US603502A - Steam-generator - Google Patents

Description

' (No Model.) 2 Sheets-Sheet 1.

C. H. FOX.

STEAM GENERATOR. No. 603,502. Patented May 3,1898.

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(No Model.) 2 Sheets-Sheet 2.

C. H. FOX.

' STEAM GENERATOR. No. 603,502. Paten-ted May 3,1898.,

NrTnD STATES PATENT Ormes.

CHARLES I-I. FOX, OF CINCINNATI, OHIO.

STEAM-G EN ERATOR.

srncrrrcnTIoN forming part of Letters Patent No. 603,502, dated May 3, 189e.. Application tiled 1101781111361' 30, 1896. Serial No. 613,910. (No model.)

T @ZZ whom, t may concern.-

Be it known that I, CHARLES H. Fox,a citizen of the United States, residing at Cincinnati, Ohio, have invented new and useful Improvements in Steam-Generators, of which the following is a specification.

My invention is an improvement in steamboilers of the water-tube type, its object being to combine in one structure advantages heretofore existing independently, and also to embody other advantages shown by experience to be desirable, so as to produce a steam-generator of the highest efficiency and economy both in construction and steam production.

In order to explain clearly the obj ect in view in my present invention, it is necessary to refer brieiiy to some existing types. In a preferred and largely-used type, differing .as among the individual species only in the form and disposition of the tubes, the steam-making units or groups of tubes are attached to a shell constituting a water-jacketed firebox, the top of Which is a crown-sheet perforated for the admission of the Water-tubes and for an upper set of tubes passing through the steam-space of the boiler above the firebox and vout through a corresponding sheet forming the top end of the boiler. In practice a serious defect is found to inhere inl this constructive type by reason of the unequal expansion of the several parts of the boiler, producing troublesome leaks at the tube-joints and destructive deterioration of the tubes at the water-line. Repairs and renewal `of tubes, which are frequently neces` sary in this type, are unduly expansive and troublesome, owing to the inaccessibility of the nre-box crown-sheet and the usually intricate arrangement of the rest of the watertubes within the fire-box, which makes their removal a matter of difculty,besides rendering the boiler useless for long periods. A second type, the outgrowth of a recognition of these difficulties, known as the coil or sectional tube generator, consists of a shell (sometimes water-jacketed) inclosing a system of tube-sections through which the Water circulates and around which the incandescent gases of combustion play. In this type the diiiculty is largely one of arrangement and construction of the tube-sections, which are generally such as to impede or prevent the natural circulation of the water under heat. One of the approved species of this type embodies an .annular cylindrical water and steam jacket of two cylindrical shells,the central inclosure of which is a continuouslyopen fire-box, the upper part being occupied by nests or sections of water-tubes. While this type of boiler possesses the advantage of dispensing with a crown-sheet and maintaining the tubes in a position and relation facilitating repairs, dac., yet it is open to the serious disadvantage of alack of natural circulation and of dependence upon a circulatingpump, taking its supply from the annular Water-space and injecting it into the tubes, With all the inconvenience andfdanger attending this method of maintaining proper operative conditions. These two types in various modified forms of construction are generally employed in steam fire-engines and other practice where quick steaming and large relative capacity are required, and my invention is indented, primarily, to secure the advantages and overcome the defects of both types.

To this end my invention consists in a steam-generator embodying a water-jacketed casing having an enlarged steam-space inclosing a fire-box and combustion-chamber occupied by a system of tube sections or manifolds constructed, arranged, and attached, as hereinafter set forth, with or without a system of superheating-tubes constituting the upper connection of the tube-sections with the boiler.

It consists also in the construction and arrangement of the tube-sections and their connections with the water and steam spaces of the boiler in such manner as to constitute each an independent steam generating unit, in which the circulation of water is complete and the separation of steamfrom the entrained Water is facilitated. Y Further details of invention will be indicated in the description and claims.

Mechanism embodying my invention is illustrated in the accompanying drawings, in whichv Figure 1 is a vertical axial cross-section of a steam-generator complete built according to my invention, showing one half of a steamgenera'ting unit in section, illustrating the circulating function. Fig. 2 is a top plan view with some of the superheating-coils removed to exhibit the manifold-sections. Fig.' 3 is a bottom plan view with half the manifolds shown in cross-section. Figs. 4. and 5 are vertical and horizontal cross-sections, respectively, of one of the manifold-tubes, showing details ot' construction.

