US465390A - Pipe-organ - Google Patents

Description

3 Sheets-Sheet 1..

PIPE ORGAN.

Patented Dee.15,1891.

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/ A// f /f/ J. SGHWBRTNBR.

(No Model.)

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Patented Deo. 15., 1891.

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J. SGHWERTNER.

(No Model.)

jizz/@Mor Jaw/wiz Schweriner (No Model.) 3 Sheets-Sheet 3. J. `SGHWERTNERl PIPE ORGAN No. 465,390. Patented Deo. 15, 1891.

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UNITED STATES PATENT OFFICE.

J OSEPII SOIIIVERTNER, OF DETROIT, MICHIGAN.

PIPE-ORGAN.

SPECIFICATION forming part of Letters Patent No. 465,3QO, dated December 15, 1891. Application filed November (i, 1890. Serial No. 370,554. (No model.)

T0 all whom t may concern:

Be it known that I, JOSEPH SOHWERTNER, a citizen of the United States, residing at Detroit, in the county of lVayne and State of Michigan, have invented certain new and useful Improvements in Pipe-Organs, of which the following is a specification, reference being had therein to the accompanying drawings.

This invention relates to new and useful improvements in organs; and the object of the invention is to simplify the operation of registration by enabling the performer to set a number of musical combinations before beginning to play and subsequently throw on any desired combination bya movement of a single lever or other mechanical connection.

The invention relates to an improvement in pipe-organs; and it consists in the peculiar construction and arrangement of parts more fully hereinafter described, and definitely pointed out in the claims.

In the drawings, Figure l is a sectional side elevation of an organ to which my device is applied. Fig. 2 is a plan view of the valve register and operating mechanism. Fig. 3 is a vertical'longitudinal sect-ion on line o: fr. Fig. l is a vertical cross-section on line g/ y. Fig. 5 is a front elevation of the key-board. Fig. 6 is a detail of one of the valves of the valve-register. Fig. Tis a detail of one of the pneumatic motor devices.

Ais the casing, B the key-board, C the windchest, D the register-slides, E the pipes, F the draw-stops, of the pipe-organ, of usual construction, the bellows, wind-trunk, and some .of the minor parts being omitted from the drawings.

AGr is an air-chamber having conduits leading therefrom to suitable pneumatic motor devices I', (more fully hereinafter described) said motor devices corresponding in number to the musical registers of the organ, and adapted to throw the same in or out of action, either by direct connection to the registerslides or (in a pneumatic organ) to the register-valves.

Il are a series of control-passages governing` the action of the pneumatic-motor devices l', which I preferably form in the following manner:

J is a valve-register within the air-chamber G, having a system of ports J provided with valves J2. These ports are arranged in series, each series corresponding in number to the musical registers and are adapted to register with a corresponding series of ports a in the air-chamber. Each of the ports a opens into a conduit leading to an expansion device or bellows I'I, which has ableeding-valve e and a connecting-rod f, through which the movement of the bellows in expanding is communicated to the valve g of the pneumatic-motor device I, all so arranged that if one or more of the valves J2 in any series or port J are open and said series is made to register with the ports a the compressed-air from the airchamber G is free to pass through said open ports and conduits into the bellows Il.

Although the bleeding-valve allows a portion of the air to escape, the aperture is so small in comparison with the size of the conduit that it does not interfere with the operation of the device; but as soon as the air-current is cut off by the closing of the port d the bellows will collapse, either by its own gravity or the tension of a spring, and the valve g will assume its normal position.

The valve-register J may be of any desired form and operate in any way, admitting of such a movement that each series of its ports J may be made to register with the ports a; but I preferably use a rotary slide, arranging the ports J in radial series and the ports a in a radial line in the bearing b beneath, as shown in Figs. 2 and a.

K is a shaft on which the valve-register is mounted, which is connected by bevel gearwheels K to the shaft K2, extending to the front of the organ in reach of the performer, and the latter is provided with the indicator K3 and hand wheel or knob K4, preferably so arranged that a complete revolution of the valve-registeris made for each revolution of the hand-wheel K4.

K5 is an indicator-dial, having marked around its periphery numbers corresponding to the different series of valves on the valveregister'.

M is a ratchet-wheel on the shaft K, adapted to be operated by the pawl M. suitably connected to the foot-lever N, also under the control of the performer.

O are a series of fingers pivotally secured within the air-chamber above the valve-register J and corresponding in number to the valves J2 of each series of ports J. These fingers are for the purpose of opening the valves J 2 whenever the latter stand in proper relation thereto, and are adapted to be oper-y ated by a 'series of extra stops or levers O, (corresponding to the musical stops of the organ,) to which they are suitably connected by connecting-rods, rollin g-rods, the., as shown in Figs. 2 and 3.

I O2 are springs normally holding the fingers O in their raised position out of the path of the valves. On the drawings I have shown the finger O arranged to operate that series of valves which is directly over the ports a; but it is evident that they may be placed in any other position around the valve-register and operate in the same manuel'.

I) are universal bars extending radially across the slide behind each series of valves and adapted to close the same. P are actuating striker-arms on each bar. v

Q is a disk beneath the slide J, supported on rods c, connected to the bell-cra-nks d, adapted to be operated by the stop Q', all so arranged that by a suitable movelnent of the stop-rod Q the disk Q may be raised,striking the levers P and closing all the valves.

Ris another stop-rod adapted to operate any one of the bars P in the proper position of the slide.

