US5028A

US5028A - monohot

Info

Publication number: US5028A
Authority: US
Publication date: 1847-03-20
Anticipated expiration: 1864-03-20

Description

UNITED STATES PATENT OFFICE, g

P. GRONVELLE, L. N. MONOHOT, AND E. MONOHOT, OF PARIS, FRANCE, ASSIGNORS TO B. RODRIGUES.

BAKE-OVEN.

Specification of. Letters Patent No. 5,028, dated March 20, 1847.

To all whom it may concern Be it known that we, P. GRoNvELLn, civil engineer, and L. N. MoNoHoT and E. MON- CHOT, bakers, natives and citizens of the Kingdom of France, residing at Paris,

-well-regulated temperature, and that the following is a full. clear, and exact description of the principle or character thereof which distinguishes it from all other things before known, reference being had to the accompanying drawings, making part of this specification, in which Figure 1, Plate 1, is a front view of the.

oven, showing the furnace doors, the door to the oven being at the back. 2, the same with the walls removed to exhibit the internal arrangement. Fig. 3, Plate 3, a transverse vertical section taken at the line (A, B) of Figs. 5 and 6. Fig. 4,

Plate 4', a longitudinal vertical section taken at the line (C D) of- Fig. 1. Fig. 5, Plate 5, a horizontal sect-ion taken at the line (E F) of Fig. 3. Fig. 6, Plate 5, a horizontal section at the line (G H). Plate 6, a horizontal section taken at the line (I K), and Fig. 8, same plate, a horizontal section taken at the line (L M). Figs. 3, 5, 6, 7 and 8- are drawn to a smaller scale than the others. The other plates give representations of the various applications of the same principle and will be referred to hereafter.

The same letters indicate like parts in all the figures.

The nature of my invention consists in the employment of air as a vehicle to convey calorie to the oven from an air chamber, heated by furnaces, so that the same air circulates from the air heating chamber, under and through the oven, and when it has been partly condensed and its specific gravity increased. by giving out its contained calorie, return back, through another set of fiues to the air heating chamber, there to be reheated, thus keeping up .a constant cir- Fig. 2, Plate Fig. 7,

culation from the air heating chamber, around, and through the oven, 1 and back again to the air heating chamber, instead of heating ovens by the circulation of air heated on its passage through a heated chamber, around the oven, or through it, and then escaping into the atmosphere. And also in combining with the above mode of heating ovens an arrangement of fire chambers without grates and ash pits, and with'an arrangement of fines and dampers for heating the air and to assist in heating the oven, on the principle of returning the products of combustion to the firechamber, that is fire chambers, flues and dampers so arranged that the products of combustion,

by the closing of the dampers, are returned 7 l to the fire chambers to consume the combustible gases, &c., and to retain the heat within the furnaces and flues, except when an active combustion may be required. And

also in so arranging the flues through which the smoke and other products of combustion pass as .to increase the temperature of the air as it circulates through'a series of passages under the bottom of the oven to heat it, and thus increase its rarefaction and (cause it to ascend into the oven. 7

The furnaces (M M), two in number, are made with the hearth or bottom flat, and of fire brick, or other refractory material, and

with or without holes (a), leading into an arch below, but if made with'hole's they ,should be few in number and small to avoid too high a degree of combustionalong the lower strata of fuel, such as takes place on grate bars which burn away with great rapidity by the intensity of the combustion immediately around them. The top of these furnaces is vaulted, as represented in the drawings, and fiues (L, L, L), for the outer extremity of which communicate with vertical flues (V, V), one at each of the back corners, that extend to return flues (A, A) on thetop ofthe oven (C), that extend to andunite at the chimney (W),

which is-provided with a well constructed damper in the usual manner to regulate the escape of the smoke, &c., or prevent the escape and cause the return thereof through the same flues to the furnaces, when desired to make them act on the principle of air tight stoves. I

At the forward end of the main flue or tunnel there is a large aperture governed by a register (11.) (suspendedto a chain (m) passing over rollers and provided with a counter weight to facilitate its movement) for the purpose of admitting a large current of air tocool the flues, when it is desired to moderate or reduce the temperature of the'oven or to admit a small quantity of air to promote the combustion of the combustible gases evolved from the fuel, when an increased temperature is re' quired. And there are apertures (1', 7") see Figs. 4 and 6 in the wall leading into the return flues (K K) to admit an appropriate instrument for cleaning them. These apertures are of courseto be closed byappropriate stoppers (R) during the opera-- tion of the furnaces.

Back of the furnaces there is a chamber (P), called the hot air chamber, closed perfectly air tight at the bottom and sides.

It is vaulted, and when of great capacity,

the roof may be made of two or more arches sustained on pillars (Z), 1),). At each side, and from the top of this air chamber, there is a flue (G, G,) the direction of these flues is shown by dotted lines in Figs. 2 and ft for the passage of hot air, which extends up nearly in a vertical direction, and then runs forward horizontally (as indicated by the double speared arrows in the drawings which indicate throughout the direction of the hot air) and then ascends into a horizontal chamber (E), under the bottom of the oven (C), which is divided off into flues by blocks of masonry (6) (see Figs. 3 and 7) arranged as represented in the draw ings for the purpose of diffusing the currents of hot air, and deflecting and conducting them to vertical flues (Y, Y) represented by dotted lines in Fig. 8, that open into the oven After the hot air has passed through the oven and become specifically heavier than the ascending currents, by having given out a portion of caloric to the oven, and also by mixing with such vapors as may arise from articles under treatment, it passes out through two flues (X X), (represented by dotted lines in Fig. 8) along the-bottom of the chamber (E), and this increased rarefaction of the heated air causes it to ascend into the oven above.

