US775740A

US775740A - Apparatus for manufacturing glass.

Info

Publication number: US775740A
Application number: US14273303A
Authority: US
Inventors: Amos Roberrow Wilson; Lester Martin Dull
Original assignee: A R GORDON; FLOYD N DULL; W E DITTENHAVER
Current assignee: FLOYD N DULL; W E DITTENHAVER; A R GORDON
Priority date: 1903-02-10
Filing date: 1903-02-10
Publication date: 1904-11-22
Anticipated expiration: 1921-11-22

Description

PATENTED NOV. 22, 1904.

A. R. WILSON & L. M. DULL. APPARATUS FOR MANUFACTURING GLASS.

APPLICATION FILED FEB. 10, 1903. no MODEL.

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UNTTED Srnrns Patented November 22, 1904.

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AMOS ROBERROVV WVILSON AND LESTER MARTIN DULL, OF TOLEDO, OHIO, ASSIGNORS OF ONE-HALF TO A. R. GORDON, FLOYD N. DULL, AND W. E. DITTENHAVER, OF TOLEDO, OHIO.

APPARATUS FOR MANUFACTURING GLASS.

SPECIFICATION forming part of Letters Patent N0. 775,740, dated November 22, 1904.

Application filed February 10, 1903. Serial No. 142,733. (No model.)

To all whom, it 717/(717/ concern:

Be it known that we, AMos RoBERRow VVIL- SON and LESTER MARTIN DULL, citizens of the United States, residing at Toledo, in the county of Lucas and State of Ohio, have invented a new and useful Apparatus for Manufacturing Glass, of which the following is a specification.

This invention relates to means for feeding molten glass to molding apparatus; and the object thereof is to provide novel mechanism by which the glass can be fed from the melting-tank to the mold without the necessity of handling the same.

The preferred embodiment of the invention I 5 is illustrated in the accompanying drawings, though it will be apparent upon an inspection of the claims hereto appended that the structure herein shown and described is open to various changes and modifications.

In the drawings, Figure 1 is a topplan View of the apparatus, showing a portion of the molding-machine. Fig. 2 is a sectional View through the same.

Similar reference-numerals indicate corre- 5 sponding parts in all the figures of the drawlngs.

In the embodiment illustrated a meltingtank 10 is employed which may be of any wellknown construction, the side wall thereof be- 3 ing designated by the reference-numeral 1 1.

A reservoir 12 is arranged at the lower portion of this tank, being located partly within the same and partly without and extending through the wall 11.

The reservoir 12 has an upright rear Wall 13, an upright front wall 14, and a top 15. The rear wall 13 is provided with an inletopening 16, which is located below the level of the glass in the tank and constitutes the 40 means of communication between said tank and the interior of the reservoir. This communication is controlled by an inwardly-opening check-valve 17 arranged within the reservoir and pivotally supported at its lower end, being arranged to swing toward and away from the inner face of the wall 13, and thus close the inlet-opening 16. The top 15 of the reservoir projects beyond its front end, forming a mold-receiving platform 18, and from the lower end of the front wall 1r a dischargeconduit or tube 19 extends through the platform to the upper face thereof. This tube is preferably formed of clay or other heat-resisting material, as are also the walls of the reservoir. It will be observed that the discharge end of the conduit or tube is thus located some distance above the level of the glass within the reservoir, which level will under normal conditions be substantially the same as that in the tank. Extending to the reservoir and through the top thereof eXte riorly of the wallll of the tank is an air-pipe 20, having inlet and

exhaust branches

21 and 22, controlled by a suitable valve 23. The inlet branch is connected with any suitable source of air-supply under pressure, and it will be apparent that by turning the valve 23 this supply may be admitted to the reservoir above the level of vthe glass, or by turning the valve in an opposite direction the supply may be cut off and the exhaust opened. The exposed end of the reservoir is preferably surrounded by a heating-chamber 24:, composed of walls 25, which are spaced from the walls of the reservoir and extend to the platform 18. Through this chamber the conduit 19 extends, and a burner 26, arranged within the chamber, directs heat against the conduit and also serves to keep the projecting end of the reservoir in a heated condition.

Ooacting with the apparatus described are molds designated as a whole by the referencenumeral 27. While these molds may be of any desired construction, they are preferably attached to a machine, a portion of which is shown, this machine being fully shown, described, and claimed in copending application, Serial No. 142,7 3 1. The molds, however, in themselves constitute an important feature in the combination, and as they are all similar in structure, but one need be described. They are each preferably composed of sections 28, hinged together and having cavities 29, which when combined are of the shape of the article to be molded. The upper end. of the mold is open, but is arranged to be covered by a capplate 30, carrying a core 31, which extends into the cavities. An inlet-channel 32 opens through the bottom of the mold to the cavities, and this opening is so arranged that it alines with the discharge end of the conduit when the mold is placed upon the platform in proper.

position.