The motor device I maybe of any suitable construction for operating the registers; but in order to give a sufficient amount of power with the lightest and most delicate action I preferably use two or more motors for each stop, such as shown in the drawings, in which I is a small bellows placed in proximity to an extension G of the air-chamber G and having the valve g, controlling` its air-supply, connected by the rod f to the bellows Il', as before described. The bellows I in turn is connected by suitable levers to the valve h, controlling the admission of air into the two conduits ,7' 7a, leading, respectively, into each halt` of the double bellows I2, which latter is of sufficient size to furnish all the power necessary to operate the registers of the organ, and, as shown in Fig 7, is constructed in the following` manner:

Z and m are the two parts of the bellows, which are secured to opposite sides of the stationar f division-board n. The part Z receives its air from the conduit j and the part 'm from the conduit k. o are links holding the partsZ and m in iixed relation to each other, but admitting of a movement in relation to the board n. p is a lever connecting the bellows Z to the register-slide D or (in pneumatic organs) the register-valve.

Each of the valves g it is provided with an exhaust-port through which the air can escape from the bellows I I2 when the valves are in the proper position to register therewith.

In practice the operation of the device is as follows: Before beginning to play, thepcrformer determines the proper registration ot the piece to be executed and sets the desired musical combination in the following inanner: Snpposing the indicator at first to b e set at No. l, the operator sets the first combination by pressing the proper stop-levers O, which, through their connecting mechanism, operate the fingers O and open the corresponding valves J 2 of the iirst series of apertures J. The indicator is now turned to No. 2, which brings another series of valves in proximity to the lingers O, and the second combination may be set, and so 011 until the desired combinations are set. The indicator is now turned back to No. l, or whichever one of the combinations is first to be used, and the main bellows of the organ is set in operation, iillin g the air-chamber G with coinpressed air, which passes through the open ports of the first series of valves of the valveregister and the ports a, with which they are registered, thence through their respective conduits to the bellows l;l,which in expanding move the valves g, allowing the bellows I to till. They in turn move the valves h, admitting the air to the conduit j and filling the part l of the bellows I2, and at the same time allow ing the air in the part m to exhaust through the conduit 7.; and exhaust-port s. This operation moves the lever p, and through it the registers D. When the proper time fora new combination arises, it may be instantly thrown on either by a movement of the foot-lever N or the hand-wheel K4, which revolves the valveregister J, registering another set of ports J with the ports d, and thereby throwing into action another set of musical registers at the same time the old combination is thrown out of action, for as soon as any of the controlcurrents are cut off the valves of the pneumatic-motor devices which they govern will be reversed in the manner before described.

Although I have shown and described my device as adapted to be operated by compressed air, it is obvious that it may be so constructed as to work with an exhaust system and that it may be applied to either pipe or reed organs, as the spirit of my invention embodies any pneumatic system for the purpose of throwing into action the musical registers of any organ, whereas the motor devices are governed by control-currents, which are themselves under the control of the performer. I

lVhat I claim as my invention is l. In an organ, the combination, with a series of musical registers, a series of pneumatic motors for the registers, a control-current passage for each motor, a single rotary valve-register for said passages arranged to rotate in'a horizontal plane over the ends of the passages, and means for actuating the rotary valve-register,substantially as described.

2. In an organ having a number of musical registers adapted to be operated by a eorresponding number of pneumatic-motor de- IOO IIO

vices, each motor device governed in its action by a control-current, and a single rotary valve-register rotating in a horizontal plane and forming the means of selecting said control-currents, substantially as described.

3. In an organ havinga number of musical registers adapted to be operated by a corresponding number of pneuinaticmotor devices, each motor device governed in its action by a control-current, a at rotary valveregister rotating in a horizontal plane forselecting said control-currents having` a system of valve-controlled ports in series adapt-ed t0 be registered with the ports of said controlcurrents, and means for actuating the valveregisters in whole or in part, substantially as described.

4. In an organ havinga number of musical registers adapted to be operated by a corresponding number of pneumaticmotor devices, each motor device governed in its action by a control-current, a fiat rotary valve-register for selecting said control-currents, having a system ot valve-controlling ports in series, and means for registering said series of ports seratzm with the ports of the controlcurrent and simultaneously, substantially as described.

5. In an organ having a number of musical registers adapted to be operated by a corresponding number of pneumatic-motor devices, each motor device governed in its action by a control-current, a rotary Valve-register for select-ing said control-currents, having a system of valve-controlled ports in series, corresponding to the ports of the control-current-s, and means for registering said series ot ports sercttm with the ports of the controlcurrents through a foot-lever under the control of the performer, substantially as described.

6. In an organhaving a number of musical registers adapted to be operated by a corresponding number of pneumatic motor devices, each motor device governed in its action by a control-current, a rotary valve-register for selecting said control-currents, having a system of valve-controlled ports in series corresponding to theports of the control-currents, means for registering each series of ports with said ports of the control-currents, and an 1ndicator forindicating the portion ofthe valveregister, lsubstantially as described.

7. In an organ havinganumberot musical registers adapted to be operated by a corresponding number of pheumatic-motor dcvices, each motor device governed in its action by a control-current, a rotary valve-register for selecting said control-currents, having a system of valve-controlled ports in radial series corresponding to the ports of the controlcurrent, means for rotating said valve-register to register each series of ports seriam with the ports of the control-currents, separate means for rotating the valve-register to register any series, and an indicator, substantially as described. y

S. In an organ having a numberof musical registers adapted to be operated by a corresponding number of pneumatic -motor devices, each motor device governed in its action by a series of control-currents, a rotary valveregister for selecting said control-currents, havinga system of valve-controlled ports in the radial series corresponding to the ports of the control-currents, and a payvl-and-ratchet device for rotating said valve register by means of a foot-lever under the control ofthe performer to register each series of ports serctm with the ports of the control-currents, substantially as described.

In testimony whereof I atx my signature in presence of two witnesses.

JOSEPH SCHVER'FNER.

Witnesses:

M. B. ODOGHERTY, P. M. HULBERT.

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