Gate with variable gate control for handling agricultural granular materials
원문보기
IPC분류정보
국가/구분
United States(US) Patent
등록
국제특허분류(IPC7판)
E05F-015/40
B65D-090/54
B65D-090/48
B65D-088/54
B65D-090/58
출원번호
US-0148090
(2014-01-06)
등록번호
US-9527665
(2016-12-27)
발명자
/ 주소
Schlagel, Bill
출원인 / 주소
Schlagel, Inc.
대리인 / 주소
Christensen Fonder P.A.
인용정보
피인용 횟수 :
0인용 특허 :
31
초록▼
A variable gate with control for grain elevator applications utilizes a sliding gate panel. Two proximity sensors are arranged to provide full sensing and control functions of the gate remotely located. A first proximity sensor confirms gate is shut, and a second proximity sensor outputs a serial pu
A variable gate with control for grain elevator applications utilizes a sliding gate panel. Two proximity sensors are arranged to provide full sensing and control functions of the gate remotely located. A first proximity sensor confirms gate is shut, and a second proximity sensor outputs a serial pulse train signal for detecting movement of the gate panel. The second proximity sensor can be operatively coupled with gear teeth inherent to the drive mechanism (e.g., rack and pinion mechanism), or with a passive device such as a free sprocket on the motor shaft to sense the passage of each sprocket teeth, or may be placed at a linear portion that moves with the gate that has sequential indicating positions, such as metal or no metal positions. In one embodiment, the controller tracks the direction of the gate as pulses are receive, allowing the subsequent positioning of the gate.
대표청구항▼
1. A variable gate assembly, comprising: a gate frame that defines an opening, said opening being adapted for flow of a granular agricultural material therethrough;a gate panel slidably mounted within the gate frame, said gate panel being adapted for translation to a plurality of intermediate static
1. A variable gate assembly, comprising: a gate frame that defines an opening, said opening being adapted for flow of a granular agricultural material therethrough;a gate panel slidably mounted within the gate frame, said gate panel being adapted for translation to a plurality of intermediate static positions, each of said plurality of intermediate static positions being intermediate between a fully closed position and a fully open position within said gate frame;a drive mechanism operatively coupled with said gate panel, said drive mechanism including a pinion and a gear rack, a digital mobility sensor said digital mobility sensor being operatively coupled with a plurality of teeth and a respective plurality of gaps defined by said plurality of teeth, said plurality of teeth and said respective plurality of gaps being defined by one of said pinion and said gear rack;a mobilization source operatively coupled with said drive mechanism;said digital mobility sensor arranged to sense each tooth of said plurality of teeth and each gap of said respective plurality of gaps as said plurality of teeth and said respective plurality of gaps pass proximate said digital mobility sensor when said gate panel is translated to generate a pulse train signal;a digital gate panel proximity sensor positioned for detecting when said gate panel is in one of said fully open position and said fully closed position; anda central controller adapted to selectively control said mobilization source for selective translation of said gate panel in a first direction and a second direction, said central controller being adapted to receive said pulse train signal from said digital mobility sensor and a signal from said digital gate panel proximity sensor, said central controller being configured to determine a fraction of said opening that is obstructed by said gate panel when in any one of said plurality of intermediate static positions, said fraction being based on a combination of only said pulse train signal received from said digital mobility sensor and said signal received from said digital gate panel proximity sensor. 2. The variable gate assembly of claim 1, wherein said gate frame is adapted for installation on a grain elevator. 3. The variable gate assembly of claim 1, wherein said digital mobility sensor and said digital gate panel proximity sensor are inductive sensors. 4. The variable gate assembly of claim 1, wherein said digital gate panel proximity sensor is a gate-closed sensor. 5. The variable gate assembly of claim 1, wherein said mobilization source is an electric motor. 6. The variable gate assembly of claim 5, further comprising: a reversible motor controller operatively coupled with said central controller and said electric motor, said central controller controlling said electric motor through said reversible motor controller. 7. The variable gate assembly of claim 6, wherein said reversible motor controller is an inverter motor controller. 