The operation of the apparatus is substan' tially as follows: When the supply of air is cut off from the reservoir, the check-valve 17 is opened and the glass in the conduit is some distance below the upper face of the platform. As soon as a mold is brought to proper position upon the platform, with the inlet-opening in alinement with the discharge end of the conduit, air under pressure is admitted to the reservoir. This pressure acting on the glass serves to force the same through the conduit and rearwardly through the inlet-openingl6. As a result the valve 17 will be closed and the molten glass will be elevated through the conduit into the mold, a suitable vent being left through the upper portion thereof to permit the escape of air. As soon as the mold is filled the valve 23, controlling the air-supply, is turned to cut off said supply and permit the exhaust, whereupon the glass will lower within the conduit, the check-valve 17 will again open, and molten glass from the tank will supply that taken from the reservoir by the mold. The filled mold is of course moved over the platform and another empty one brought to position, whereupon the operation is repeated. By this arrangement it will be seen that glass in its molten state can be fed directly from a melting-tank to the mold without handling the same, and its fluidity is greater at the point of discharge than at the inlet to the reservoir on account of the heating mechanism employed. This is therefore an important feature. Furthermore, by means of the combination shown and described the glass can be fed to the mold after the core is in place. Therefore it does not require. a carefullymeasured amount, as in those structures where the batch is necessarily dropped into the molds before the core can be placed therein. Furthermore, when glass is not being fed from the apparatus the portion thereof that is in the conduit is located entirely within the heating-chamber and is kept in its molten condition by the burner, so that it cannot become chilled and choke the conduit.

It will be evident that the device is very simple in construction and can be applied to any well-known form of melting-tank.

From the foregoing it is thought that the construction, operation, and many advantages of the herein-described invention will be apparent to those skilled in the art without further description, and it will be understood that various changes in the size, shape, proportion, and minor details of construction may be resorted to without departing from the sp1r1t or sacrificing any of the advantages of the invention.

what we claim as new, and desire to secure by Letters Patent, is-

1. In apparatus of the class described, the combination with a reservoir for glass, of a cover closing the top of the reservoir and constituting a mold-receiving platform, a glassconduit leading from the reservoir through the cover and having an outstanding discharge end adapted to coact with the bottoms of the molds placed on the platform, and means for forcing the glass from the reservoir through the conduit.

2. In apparatus of the class described, the combination with a reservoir, of a cover for the reservoir, said cover constituting a moldreceiving platform, and a conduit leading from the reservoir through the platform to and terminating at the upper face of the same.

3. In apparatus of the class described, the combination with a reservoir, of an inclosed heating-chamber, an upwardly-extending conduit leading from the lower portion of the reservoir through the heating-chamber, and a burner located beneath and extending upgvardly toward the upwardly-extending con- 4:. In apparatus of the class described, the combination with a reservoir, of a heatingchamber surrounding a portion of the reservoir, the top of the chamber constituting a mold-receiving platform, a burner located within the chamber, and a conduit leading from the lower portion of the reservoir through the top of the chamber.

5. In apparatus of the class described, the combination with a reservoir having an inlet and discharge, of means for supplying air under pressure to the reservoir, and a checkvalve controlling the inlet and automatically operated to close the same by the air-pressure in the reservoir.

6. In apparatus of the class described, the combination with a reservoir having an inlet in its lower portion, of an upwardly-extending discharge-conduit leading from the lower portion of the reservoir, means for supplying air under pressure to the reservoir, and a check-valve controlling the, inlet and automatically operated to close the same by the air-pressure in the reservoir.

7. In apparatus of the class described, the combination with a tank for the glass, of a reservoir associated therewith and having a submerged inlet, a valve controlling the inlet, a discharge-conduit connected with the reservoir, and means for supplying air under pressure to the reservoir, said air-pressure effecting the discharge of glass through the conduit and the closing of the inlet by the valve.

8. In apparatus of the class described, the

Having thus fully described our invention,

combination with a tank for the glass, of a reservoir located partially within and partially without the tank, the part within having an inlet-opening forming communication between without the tank, the part within having an inlet-opening, a heating-chamber surrounding the exterior portion of the reservior, and a discharge-conduit extending through the chamber.

10. In apparatus of the class described, the combination with a reservoir, of a cover for the same projecting beyond the reservoir, said projecting portion constituting a.moldreceiving platform, a conduit leading from the reservoir to the platform, and means for forcing the material from the reservoir through the conduit.

11. In apparatus of the class described, the combination with a reservoir, of a cover for the same projecting beyond the reservoir and constituting a mold-receiving platform, a conduit leading from the lower portion of the reservoir, through the platform and terminating at the upper surface thereof, and means for forcing the material from the reservoir through the conduit.

12. In apparatus of the class described, the combination with a reservoir, of a cover for the reservoir projecting beyond the same, said projecting portion constituting a mold-receiving platform, casing-walls associated with the projecting portion of the cover and forming a heating-chamber, a conduit extending from the lower portion of the reservoir through the heating-chamber and to the upper surface of the projecting portion of the cover, and means for heating the chamber.

13. In apparatus of the class described, the combination with a reservoir having an upright wall, said wall being provided with an inlet, of an outlet from the reservoir, means for supplying air under pressure to the reser voir, and an upright check-valve located in the reservoir and operated by the pressure therein to close the inlet.

14:. In apparatus of the class described, the combination with a reservoir having opposite end Walls, one of said Walls being provided with an inlet, an upright swinging valve located within the reservoir and controlling the inlet, aconduit leadingfrom the opposite wall, and means for supplying air under pressure to the reservoir.

15. In apparatus of the class described, the combination with a tank for glass having a side wall, of a reservoir extending through the side wall and having an inlet communicating with the interior of the tank, a discharge-conduit leading from the lower portion of the reservoir, means connected with the exposed portion of the reservoir for supplying air under pressure to the interior of said reservoir, and a check-valve located within the reservoir and controlling the inlet, said check-valve being operated by the pressure within the reservoir.

In testimony that we claim the foregoing as our own we have hereto aflixed our signatures in the presence of two witnesses.

AMOS ROBERROVV WILSON. LESTER MARTIN DULL.

Witnesses:

B. D. MILLS, J. T. BRADFORD.