Energy conservation type hydraulic elevator and speed control method of hydraulic elevator
First Claim
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1. An energy conservation type hydraulic elevator comprising:
- a main elevator having a main cylinder and a main ram mounted with a cage for carrying a load having a burden weight in a range between a minimum burden weight and a maximum burden weight;
a balance elevator having a subcylinder and a subram mounted with a fixed weight;
a communicating path fluidically communicating said main cylinder and said subcylinder to allow working fluid to flow in or flow out of said main cylinder to move said main elevator up and down;
a first hydraulic pump located in said communicating path such that said first hydraulic pump is in communication with said main cylinder and said subcylinder for selectively pumping working fluid in a first direction in which working fluid is pumped from said subcylinder to said main cylinder and in a second direction in which working fluid is pumped from said main cylinder to said subcylinder;
an adjusting weight with about half of said maximum burden weight provided on said fixed weight;
an emergency descent valve discharging working fluid to the communicating path between said first hydraulic pump and said main cylinder;
a second hydraulic pump connected to said communicating path and connected to a working fluid supply for modifying the relative positions of said main cylinder and said subcylinder by pumping additional working fluid from said working fluid supply into the communication path at a location between said balance elevator and said first hydraulic pump; and
a device for inverter-controlling a motor for driving said first hydraulic pump.
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Abstract
In the energy conservation type hydraulic elevator, a load carrying elevator and a balancing elevator are each provided on a respective hydraulic cylinder. The hydraulic cylinders are connected to one another by a fluid circuit. The balancing elevator is weighted so as to minimize the power input required of a hydraulic pump in the fluid circuit. In the speed control method of a hydraulic elevator, a negative pressure is first produced in a fluid path connecting a hydraulic pump and a control valve so that oil is drawn into the fluid flow path from an oil tank by way of a nonreturn valve. Descent of the elevator is then permitted to start by opening a control valve, allowing hydraulic fluid to flow from a cylinder, by way of a hydraulic pump, to an oil tank. The hydraulic pump and a motor rotate with the hydraulic fluid, and the motor is rotated at a synchronous number of revolutions by switching on an inverter power source when the number of revolutions has reached the synchronous number of revolutions of the motor.
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Citations
12 Claims
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1. An energy conservation type hydraulic elevator comprising:
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a main elevator having a main cylinder and a main ram mounted with a cage for carrying a load having a burden weight in a range between a minimum burden weight and a maximum burden weight; a balance elevator having a subcylinder and a subram mounted with a fixed weight; a communicating path fluidically communicating said main cylinder and said subcylinder to allow working fluid to flow in or flow out of said main cylinder to move said main elevator up and down; a first hydraulic pump located in said communicating path such that said first hydraulic pump is in communication with said main cylinder and said subcylinder for selectively pumping working fluid in a first direction in which working fluid is pumped from said subcylinder to said main cylinder and in a second direction in which working fluid is pumped from said main cylinder to said subcylinder; an adjusting weight with about half of said maximum burden weight provided on said fixed weight; an emergency descent valve discharging working fluid to the communicating path between said first hydraulic pump and said main cylinder; a second hydraulic pump connected to said communicating path and connected to a working fluid supply for modifying the relative positions of said main cylinder and said subcylinder by pumping additional working fluid from said working fluid supply into the communication path at a location between said balance elevator and said first hydraulic pump; and a device for inverter-controlling a motor for driving said first hydraulic pump. - View Dependent Claims (9)
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2. An energy conservation type hydraulic elevator comprising:
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a main elevator having a main cylinder and a main ram mounted with a cage for carrying a load; a balance elevator having a subcylinder and a subram; a fluid path in communication with both of said main cylinder and said subcylinder; a first pump located along said fluid path, wherein said first pump can be driven by a motor and by fluid pressure in said fluid path, wherein when said first pump is driven by a motor, said first pump increases hydraulic pressure in at least a portion of said fluid path; wherein when said first pump is driven by fluid in said fluid path, said pump extracts power from said fluid; wherein a three-phase motor is connected to said first pump, said three-phase motor acting as driving means driving said first pump to increase hydraulic pressure in at least a portion of said fluid path, said three-phase motor also acting as power generating means for generating power such that when said first pump is driven by fluid in said fluid path, said first pump drives said three-phase motor as a generator; and the energy conservation elevator further including a second pump communicating with said fluid path, said second pump connected to said fluid path at a location between the first pump and the subcylinder. - View Dependent Claims (3, 4)
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5. An energy conservation type hydraulic elevator comprising:
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a main elevator having a main cylinder and a main ram; a balance elevator having a subcylinder and a subram; a fluid path communicating with both of said main cylinder and said subcylinder; pumping and generating means disposed along said fluid path for operating in a pumping mode and in a generating mode, wherein in a pumping mode, said pumping and generating means pumps hydraulic fluid located in said fluid path, and in a generating mode, said pumping and generating means extracts power from said fluid, said pumping and generating means including a first pump; and a second pump connected to said fluid path at a location between said pumping and generating means and said subcylinder. - View Dependent Claims (6, 7, 8)
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10. A hydraulic elevator comprising:
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an elevator having a main cylinder and a main ram mounted with a cage for carrying a load; a fluid path for supplying fluid to said main cylinder and for removing fluid from said main cylinder; pumping means connected to said fluid path for pumping fluid through said fluid path to said main cylinder to cause said elevator to ascend and for being driven by said fluid when fluid is exiting said main cylinder for descending said main elevator; a valve disposed along said fluid path between said pumping means and said main cylinder; a motor connected to said pump, with an inverter control connected to said motor; and means for creating a negative pressure in a portion of said flow path on a pumping means side of said valve prior to an opening of said valve for carrying out a descending operation of said elevator. - View Dependent Claims (11, 12)
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Specification
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Current AssigneeKaisei Kogyo Kabushiki Kaisha
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Original AssigneeKaisei Kogyo Kabushiki Kaisha
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InventorsHasegawa, Fuminori
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Primary Examiner(s)Skudy, R.
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Assistant Examiner(s)BERHANE, ADOLF D
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Application NumberUS07/978,462Time in Patent Office670 DaysField of Search187/110, 187/111, 187/68, 187/69, 187/70, 187/94, 187/29.2US Class Current187/274CPC Class CodesB66B 1/24 Control systems with regula...F15B 11/003 Systems with load-holding v...F15B 21/14 Energy-recuperation meansF15B 2211/20569 capable of working as pump ...F15B 2211/20576 with multiple pumpsF15B 2211/7052 Single-acting output membersF15B 2211/88 Control measures for saving...
