US566977A - Gas-regulator - Google Patents

Description

(No Model.) -6

A. FROHLIGH.

GAS REGULATOR.

No. 566,977. Patented Sept. 1, 1896.

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PATENT ALBERT FRI-ILIOH, OF TOLEDO, OHIO.

GAS-REG U LATO R.`

SPECIFICATION forming part of Letters Patent No. 566,977, dated September 1, 1896.

Application filed June 4, 1894. Serial No. 513,498. (No model.)

To all whom it may concern:

Be it known that I, ALBERT FRHLICH, of Toledo, county of Lucas, and State of Ohio, have invented certain new and useful Improvements in Gas-Regulators; and I do hereby declare that the following is a full, clear, and exact description thereof, which will enable others skilled in the art to which it appertains to make and use the same, reference being had to the accompanying drawings, and to the figures ofreference marked thereon, which form part of this specification.

My invention relates to a gas-regulator, and has for its object to regulate the flow of gas and amount of heat necessary to hold the temperature of molten metal or analogous substance to an even predetermined point.

The invention consists in the use of mercury or analogous expansible material which shall by its expansion or contraction regulate the flow of the gas through the regulator, thereby increasing or diminishing the flow of gas, and consequently of heat, arising from the combustion thereof as the molten metal lowers or raises in temperature.

In the drawings, Figurel is a sectional clevation of the gas-regulator constructed and arranged in accordance with my invention. Fig. 2 is a side elevation of the same, showing a modiiied .form comprising a valve for controlling the entrance of the into the regulator.

1 designates a header having adepression 2 at the side thereof, thereby forming anannular flange 3, in which fits one. end of acylinder 4, preferably glass orof transparent material, and upon the opposite end of the tube is aheader 5, secured to the same in like manner, the parts being heldin an assembled position by bolts G, one upon cach side of the same, passed through perforations inlugs 7 and S upon theheaders 1 and 5, respectively. By this construction there is formed a chamber 9, which I will designate the gas-chamber, which is air-tight, this being accomplished as follows: Between the end of the cylinder fi and theheader 1 is interposed, first, a rubber or analogouselastic diaphragm 10, which is of a size to iill thedepression 2 in theheader 1. Bearing upon the diaphragm is' anannular metal ring 11, and interposed between thering 11 and the end of the tube semble the parts, they are brought together,

the rubber interposed between the same making a tight joint, which will effectually prevent the escape of the gas.Header 5 is provided withtubular extensions 14 and 15 for the entrance and exit of the gas, and screwed into the casting opposite the bore of the tubular extension 1i and extending into the chamber 9 is atube 16, the inner end of said tube extending to a point near theheader 1, thebore 16 of thetubular extension 15 being angled, as at 17, and opening into the chamber 9. Therefore the gas will iiow from any source of supply throughtube 16 into the chamber 9, through thetubular extension 15 to the burner, it being understood that the eX-tensions 11 and 15 are connected with the supply and burner pipes, respectively.Header 1 has a vertical passage-way 18, and communicating with the lower end thereof is apipe 19, which is secured at the opposite end with the reservoir 20. The upper end of the passageway 1S is enlarged, as at 21, being formed funnel-shaped, and below the same is acock 22, and leading from the passage-way 1S through theheader 1 to thediaphragm 10 is anopenin g 23. Therefore whencock 22 is opened and mercury or analogous material is poured into thefunnel 21 the reservoir20,pipe 19,passageway 18, andopening 23 are filled, when the valve is closed, the diaphragm having sufiicient elasticity to prevent the same from being expanded. Therefore when the regulator is not in operation all the parts are in substantially the position as shown in Fig. 1, and upon the expansion of the mercury or Vanalogous material thesame will be forced through theopening 23 and the diaphragm will be forced away from its seat, thereby decreasing the space between the same and the opening of the tube 1G and gradually cutting off the flow of gas into the gas-chamber 9, and consequently to the burner.

In order to control the force of the eXpansion of the mercury upon the diaphragm, so as to regulate the fire to produce different unvarying temperatures, thecasting 1 is form ed with a tubular extension 24:, in which IOO is a screw-threadedbolt 25. Therefore by screwing the bolt clear back when the mercury is poured into the regulator, by screwing the bolt forward, any desired initial pressure may be given the mercury, causing the expansion under the heat to allow of a full or decreased amount of gas as the bolt is screwed out or in, that is, if the material to be melted melts to a required degree at a low temperature, there will not be as much fire required as if it were at a high temperature. Therefore the bolt is screwed in, compressing the mercury, which forces through the opening 23, but normally holds the diaphragm eX- tended to a point near the end of thetube 16; but if the material would melt to the required consistency at a high temperature more fire is necessary. Therefore the bolt is screwed outward, removing the pressure upon the mercury, and consequently allowing the diaphragm to spring in away from the end of the tube.

In Fig. 2 is shown a modiiication comprising an auxiliary valve 26 upon the end of thetube 16, which is normally held upon the tube by means of aspring 27, the operation being the same, the diaphragm acting upon the valve, the valve closing the end of the tube. In order to prevent an entire cut-oit of the iow of the gas due to an increased pressure of the same, which would quickly raise the temperature of the mercury, entirely cutting off the supply of gas, I have provided adiminutive orifice 28 in thetube 16, which will allow of the escape of a sufficient quantity of the gas to at all times keep the flame of the burner from going out.

YVhile I have described the regulator as a gas-regulator, it will be readily understood that it is equally well adapted for regulating the flow of liquid fuel, and while I have described the same as a regulator to regulate the temperature of molten metal it will be equally well understood that the device can be used to regulate the temperature of a room, the operation being the same.

In a gas-regulator, the combination of a cylinder, headers therefor, one of the headers being provided with an inlet-port and an outletport, a valve-seat surrounding the inlet-port, the other header being provided with a chamber and a passage forming communication with this chamber and the cylinder, a ilexible diaphragm designed to act as a valve clamped over the passage, and a Huid-pressure thermostat communicating with the cham ber of the last-mentioned header, the expansion of the iluid being designed to press the diaphragm out toward the valve-seat arranged on the opposite header.

In testimony that I claim the foregoing as my own I hereby affix my signature in presence of two witnesses. u

ALBERT FROI-ILICII.

IVitnesses:

CARROLL J. WEBSTER, BEETHA M. SCHWEIZER.

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