US1875128A

US1875128A - Air heater

Info

Publication number: US1875128A
Application number: US560720A
Authority: US
Inventors: Ward S Patterson; Pierce Conway
Original assignee: Int Comb Eng Corp
Current assignee: International Combustion Engineering Corp
Priority date: 1931-09-02
Filing date: 1931-09-02
Publication date: 1932-08-30
Anticipated expiration: 1949-08-30

Description

Aug. 30, 1932- w. s. PATTERSON ET AL 1,875,123

AIR HEATER Filed Sept. 2, 1931 2 Sheets-Sheet 1 I Z WM/LNQV%NTORS a" Aug. 30, 1932.

AIR HEATER W. S. PATTERSON ET AL Filed Sept. 2, 1931 2 Sheets-Sheet 2 v-Mm; ATTORNEYS 25 form Patented Aug 30, 1932 TES PATENT @FEE VVAED S. PATTERSON, OF ORANFORD, NEW' JERSEY, AND CONWAY PIERCE, OF

ALAMOBGORDO, NEV] MEXTCO, ASSIGNORS TO ENGINEERING CORPORATION, OF NEW YORK, N.

. WARE INTERNATIONAL COMBUSTION Y., A CORFORATION OF DELA- AIR HEATER Application filed September 2, 1931. Serial No. 560,720.

This invention relates to the sectional type.,

One. of the primary objects of our invention is the provision of a sectional heater air heaters of simple in form, rugged in construction, ecothe various sections are entirely within the 5' heater casing.

Still another object resides in the provision of a multi-section air heater in which each section is independently supported.

A further object resides in the provision of heater elements of novel shape.

How the foregoing, together with such other objects and advantages as may hereinafter appear, or are incident to our invention, are realized, is illustrated in preferred in the accompanying drawings wherein V Figure 1 is an end elevational view of a heater constructed in accordance with our invention.

Figure 2 isa side elevational view of the heater shown in Figure 1.

Figure 3 is an enlarged fragmentary side elevational view of a portion of the heater with the'casing shownpartly in section; and.

Figure 4 is a vertical cross sectional view taken'on the line 44 of Figure 3.

Our improved air heater comprises in general, casing structure indicated as a whole by the reference character A; heater ele- 4'0 ments B located within the casing structure; gas inlet andoutlet ducts C and D; air inlet and outlet ducts E and F; chambers G and H between superjacent heater 7 elements B.B,the chambers G in this in stancebeing gas chambers, and the chambers H being air chambers; and support members J associated with the heater and adapted to rest on structural work K.

The heater is what may be termed a multi- 5 section heater and is composed of a plurality of like sections of such construction that they are readily removable, interchangeable, and reversible. The sections are each supported independently, and the supporting members are arranged midway of the tops and bottoms of the sections, and the casing and heater elements are symmetrical so that the sections are not only interchangeable but also reversible. The sections may be completely assembled at the shop and shipped as a unit, the size limit being determined by handling and shipping facilities.

Referring, now, particularly to Figures 3 and 4, it will be seen that the casing structure of each section is composed of a sheet metal portion 3 and that the bottom edge thereof is stiffened by channel members 5 secured to the metal casing by means of angle irons 6, and that the upper end thereof is similarly constructed as indicated at 7 Channel irons 8 are attached to the sheet metal casing parts by means of angle irons 9, it being noted that the channel members 8 are located midway of the height of the section.

By referring to Figures 2 and 3, it will be seen that the side channel members 8 extend beyond the faces 10 and 11 of the section as indicated at 12, and that these extending portions rest on the structural work K associated with the air heater so that the channel members act as the support means J for the sections. The heater elements B are attached to the members 8 through the medium of any suitable attaching means such as lugs 13 and angle clips 14, it being noted that the lugs 13 are located at the middle point of the elements vertically considered.

