type in which a working oil is transferred from a tank to a jack having a ram, or vice versa, by means of a constant capacity type hydraulic pump so as to move said ram up and down to cause said elevator to ascend or descend, respectively, comprising: a cage type induction electric motor in operable connection with a source of electric power and said pump, for driving said pump during ascent of said elevator, and for driving by said pump during descent of said elevator so as to feed generative electric power developed in said motor to said source of electric power; hydraulic circuit means for conducting said working oil between said tank, said pump and said jack; non-return valve means in said hydraulic circuit means between said pump and said jack for preventing the transfer of said working oil from said jack to said pump; normally open electronically-controlled variable flow solenoid valve means in said hydraulic circuit for preventing the transfer of said working oil from said pump to said jack during starting of said motor means and also upon said ascending elevator's reaching a desired floor stop; pilot control means in said hydraulic circuit means for applying a hydraulic pressure signal from said hydraulic circuit means to said normally open electronically-controlled variable flow solenoid valve to cause said valve to close; normally closed electronically-controlled solenoid valve means in said hydraulic circuit means in parallel between said non-return valve means and said pump at one end and said tank at another end, for preventing the transfer of said working oil from said jack to said tank during ascending of said elevator and from said jack to said pump when said elevator is stopped at a desired floor stop; electronic control means for ascent for starting said motor and for gradually closing said normally open electronically-controlled variable flow solenoid valve means once said motor is started, to cause said working oil to be transferred at a gradual rate of flow by said pump from said tank to said jack to cause said elevator to begin to ascend at a slow speed; for closing said normally open electronically-controlled variable flow solenoid valve means completely when said elevator has begun to ascend at said slow speed, to cause said working oil to be transferred by said pump at a maximum output rate of flow to said jack to cause said elevator to further ascend at an accelerating speed; for maintaining said normally open electronically-controlled variable flow solenoid valve closed completely upon said further ascending of said elevator, to cause said working oil to continue to be transferred by said pump to said jack at said maximum output rate of flow to cause said elevator to ascend at a maximum speed; for gradually opening said normally open electronically-controlled variable flow solenoid valve means as said elevator approaches a desired floor stop, to cause said working fluid to be transferred by said pump to said jack at a decreasing output rate of flow to cause said elevator to further ascend to said desired floor stop at a decelerating speed; and for causing said normally open electronically-controlled variable flow solenoid valve means to assume its normally open state, to cease the transfer of said working oil from said pump to said jack, and to stop said motor when said elevator has ascended to said desired floor stop; electronic control means for descent for gradually opening said normally closed electronically-controlled variable flow solenoid valve, to cause said working oil to be transferred, under the influence of gravity acting upon said elevator, from said jack through said pump to said tank, and to apply a hydraulic pressure signal to said pilot control means to close said normally open electronically-controlled variable flow solenoid valve, to cause said pump to rotate and drive said motor and to cause said elevator to descend at a slow speed; for opening said normally closed electronically-controlled variable flow solenoid valve completely to transfer said working oil at an increasing rate of flow from said jack through said pump to said tank to cause said motor to be driven at an increasing speed and to cause said elevator to descend at an accelerating speed; for maintaining said normally closed electronically-controlled variable flow solenoid valve completely open to cause said working oil to be transferred from said jack through said pump to said tank at a maximum output rate of flow to drive said pump and said motor at a maximum speed, and while maintaining said normally closed electronically-controlled variable flow solenoid valve completely open, energizing said motor so as to cause said motor to be driven as a generator by said pump to supply electrical power to said source of electrical power, and to cause said elevator to descend at a maximum speed; for controlling said normally closed electronically-controlled variable flow solenoid valve such that the rate of flow of said working oil transferred therethrough is greater than the rate of flow of said working oil through said pump to said tank; for gradually closing said normally closed electronically-controlled variable flow control valve to cause said working oil to be transferred from said jack through said pump to said tank at a decreasing rate of flow as said elevator approaches a desired stop floor to cause said elevator to descend at a decelerating speed; and for causing said normally closed electronically-controlled variable flow solenoid valve to assume its normally closed state to cease the transfer of said working oil from said jack when said elevator has descended to said desired floor stop and to de-energize said motor; and an electronic flow meter in said hydraulic circuit means between said non-return valve means and said jack and in operable connection with both said electronic control means for ascent and descent, for detecting deviation of the rate of flow of said working oil from a set value and for applying a feedback signal corresponding to said deviation to said electronic control means for ascent and descent to cause said normally open and normally closed electronically-controlled variable flow solenoid valves to be adjusted to cause said rate of flow of said working oil to be regulated to said set value. 2. A hydraulic elevator as defined in claim 1 wherein said electric motor rotates in a forward direction during the ascent of said elevator and rotates in a reverse direction during the descent of said elevator. 3. A hydraulic elevator as defined in claim 1, further comprising: first limit switch means in operable connection with said electronic control means for ascent, said first limit switch means operating when said elevator ascends to a position immediately below a desired floor stop to cause said normally open electronically-controlled variable flow solenoid valve means to open gradually to cause deceleration of the ascent of said elevator; second limit switch means in operable connection with said electronic control means for ascent, said second limit switch means operating immediately before said elevator has ascended to said desired floor stop to cause said normally open electronically-controlled variable flow solenoid valve means to open when said elevator has ascended to said desired floor stop; third limit switch means in operable connection with said electronic control means for descent, said third limit switch means operating during full speed descent of said elevator to permit the descent speed of said elevator to be controlled by said normally closed electronically-controlled variable flow solenoid valve; fourth limit switch means in operable connection with said electronic control means for descent, said fourth limit switch means operating to cause said normally closed electronically-controlled variable flow solenoid valve to begin closing gradually to cause deceleration of the speed of descent of said elevator; and fifth limit switch means in operable connection with said electronic control means for descent, said fifth limit switch means operating immediately before said elevator has descended to a desired floor stop to cause said normally closed electronically-controlled variable flow solenoid valve to assume its normally closed state.
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이 특허에 인용된 특허 (3)
Walters Ronald Bernard (Wembley EN) Hamey Peter Michael (Emsworth EN) Hammond John Anthony Gordon (Guildford EN) Lindon Thomas Derek (Ashtead EN), Hydraulic actuator controls.
Sors, Carlos Alberto, Elevator which counterweight is also the plunger of the propelling fluid dynamic device which produces and controls the movements thereof.
Dammeyer, Karl L.; Holbrook, Eric D.; Ihle, Darrin R.; McClain, Marc A.; Waltz, Lucas B., Materials handling vehicle estimating a speed of a movable assembly from a lift motor speed.
Dammeyer, Karl L.; Holbrook, Eric D.; Ihle, Darrin R.; McClain, Marc A.; Waltz, Lucas B., Materials handling vehicle estimating a speed of a movable assembly from a lift motor speed.
Dammeyer, Karl L.; Holbrook, Eric D.; Ihle, Darrin R.; McClain, Marc A.; Waltz, Lucas B., Materials handling vehicle estimating a speed of a movable assembly from a lift motor speed.
Dammeyer, Karl L.; Holbrook, Eric D.; Ihle, Darrin R.; McClain, Marc A.; Waltz, Lucas B., Materials handling vehicle measuring electric current flow into/out of a hydraulic system motor.
Dammeyer, Karl L.; Holbrook, Eric D.; Ihle, Darrin R.; McClain, Marc A.; Waltz, Lucas B., Materials handling vehicle monitoring a pressure of hydraulic fluid within a hydraulic structure.
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