Information
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Patent Grant
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6237674
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Patent Number
6,237,674
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Date Filed
Thursday, September 21, 200024 years ago
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Date Issued
Tuesday, May 29, 200123 years ago
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Inventors
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Original Assignees
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Examiners
Agents
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CPC
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US Classifications
Field of Search
US
- 165 4
- 165 6
- 165 8
- 165 9
- 165 10
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International Classifications
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Abstract
A rotary regenerative air preheater has ring assemblies at the upper and lower ends which define the outer periphery and support the air preheater housing panels. The ring assemblies are spaced by spokes which are tied to the hub of the air preheater and vertically supported from the air preheater structural members. The rotor housing panels are attached around and between the spoked ring assemblies. The ring assemblies are formed form a series of uniform interchangeable segments and they support the peripheral bypass seals.
Description
BACKGROUND OF THE INVENTION
The present invention relates to rotary regenerative heat exchangers and more particularly to the rotor housing and the housing support.
A rotary regenerative heat exchanger, conventionally used as an air preheater for combustion equipment, is composed of a rotor, containing heat exchange surface, which is usually mounted on a vertical shaft for rotation within a heat exchanger housing which surrounds the rotor. Extending across the heat exchanger on the lower end below the housing, normally the cold end, is a cold end center section which serves as a support for the entire heat exchanger structure including the rotor. Extending across the top of the heat exchanger, above the housing and parallel to the cold end center section, is a hot end center section. This hot end center section functions as the mounting means for the upper end of the rotor shaft. The hot end center section is supported by main support pedestals on each end of the hot end center section which are, in turn, supported on the ends of the cold end center section.
The conventional housing for large air preheaters comprises a plurality of housing panels arranged around the periphery of the rotor. See U.S. Pat. Nos. 5,655,594 and 5,628,360. Typically there are eight or more sides. Mounted on the inside of each housing panel between the panels and the rotor are arch-shaped stiffeners which cooperate to form a close fitting circular flange around the rotor. Conventional bypass sealing means are provided between the rotor and these archshaped stiffeners to prevent the by-pass of air or flue gas around the outside of the rotor.
Attached to each end of the heat exchanger housing are the air and gas connecting plate duct assemblies. These are connections which make the transition between the duct work, which is usually rectangular, and the generally circular heat exchanger and are attached to the sides of the hot and cold center sections. The housing panels are attached to and between these connecting plate duct assemblies thereby forming the housing. The housing panels are structural members of the overall air preheater framework and are somewhat complicated structures and thus shop assembled.
SUMMARY OF THE INVENTION
The present invention involves a housing arrangement for a rotary regenerative air preheater including ring assemblies at the upper and lower ends which define the outer periphery of the air preheater and which support the air preheater housing panels. The ring assemblies are spaced by spokes tied to the hub of the air preheater and vertically supported from the air preheater structural members. The simplified rotor housing panels are attached around and between these spoked ring assemblies. The ring assemblies support the peripheral bypass seals. The ring assemblies are formed from a series of uniform interchangeable segments.
BRIEF DESCRIPTION OF THE DRAWINGS
FIG. 1
is a perspective view of a prior art air preheater structure showing a multi-sided housing.
FIG. 2
is a perspective view of the framework of a rotary regenerative air preheater in accordance with the present invention.
FIG. 3
is a perspective view of one of the ring assemblies.
FIG. 4
is a vertical cross section through a portion of an air preheater according to the present invention illustrating a cross section of one of the ring assembly segments with a housing panel attached and showing a T-bracket for joining segments together and for attaching the spokes.
FIG. 5
is a horizontal cross section taken along line
5
—
5
of
FIG. 4
showing a T-bracket and spoke.
FIG. 6
is another vertical cross section showing a peripheral bypass seal attached to the ring assembly and a portion of the adjacent rotor.
DESCRIPTION OF THE PREFERRED EMBODIMENT
As background,
FIG. 1
illustrates the external structure of a prior art rotary regenerative air preheater
10
. At the bottom is the cold end center section
12
which supports the rotor (not shown) inside of the housing generally designated
14
. The cold end center section
12
also supports the main support pedestal
16
which in turn supports the hot end center section
18
. A corresponding main support pedestal is located on the back side. Mounted on the sides of the cold end center section
12
are the cold end connecting plate duct assemblies
20
and
22
which form the connections and the transition between the duct work of the steam generator and the housing of the air preheater.
Mounted on and extending upwardly from the cold end connecting plate duct assemblies
20
and
22
and the cold end center section
12
is the rotor housing
14
which is formed from the individual housing panels
24
and the two main support pedestal panels
26
. The six housing panels
24
and the two main support housing panels
26
make up the octagonal shaped housing
14
.
