US2015300687A1PendingUtilityA1

A Straight Fin Tube with Bended Fins Condensing Heat Exchanger

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Assignee: SUZHOU CQ HEAT EXCHANGER CO LTDPriority: Sep 21, 2012Filed: Sep 21, 2013Published: Oct 22, 2015
Est. expirySep 21, 2032(~6.2 yrs left)· nominal 20-yr term from priority
Inventors:Shuqing Cui
F24H 3/087F24H 8/006F24H 9/0084F24H 1/403Y02B30/00F24H 1/406F24H 1/445
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Claims

Abstract

A forced convection fin tube condensing heat exchanger for supplying heat includes a shell, burner and fin tubes bundle. The burner is at the top of the shell, circular fin tubes bundle installed around the burner tightly, circularly and coaxially. The flue channel which is formed by the shell and a row of fin tubes bundle is below the burner. The flue flows along the flue channel to flue outlet. There are front and rear water manifolds at the two ends of the fin tubes. Water baffles inside the rear water manifold divide the rear water manifold into water inlet and outlet areas. The water enters the small portion of circular fin tubes bundle from water inlet area, through the front water manifold, back to the water outlet area via the main portion of the circular fin tubes bundle. The use of bended fin tube to improves efficiency.

Claims

exact text as granted — not AI-modified
What is claimed is: 
     
         1 . A forced convection fin tube condensing heat exchanger for supplying heat, comprising:
 a shell;   a burner disposed at an upper portion of the shell, the burner being fluidly connected to an air/gas inlet;   a plurality of fin tubes disposed in the shell, the fin tubes being arranged tightly and coaxially about the burner;   a water inlet disposed outside the shell;   a water outlet disposed outside the shell;   a flue outlet disposed outside the shell;   a flue channel defined by the shell and a row of fin tubes below the burner, wherein combustion flue gasses flow from the flue channel to a flue outlet;   a front water manifold disposed at a first end of the fin tubes;   a rear water manifold at a second end of the fin tubes; and   a plurality of water baffles disposed inside the rear water manifold, the water baffle being configured to divide the manifold into a water inlet area and a water outlet area, wherein a flow of water enters a portion of fin tubes through water inlet area, then arrives at the front water manifold, and then returns to the water outlet area on the rear water manifold through the other portion of fin tubes.   
     
     
         2 . The forced convection fin tube condensing heat exchanger according to  claim 1 , wherein the water baffles inside the rear water manifold divide the rear water manifold into water inlet area and outlet area, wherein the flow of water enters the small portion of circular fin tubes coaxed with burner and a row of fin tubes above the flue channel through water inlet area, then arrives at the front water manifold, and then return to the water outlet area on the rear water manifold through the main portion of circular fin tubes. 
     
     
         3 . The forced convection fin tube condensing heat exchanger according to  claim 1 , wherein the water baffles ( 18 ) inside the rear water manifold divide the rear water manifold into water inlet area and outlet area, the circular finned-tubes have the same diameter with the row of fin tubes above the flue channel ( 15 ), the quantity of the fin tubes connected to the water inlet area roughly equals to the quantity of the fin tubes connected to the water outlet area, if the circular fin tubes have a different diameter with the row of fin tubes above the flue channel ( 15 ), the sum of the cross section area of the fin tubes connected to the water inlet area shall roughly equals to the sum of the cross section area of the fin tubes connected to the water outlet area. 
     
     
         4 . The forced convection fin tube condensing heat exchanger according to  claim 1 , wherein the fins are bended for some angles along with the tube axial by bending or squeezing and all the fin tubes are in contact with adjacent ones of the fin tubes. 
     
     
         5 . The forced convection fin tube condensing heat exchanger according to  claim 1 , further comprising:
 a plurality of outer flue baffles disposed outside the circular fin tubes around the burner.   
     
     
         6 . The forced convection fin tube condensing heat exchanger according to  claim 5 , wherein the outer flue baffle include a “V” type cross section with a radiused portion configured to mate with ones of the fins of the fin tubes and wherein the interfaces of the fin tubes disposed in a circle are staggered with the openings between the flue baffles. 
     
     
         7 . The forced convection fin tube condensing heat exchanger according to  claim 1 , further comprising:
 a plurality of lower flue baffles disposed under the row of fin tubes which are located above flue channel and below the burner, wherein the lower flue baffles include a “V” type cross section with a radiused portion configured to mate with ones of the fins of the fin tubes and wherein the interface of the fin tubes in the row are staggered with the openings between the flue baffles.   
     
     
         8 . The forced convection fin tube condensing heat exchanger according to  claim 1 , further comprising:
 an air pre-heater disposed inside the flue channel, wherein the air pre-heater is located inside and along the flue channel and connected with an air inlet, the flue exhaust being a 4-way connector, wherein the flue exhaust is disposed on a top portion of the forced convection fin tube condensing heat exchanger; and   a condensate outlet disposed at a bottom portion of the forced convection fin tube condensing heat exchanger and the air inlet being disposed in a middle portion of the forced convection fin tube condensing heat exchanger.   
     
     
         9 . The forced convection fin tube condensing heat exchanger according to  claim 8 , wherein the air pre-heater disposed inside the flue channel includes one or more cuboidal or cylindrical air inlet tubes. 
     
     
         10 . A forced convection fin tube condensing heat exchanger comprising:
 a shell;
 a burner disposed below the shell, the burner being fluidly connected to an air/gas inlet; 
 a plurality of fin tubes disposed in the shell, the fin tubes being arranged tightly and coaxially about the burner; 
 a water inlet disposed outside the shell; 
 a water outlet disposed outside the shell; 
 a flue outlet disposed outside the shell; 
 a flue channel defined by the shell and a row of fin tubes below the burner, wherein combustion flue gasses flow from the flue channel to a flue outlet; 
   a front water manifold disposed at a first end of the fin tubes;   a rear water manifold at a second end of the fin tubes; and   a plurality of water baffles disposed inside the rear water manifold, the water baffle being configured to divide the manifold into a water inlet area and a water outlet area, wherein a flow of water enters a small portion of the fin tubes that are coaxial with the burner and a row of upper fin tubes disposed above the flue channel, the flow of water passing through the water inlet area, through the front of the water manifold, and then being conveyed to the water outlet area on the rear water manifold through a main portion of the fin tubes.

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