Y Referring now to the drawings, A desig. nates the outer water jacket or casing of a vertical steam-generator, consisting of an outer cylindrical shell a', of uniform diameter, and an inner shell a2, of relatively large diameter at the lower part and smaller diame- -ter above, with an intervening annular shoulder a3, approximately horizontal. The outer and inner shells are united at top and bottom in any convenient manner and inclose between them an annular space relatively large above and small below, constituting the walter-jacket of the fire-box and the ultimate steam-space of the boiler.

Within the inclosure formed by the jacket A, in the enlargement above the grate-line g and below the annular shoulder a3, are placed a series of manifolds B in approximate j uxtaposition in concentric series, as shown in Figs. l and 3, with upper connections b entering the boiler-'th rough the shoulder ai., and lower connections b2 entering the lower .part of the water-leg. The manifolds B consist of upper and lower headers b3 b4, substantially alike and, as shown in Figs. 1 and 8, connected by parallel tubes b5 in the usual manner, the upper headers being connected with the water-jacket A'by a nipplejoint entering the shoulder 0.3 of the casing below the normal water-level and the lower header by a similar joint with the shell a2 of the waterleg. These manifolds present no unusual constrnction,this feature of my invention consisting in their arrangement, in combination with the peculiarly-enlarged fire-box, the water-jacket and the generating units now to be described.

The central space wit-hin the circle of manifolds B and extending above the same is occupied by a series of adjacent manifolds O, of peculiar construction, as follows: Each consists of a series of tubes ci., connecting a top header c and bottom header c2, the headers being proportioned in length to the position occupied in the series and extending 4across as a chord of the arc subtended. The top header c is utilized as a suspending beam upheld at its extremities from the top of the boiler-casing by straps s and increases in vertical width (increasing'the area of its interior passage) toward the center, where it receives its discharge-pipe c4, extending thence to the steam space of the casing A. The lower header c2 is divided about midway of its length into two approximately equal parts either by a partition or, as preferred and shown, by construction as two independent portions, each having at the end adjacent to the boilercasing a pipe connection c5 to the water-leg of the casing A.

Each tube of the manifold-sections carries within itself a smaller circulating-tube t, con-- stituting an annular partition extending longitudinally from the bottom of the lower header c2 upward to a point somewhat below the normal water-level. These inner tubes are entirely open above and centered in relation to their vcontaining-tubes by radial prongs p, Fig. 5, and at the bottom are closed to an approximate point by notchin g thelower end t2 into two opposite V-shaped points, which are then drawn together, Fig. 4. Just above the pointed end t2,1 within the inclosing tube, the inner tube is perforated at opposite sides, as at t. The effect and function of this construction is indicated bythe arrows. As the greatest heat is at the exterior of the tubes c3, a natural circulation is established, assisted by the annular partition formed by the inner tube t, within which the water descends and outside of which it ascends. The .pointed ends of the inner tubes t, besides serving as a resting-post supported at the bottom of the lower header. c2,- also tend to deflect the ascending currents outwardly, and thus assist the discharge of the inner descending current through the lateral orifices t from within the inner tube t. While I have shown the application of the tubular .partition only in the manifolds C, it will be understood that it is applied to the other manifolds herein shown and that it constitutes an independent feature of the inven- -tion applicable to other water-tube generators. Its benecial action in preventing priming by facilitating the separation of entrained water from the steam and carrying it to the bottom of the manifold will be readily understood.

The top headers c are provided with screw lplugs or caps at their upper side opposite the several tubes for access to the same, as required, and for setting the tube ends into the header by expansion and upsetting.

As a means of retaining the several manifolds ofthe central group in adjacent relations against displacement in fire-engine and similar service I may insert backing-screws .90 in bosses or protuberances of the headers at corresponding points to rest in contact with the adjacent header as adjustable spacing-blocks.

The segmental spaces adjacent to each side of the central vsystem of tube-units are occu` pied by tube-sections D of substantially the same construction as those first described, but extending the full height of the boiler-casing.