Through this construction the heater ele- I ings-are provided in the leg 22. v 720 The fsuperjacent' heater elements B are The gas passages are preferably alternately arranged with respect to the air passages, as clearly shown in Figure 3. The heater elements have upper and lower V-shaped ends, as indicated at 19 and 20.,

Referring to the upper V-shaped end 19 e of the heater element B, shown in Figure, &,

it will be seen that gas inlet openings 21 to thegas passages are provided in'the leg 22, and air outlet openings 23"501" the air passages'16 are provided in the other leg 24. At the lower V-shaped end 20, gas outlet openings 25 are provided in the leg26, and air inlet openings 27 are provided in the leg 28'. In the lower heater elementB, the gas inlet openings are provided in the leg 24: of the uppery-shaped end, and the air outlet openspaced somewhat apart and a flexible member 29 is attached to theadjacent ends of the elements at the apices' thereof. This memberis secured in place in the field as by means of welding, andit actsas a sealing member adapted to divide the space between the adjacent elements into twochambers G and H above referred to, and prevents leakage from'one chamber to the other. By employingheater elements having V-shaped ends, we have provided a novel arrangement whereby the gas and air chambersconnecting the gas and air passages of supemacentelements are entirely within the casing structure of the'heater, .thereby eliminating the use of outside ducts for connecting the pas.

sages. 'The arrangement is advantageous y from the point of both cost and space occupied as compared with heaters having outside connecting ducts; A further advantage resides inthe fact that straighter flow of the such that'the lengths of the legs would be equal to the distance between the upperfedges of the V.v Y

In order to prevent air from healing from the air chambers to the gas chambers through the clearances 30 between the heater elements and the casing structure, suitable sealing means, such as strips 31, are provided, as

clearly'indicated in Figure 4 of-the drawings. These strips maybe of flexible metal and may be welded or otherwise secured to the heater elements. The casings of "the" superjacentlsections may be connected together by means of expansion joints 32 secured to thefla'nges 33 of the', jcasin'gs, this.

construction being desirable because. of the sections being supported independently of one another, as has been pointed out above.

In theparticular arrangement disclosed in the drawings, we have shown our heater as composed of three sections B in height,

although it is to beunderstood that any number of sections may be employed. Also, any

number of upright units, each composed of plurality" of sections B ,in'height,'m&y be

employed in "constructing a large capacity led to and away from the heater by means heater; In the form illustrated, the gases are of'the gas inlet and outlet ducts C and 'D' which may be commonto all of the upright units.

It will be we have provideda very simpleand effective, multi-section air heater in which the sections by virtue of their being removable and i p f take care of corrosion at the cold end, or oxidation atthe hot end. In-some instancesit reversible, can be re-arranged or replaced to may be vdesirable to employ shorter sections at various'points in the installation: so that V. after a certain period of operation the short- 7 er sections could be rearranged; i.e.,' a'section at the hot end where oxidation tends tooccur, may-be replaced by another section that has been'doing duty .in'a cooler; part of the heater. Also, by employing such shorter sections, it would be-justifiable in some instances, owing to the small cost thereof, to

allow them to remain in place until burned through or corroded, before replacing them. Furthermore, due tothe smallsize thereof,

these sections may be made of special metals vfor the cold end or for the hot end of'the' heater, without entailing heavy expense.

Among theadvantages of our invention i is the possibility of shop assembly, which enables us to employ shop labor which is less.

expensive than field labor, and of shop testing, since the'sections may be assembled and" H tested for leakage before beingshipped.

- It is alsov pointed out that by supporting each section independently we are enabled to make the sections of much lighter construction than would be the case if one sec-f tion depended on the other for support. The independent support also enables any section to be readily removed or replaced no matter wetheri it isat thebottom of the hesitate an intermediate point, or at the top, since the lower sections donot bear the'weight of the upper sections.

openings Elare provided. for this purpose.

What we claim is: T

, 1; A multi-section air heater comprising i a casing, a plurality ofsuperjacent heater 7 elements in said casing having V shaped ends and means providing a gas and an air cham- V It is to be noted that the casing is so dea I signed as to make the gas passages between elements readily accessible for cleaningnbetweenisections of the heatersQ-Cleanout 12 i V so seen from the foregoing that her in said casing between superj acent heater elements.

2. A multi-section air heater comprising a casing, a plurality of superjacent heater elements in said casing having V-shaped ends, and means associated with the adjacent V- shaped ends of said heater elements to provide a gas and an air chamber between the elements and within the confines of the easing walls.

3. A. multi-section air heater comprising a casing, a plurality of heater elements therein, one above the other, said elements having V-shaped ends and a plurality of gas and air passages, means at the apices of the V- shaped ends dividing the space between adjacent heater elements into two V-shaped chambers one of which affords communication between the gas passages of adjacent sections and the other of which afi'ords communication between the air passages of adj acent sections.