I From the arrangement of the furnaces (described above) with their flues and dampers, it will be obvious that when all the dampers, doors, &c. are closed air tight, the products of combustion after reaching the top, and not findingan escape, and becoming specifically heavier, from having given out a portion of caloric, will establish return currents in the sameflues through which they ascended, they being of sufficient capacity to admit of it, and return to the furnaces or fire chambers to be reheated, thus keeping up a constant circulation, so that none of the heat evolved will be lost except by radiation through the masonry of the structure, which is to be made of bad conductors of heat to avoid it as much as possible. By the admission of small currents of air through the doors of the furnaces, a slow combustion will be kept up for a long time with a very small expenditure of fuel, and yet evolve sufficient heat to retain any desired and equal temperature in the oven after it has been raised to the point required, for it mustbe obvious that the quantity of caloric absorbed by the articles under treatment in an oven is very small, and that by this arrangement the only loss of fuel will arise from the escape of heat through the masonry, doors, &c., by radiation, andthe escape of heated and incombustible gases evolved from the fuel in the furnaces when it becomes necessary to open the damper in 'the chimney to excite combustion. By the arrangement of the air heating chamber, without inlets for cold air, and the double set of flues for the circulation of heated air from it to the inside of the oven, and back again to be reheated, the air becomes one of the most rapid, effective and economical vehicles for the transmission of caloric;

while at the same time the smoke and other products of combustion, on their passage.

in a retort, on account of the non-employs.

ment of grate bars, and the admission of but a very small supply ofair which can be arrested at pleasure.

A thermometer should be employed with i one end introduced in the oven and the other outside, to ascertain, and enable the attendant to regulate the temperature to the degree required.

It must be obvious that this mode of heating ovens can be greatly varied without any change of the principle; as for instance, the fire chambers, flues, oven &c. may be made of iron instead of masonry, or of iron surrounded by masonry. Or the fines may consist of a series of metal pipes inserted in properly constructed chambers; but all these modifications will be so obvious to the minds of persons skilled in the art of constructing ovens, furnaces, and other appa ratus for the'managemen t and application 'of heat, that it does not become necessary further to illustrate the various modes of applying the principle of this invention. It may be well however to state that one, two, or more furnaces or fire chambers can be used toheat one oven, or several ovenswithin the same structure. And thatthe fiues for the smoke and other products of combustion, where they divide, as described above, can be made single instead of double, although the heat will not be distributed with so much equality. And the same modification is applicable to the flues and other passages for the ascending and descending currents of heated air. The air heating chamber instead of being made back of the furnaces, may surround them in part, in short may be located and formed at the discretion of the constructor, theform and location given in the accompanying drawings, being that which has beenessayed and deemed the best, but not by any means to be considered as binding on the constructor so long as he confines himself to the principle.

As a further means of economy, an apparatus may be applied for the purpose of generating gas for lighting purposes. This is represented in front view at Fig. 1, plate 1, and in section at Fig. 4:, plate 4. The gas retorts (d, d), constructed in the usual manner, are introduced in the return fiues (K, K) which areenlarged at the forward end for this purpose, so that the smoke and other products of combustion circulate around the retorts and thus generate the gas,

which when evolved passes up the tubes (65, d), and thence to the other parts of the apparatus, in the usual manner.

When this oven is applied to the torrefaction (roasting) of coffee, cocoa, &c., the articles to be acted upon are put in appropriate metal cylinders on carriages that run in and out of the oven on wheels, the handle for turning the cylinders passing through apertures in the doors of the oven; but as this makes no part of my invention the representation by drawings is not necessary. It will be obvious that various articles will require various modes of treatment, but that these variations must necessarily be left to the skill and judgment of the constructor.

What, we claim asour invention, and desire to secure by Letters Patent, is

The method described of heating ovens by the circulation of air through them from a" heating chamber, combined with the oven by two sets of fines,- one for the ascending current, or'currents, and the other for the decending current, or currents, by means of which the air after being heated, passes up through the oven, and becoming specifically heavier than the ascending current or currents, by giving out a portion of its caloric, descends to the heating chamber to be again heated, and then again to pass up to, and through the oven, and so on, the hot air or heating chamber not being provided with any aperture for the admission of fresh air to it while in operation. And I also claim in combination with the above method of heating ovens by the circulation of heated air through the oven, the arrangement of furnaces, lines, and dampers, as herein described, operating on the principle of the 'air tight stove, by means of which combination, the desired temperature can be maintained within the oven at a small expenditure of fuel, while the apparatus possesses the capacity to attain the temperature required, as described. And we also claim arranging the main and return fines for the passage of the smoke and other products of combustion directly under the chamber through which the heated air circulates to heat the bottom of the oven, by means of which the rarefaction of the hot air is in creased to cause it to ascend into the oven, as hereln descrlbed.

P. GRONVELLE. L. N. MONCHOT. E. MONCHOT.

Witnesses A. Mozn'r,

RAMEAY.