The hot end center section
18
supports the upper end of the rotor shaft. Mounted on the sides of the hot end center section are the hot end connecting plate duct assemblies
28
and
30
which serve the same purpose as the cold end connecting plate duct assemblies
20
and
22
.
The housing panels
24
and
26
are heavy, fabricated structural members including reinforcing and stiffening ribs or beams. In the present invention, these housing panels of the prior art are replaced with a simplified arrangement.
FIG. 2
shows the framework of the housing of the rotary regenerative air preheater in accordance with the present invention. The structure is basically supported by the cold end center section
12
, the main support pedestals
16
and the auxiliary support frames
32
. Mounted on the cold end center section
12
and extending up to the hot end center section
18
is the rotor hub
33
. Also mounted on the cold end center section
12
and defining the periphery of the rotor housing is the support ring assembly
34
which is also attached to the auxiliary support frames
32
. This support ring assembly
34
, which is shown in greater detail in
FIGS. 3 and 4
, comprises a plurality of ring segments
36
which are uniform and interchangeable. Each of the ring segments
36
forms a portion of the periphery of the rotor housing and comprises a U-shaped channel with the web
38
and the legs
40
as seen in FIG.
4
. The ring segments
36
are bolted together with the T-shaped brackets
42
and the bolts
44
. Attached to each of the T-shaped brackets
42
is a ring assembly spoke
46
which has a split end that fits over and is welded to the T-shaped bracket
42
as best shown in FIG.
5
. These ring assembly spokes
46
are attached at their inner ends to the support ring assembly hub
48
in a similar manner. The bolted connections between the segments of the ring assemblies simplifies the field erection.
Attached to the supporting ring assemblies
34
such as by welding are the rotor housing panels
50
. These panels extend between the top and bottom support ring assemblies and form the rotor housing. Only a portion of one of these panels is shown in
FIG. 2
so as not to cover up the framework. Portions of housing panels
50
are also shown in
FIGS. 4 and 6
. The housing panels
50
are merely flat plates rolled to conform to the circumference of the housing and mounted to form a round housing. The fabricated housing panel structures of the prior art are no longer needed and the number of parts and the weight is reduced.
FIG. 6
illustrates the mounting of the peripheral bypass seal
52
which extends all the way around the rotor and engages the rotor as represented at
54
. This seal prevents the flue gas and air from bypassing the rotor in the annular space
56
between the rotor and the housing. The seal
52
is mounted on the brackets
58
attached at appropriate intervals to the support ring assembly
34
. These peripheral bypass seals
52
are preferably located at both the top and bottom of the rotor.
Claims
- 1. In a rotary regenerative air preheater having a lower end center section, an upper end center section, support pedestals supporting said upper end center section from said lower end center section, a rotor having a lower end and an upper end and an axis of rotation extending between said lower and upper end center sections and a housing arrangement enclosing the periphery of said rotor wherein said housing arrangement comprises:a. a lower end support ring assembly comprising: i. a lower support ring extending around the periphery of said lower end of said rotor and supported at least in part by said lower end center section; and ii. a plurality of spokes having outer ends attached at intervals around said lower support ring and extending inwardly below said rotor and having inner ends attached around said axis of rotation to said lower end center section; and b. an upper end support ring assembly comprising: i. an upper support ring extending around the periphery of said upper end of said rotor and supported at least in part by said support pedestals; and ii. a plurality of spokes having outer ends attached at intervals around said upper support ring and extending inwardly above said rotor and having inner ends attached around said axis of rotation to said upper end center section; and c. rotor housing panels extending between and around said lower and upper support rings and attached thereto thereby enclosing the periphery of said rotor.
- 2. In a rotary regenerative air preheater as recited in claim 1 wherein said lower and upper support rings comprise ring segments attached to each other to form said support rings.
- 3. In a rotary regenerative air preheater as recited in claim 2 wherein said ring segments are bolted to each other.
- 4. In a rotary regenerative air preheater as recited in claim 3 wherein brackets extend between adjacent ring segments and are bolted to said ring segments.
- 5. In a rotary regenerative air preheater as recited in claim 4 wherein said outer ends of said spokes are attached to said brackets.
- 6. In a rotary regenerative air preheater as recited in claim 5 wherein said inner ends of said spokes are attached to hubs and said hubs are attached to said lower and upper end center sections.
- 7. In a rotary regenerative air preheater as recited in claim 1 wherein said lower and upper support ring assemblies are further supported by additional support pedestals.
US Referenced Citations (7)