4. A multi-section air heater comprising in combination, a plurality of like heater sections each including a casing and a heater element therein providing a plurality of gas and air passages, said elements having V- shaped ends; means connecting the adjacent ends of the casings of adjacent sections together; and means at the apices of adjacent ends of the heater elements of adjacent sections for providing two separated chambers between adjacent sections, one being an air chamber and the other a gas chamber, said plurality of gas passages having communication with the gas chambers, and said plurality of air passages having communication with the air chambers.

5. A multi-section air heater comprising a casing, a plurality of heater elements within said casing arranged in spaced superjacent relations, said elements having V-shaped ends, means providing a plurality of air and gas passages in said heater elements, and means at the apices of the heater elements dividing the spaces therebetween into two chambers, one of the chambers of each space being adapted to communicably connect the gas passages of the heater elements, and the remaining chambers being adapted to communicably connect the air passages of the heater elements.

6. In a multi-section air heater, the combination of a'plurality of interchangeable heater sections each comprising a casing, support means located centrally of the top and bottom of the casing, said casing having an open top and bottom, a heater element within said casing having a plurality of gas and air passages; and means for securing said heater element to said support, said heater element having V-shaped ends; means for securing said sections together in superjacent relation;,and means at the apices of the heater elements providing two chambers in the casing between superjacent elements, one of said chambers affording communication between the gas passages of the sections and the other of said chambers affording communication between the air passages of the sections.

- 7 An air heater comprising a casing, and heater elements in said casing having V- shaped ends and a plurality of gas and air passages, one leg of each end having air openings establishing communication to and from the air passages, and the other leg of each end having gas openings establishing connnunication to and from the gas passage.

8. An air heater section for multi-section air heaters, comprising a casing and heater elements having a V-shaped top and bottom and gas and air passages extending from top to bottom, said gas passages having inlet for gases atone leg of one of the Vs and outlet for gases at one leg of the other V, and said air passages having inlet for air at the remaining leg'of one of the Vs and outlet for air at the remaining leg of the other V.

9. An air heater section for multi-section air heaters comprising a casing, and heater elements having V-shaped ends and a plurality of gas and air passages, said gas passages having inlets thereto in one leg of one of the V-shaped ends and outlets therefrom in one leg of the other V-shapecl end, and said air passages having inlets thereto in the other leg of one of the V-shaped ends and outlets therefrom in the other leg of the other V- shaped end.

10. An air heater section for multi-section air heaters comprising a casing, heater elements, supporting members, means for securing the casing to the supporting members, and means for securing the heater elements to the supporting members.

11. A heater section for multi-section air heaters comprising a casing, support means located centrally of the casing, means for supporting said casing from said support means, a heater element having a plurality of gas and air passages, and means for supporting said elements from said support means and independently of the casing.

12. A multi-section air heater comprising, in combination, a plurality of like heater sections each including a casing, heater elements therein providing a plurality of gas and air passages, said elements having V-shaped ends; expansion joints connecting the adjacent ends of the casings of adjacent sections together; and flexible means at the apices of adjacent ends of the heater elements of adjacent sections, for providing two separated chambers between adjacent sections, one being an air chamber and the other a gas chamber, said plurality of gas passages having communication with the gas chambers, and said plurality of air passages having communication with the air chambers.

13. A multi-section air heater comprising,

in-combination', a'plurality of likeheatersections'each including a casing, heater elements a therein providing a, plurality of gas; and air passages; an expansion joint for connecting I the adjacent-ends of the casings ofadjacent 10 sages of the sections.

sections together; means forfsupporting each section independently; and gas and air chambers, between the sections for establishing communication between the air and gas pasl A multi-sectlon air heatercomprising in-combination, a plurality of like heater see tions ea'ch having supporting members 10- cated'midwaybetween the tops and bottoms of the sections, said members extending be yond the walls of the sections. 7 c- '15. In combination,- a multi-section' air heater each section of which is provided with supporting members, and structural work asv sociated with saidheater adapted to support v '7 the sections of the heater independently of one another. through themedium of said supporti ,ing-memb'ers; 16. Incombin ation', multi-section air'heat- V er each section of which is providedrwith supporting members, and structural work associated with said heater adapted to support the sections of the heaterindependentiy of one another through the medium of said supporting members, together with expansion joints for communicably connecting-the sections together. I 1 v f In testimony whereof we have hereunto signed our names. r 1 "WARD S. PATTERSON.

- CONWAY PIERCE;