8. A variable gate assembly, comprising: a gate frame that defines an opening, said opening being adapted for flow of a granular agricultural material therethrough;a gate panel slidably mounted within the gate frame, said gate panel being adapted for translation to a plurality of intermediate static positions, each of said plurality of intermediate static positions being intermediate between a fully closed position and a fully open position within said gate frame;a drive mechanism operatively coupled with said gate panel;a mobilization source operatively coupled with said drive mechanism;a digital mobility sensor configured for detecting a translational movement of said gate panel and generating a pulse train signal in response thereto;a sprocket that includes a plurality of teeth and a respective plurality of gaps defined by said plurality of teeth, said sprocket being operatively coupled with said drive mechanism, said digital mobility sensor being arranged to sense each tooth of said plurality of teeth and each gap of said respective plurality of gaps as said plurality of teeth and said respective plurality of gaps pass proximate said digital mobility sensor to generate said pulse train signal;a digital gate panel proximity sensor positioned for detecting when said gate panel is in one of said fully open position and said fully closed position; anda central controller adapted to selectively control said mobilization source for selective translation of said gate panel in a first direction and a second direction, said central controller being adapted to receive said pulse train signal from said digital mobility sensor and a signal from said digital gate panel proximity sensor, said central controller being configured to determine a fraction of said opening that is obstructed by said gate panel when in any one of said plurality of intermediate static positions, said fraction being based on a combination of only said pulse train signal received from said digital mobility sensor and said signal received from said digital gate panel proximity sensor. 9. The variable gate assembly of claim 8, wherein said gate frame is adapted for installation on a grain elevator. 10. The variable gate assembly of claim 8, wherein said digital gate panel proximity sensor is a gate-closed sensor. 11. The variable gate assembly of claim 8, wherein said mobilization source is an electric motor, the variable gate assembly further comprising: a reversible motor controller operatively coupled with said central controller and said electric motor, said central controller controlling said electric motor through said reversible motor controller. 12. The variable gate assembly of claim 11, wherein said reversible motor controller is an inverter motor controller. 13. The variable gate assembly of claim 8, wherein said central controller determines said one of said fully open position and said fully closed position from said signal received from said digital gate panel proximity sensor, and said central controller determines said intermediate static position relative to said one of said fully open position and said fully closed position from said pulse train signal received from said digital mobility sensor to determine said fraction of said opening that is obstructed by said gate panel. 14. A variable gate assembly, comprising: a gate frame that defines an opening, said opening being adapted for flow of a granular agricultural material therethrough;a gate panel slidably mounted within the gate frame, said gate panel being adapted for translation to a plurality of intermediate static positions, each of said plurality of intermediate static positions being intermediate between a fully closed position and a fully open position within said gate frame;a drive mechanism operatively coupled with said gate panel;a mobilization source operatively coupled with said drive mechanism;a digital mobility sensor configured for detecting translational movement of said gate panel and generating a pulse train signal in response thereto;a passive structure that is operatively coupled to said gate panel and is not part of said drive mechanism, said passive structure defining a plurality of gaps, said digital mobility sensor being arranged to detect each gap of said plurality of gaps as said plurality of gaps pass proximate said digital mobility sensor when said gate panel is translated to generate said pulse train signal;a digital gate panel proximity sensor positioned for detecting when said gate panel is in one of said fully open position and said fully closed position; anda central controller adapted to selectively control said mobilization source for selective translation of said gate panel in a first direction and a second direction, said central controller being adapted to receive said pulse train signal from said digital mobility sensor and a signal from said digital gate panel proximity sensor, said central controller being configured to determine a fraction of said opening that is obstructed by said gate panel when in any one of said plurality of intermediate static positions, said fraction being based on a combination of only said pulse train signal received from said digital mobility sensor and said signal received from said digital gate panel proximity sensor. 15. The variable gate assembly of claim 14, wherein said passive structure is mounted directly to said gate panel. 16. The variable gate assembly of claim 14, wherein said passive structure is selected from the group consisting of a gear rack, a sprocket, and a plate defining said plurality of gaps. 17. The variable gate assembly of claim 14, wherein said passive structure is a plate defining a plurality of apertures.
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