序号 专利名 申请号 申请日 公开(公告)号 公开(公告)日 发明人
121 Melodeon US15019D US15019A 1856-06-03
122 Pipe organ and method for its operation US11827960 2007-07-13 US20080022838A1 2008-01-31 Jurgen Scriba; Markus Harder-Volkmann
The invention relates to a method for the operation of a pipe organ, with at least one of the valves being provided as a valve actuated in multiple ways which can be controlled to open at least on the basis of two different note demands. In accordance with the invention, on a note demand on a valve actuated in multiple ways which is already open due to another note demand, the valve actuated in multiple ways is closed for an interruption time period and then opened again. The invention further relates to a method for the operation of a pipe organ, wherein information input at the console is transmitted via a data bus to remote receiver units which are connected to valves and/or stop pallets for their control, with the receiver units determining individually from the information transmitted whether, and if so, which of the valves and/or stop pallets connected to the respective receiver unit are to be opened or closed. The invention further relates to a pipe organ with which the method in accordance with the invention can be carried out.
123 Duplex valves and methods for their use US744291 1985-06-12 US4586419A 1986-05-06 Peter J. Gerger, Jr.
Duplex pneumatic valves are provided for use in regulating the flow of air from a wind chest through an orifice to a pneumatic work chamber such as an organ pipe. The duplex valves comprise a principle valve having a rear surface and a seating surface seatable on the orifice and at least one venting channel in the principle valve means communicating with each of the seating and rear surfaces, thereof, and an initial valve having a seating surface seatable on the venting channel at the rear surface of the principle valve means. Methods for controlling the flow of air into, for example, an organ pipe are also disclosed employing the duplex pneumatic valves of this invention.
124 Valve for pipe organs US572579 1975-04-28 US3967522A 1976-07-06 Paul A. Klann
The valve member of a solenoid operated valve adapted to be mounted within the windchest of a pipe organ for opening and closing an aperture leading to a pipe is provided with a circular projection on one surface thereof adapted to project into the circular aperture with minimal clearance to reduce the amount of air flow through the aperture should the main portion of the valve member separate slightly from the seat surrounding the aperture as a result of bounce during a valve closing operation.
125 Electromagnetic valve for wind-pipe organs US38108473 1973-07-20 US3903777A 1975-09-09 CORBETT GEORGE DOUGLAS
A pallet operator for a valve of a wind-pipe organ comprises a solenoid having an armature but no dead stop, and an air damper for damping the movement of the armature to reduce pallet acceleration on valve opening and reduce pallet bounce on valve closure. In one example, the armature is a piston which is a sliding fit in a cylinder closed by a non-magnetic part to provide a piston and cylinder damper.
126 Pallet valve construction US3722347D 1970-11-30 US3722347A 1973-03-27 SCHLICKER H
A pallet valve for use in a pipe organ windchest for controlling the flow of air under pressure through an oblong opening in the windchest. The pallet valve comprises an elongated, generally flat, metallic body considerably longer than the opening and pivotally movable at one end about an axis substantially removed from the opening. A pair of laterally spaced, parallel flanges, coextensive with the valve body, depend from one face of the body and serve to reinforce and stiffen it. The other face of the body is provided with a cushion engageable with the area surrounding the opening for sealing the same.
127 Roller valve device US3605546D 1970-05-15 US3605546A 1971-09-20 KLANN PAUL A
THE ROLLER VALVE DEVICE MINIMIZES THE SLIDING FRICTION IN THE OPERATION OF THE VALVE BY LOCATING TWO ROLLERS BETWEEN A PAIR OF GUIDE SURFACES WHICH ARE SPACED APART A DIFFERENCE LESS THAN THE SUM OF THE DIAMETERS OF SAID ROLLERS AND WRAPPING A FLEXIBLE RESILIENT BAND UNDER TENSION ABOUT SAID ROLLERS IN AN S-SHAPED CONFIGURATION TO DEFINE A FREELY ROTATABLE CLUSTER. ONE SIDE OF THE CLUSTER IS EXPOSED TO AIR UNDER PRESSURE AND THE VALVE PASSAGE IS LOCATED IN ONE OF THE GUIDE SURFACES. UPON CONTROLLED MOVEMENT OF THE CLUSTER BETWEEN THE GUIDE SUFRACES, THE BAND MAY BE SELECTIVELY DISPLACED BETWEEN A NON-SEALING POSITION WITH RESPECT TO THE VALVE PASSAGE TO CONTROL THE FLOW OF AIR PRESSURE THROUGH SAID VALVE PASSAGE.
128 Electrically controlled pneumatic valve for electric organs US39945553 1953-12-21 US2909094A 1959-10-20 KLANN PAUL A
129 Pipe organ wind chest and valve action US43304154 1954-05-28 US2798399A 1957-07-09 BOUMA DUNCAN F
130 Organ valve US11012749 1949-08-13 US2577580A 1951-12-04 HALLMAN JACOB C
131 Air valve unit for pipe organs US32731040 1940-04-01 US2247838A 1941-07-01 GRANT CASPER E
132 Pneumatic organ US8800536 1936-06-29 US2131637A 1938-09-27 NORBURN CHARLES S
133 Organ valve US51677331 1931-02-18 US1827864A 1931-10-20 WOODWARD LEWIS A
134 Adjustable pipe organ valve US31522328 1928-10-26 US1821286A 1931-09-01 BARROWS DONALD S
135 Valve for organs and the like US35618529 1929-04-18 US1769966A 1930-07-08 REISNER WILLIAM H
136 Air valve for pipe organs US18493027 1927-04-19 US1747894A 1930-02-18 FLAHERTY FREDERICK J
137 Calliope US10386026 1926-04-22 US1725025A 1929-08-20 SYLVIA JOSEPH A
138 Combination magnet and primary valve US16212927 1927-01-19 US1699363A 1929-01-15 KLANN AUGUST A
139 Pneumatic action for pipe organs US5515025 1925-09-08 US1692507A 1928-11-20 FREDERIC LAMONTAGNE
140 Electropneumatic pipe-organ action US61508923 1923-01-26 US1587411A 1926-06-01 PERRY ROY R
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