In the present illustration of. my invention I have shown the top connections of the manifolds C as extended into snperheating-coils S, which may be carried up for any desired distance, vaccording to the height of the casing 603,502 A .rf

A. These coils are attached at their ends by cleats s' to the straps s, the whole constituting stiffening-braces supporting the upper headers of the manifolds C, each such manifold, with the hanger-frame thus constituted, being removable as an entirety by disconnecting the lower connections c of a manifold C and the upper connections s2 of a superheating-coil connection. The upper end of each superheating-coil is shown in the present case as carried over the casing A and turned downward into a connecting-ange between the shells d co2 for convenience of construction.

The action of the generator has been sufficiently indicated, and attention need be called only to the fact that the disposition and construction of all parts are such as to facilitate a free and natural circulation without a circulating-pump. The tube-sections B, connecting with the casing above and below the water-line, constitute an inner independent water-jacket for the fire-box and insure a constant downward circulation in the outer jacket A. Within the circle incloscd by this inner jacket is placed the system of independent steam-generating units C, directly over the hottest part of the ire and in the axis of greatest heat in the ascending column of incandescent gases.

The practical construction and arrangement of the whole are such that any one of the manifolds can be removed, the casing-apertures of its connections plu gged,and the boiler used while the manifold is being repaired.

Lastly, the construction is economical in cost and durable to a greater degree than has been heretofore attained for equal steaming capacity.

I claim as my invention and desire to secure by Letters Patent of the United Statesl. In an upright boiler, the combination of inner and outer shells forming an annular water and steam space, an annular series of circulating tubes or tube-sections below the normal Water-level and communicating above and below with the water-space, and an independent central system of tubes or tube-sections extending from. the top of the boiler down within the series of circulating tubes or sections, said central tube-sections connected with the steam-space of the boiler above and with the water-space of the boiler below, substantially as set forth.

above and below, arranged within the inclos-v ing shell in parallel series extending from side to side, each unit having a central yconnection at the top, to the steam-space of the shell, and opposite end connections from the bottom, to the water-space of the shell, sub-l n headers of a tube-manifold, and tubes con-k stantially as set forth.

common axial plane, connected by headers,

and communicating with the casing above and below the water-level, respectively, each of said tubes being provided with means for circulation of water in opposite directions within the same below the normal water-level, substantially as set forth.

4. In a steam-generator, in combination with a vertical open-ended steam andwater jacketed inclosing shell, of a plurality of independent detachable generating-units each consisting of a number of vertical tubes in a common axial plane, connected by headers communicating with the shell below and above the water-line, in combination with va corresponding plurality of independentsuperheating-coils arranged abovethe generating-units in the inclosing shell, and constituting the steam connections of said units respectively with the inclosing shell, substantially as set forth.

5. In a steam-generator, in combination with an open-ended cylindrical water andy steam jacketed inclosing casing, of a plurality of independent detachable steam-generating units arranged in parallel series from side to side, each consisting of a series of vertical tubes united by a common top header, having a central connection thence with the steam-space of the inclosing casing, and two independent bottom headers, each connected with the water-space of the inclosing casing, substantially as set forth.

6. A steam-generator embodying in combination, a vertical open-ended casing consisting of a plain cylindrical outer shell and an inner shell. contracted above the immediate tire-box giving an enlarged annular steamspace; a concentricseries of tube-manifolds arranged Within and contiguous to the lower part of the inner shell and opening above through the connecting-shoulder of the shells into the enlarged annular space below the normal Water-line, and opening below into the fire-box water-leg; a series of vertical manifolds within the circular space thus inclosed, and extended above the normal waterline connecting below with the fire-box waterleg and above with the annular steam-space of the casing, substantially as set forth.

7. In a boiler of the character indicated, in combination with the vertical tubes of a tubemanifold extending from a point above to a point below the normal water-level, a shorter open-ended tube in each and concentric therewith extending from the lower header upward to a point below .the water-level, and constituting an annular circulating-partition, substantially as set forth.

8. In combination with the upper and lower IOO IIO

nectirg the same, of inner concentric tubular my hand in the presence of two subscribing partitions, extending in each tube upwardly witnesses. from the lower header to a point below the normal water-level, closed below by inclined 5 surfaces and having lateral lower openings Vitnesses:

above said surfaces,substantiallyas setforth. L. M. HOSEA,

In testimony whereof I have hereunto set HERBERT J. ALLSUP.

CHARLES H. FOX;

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