CN202993870U - Reversing-free high temperature heat exchanger - Google Patents

Abstract

The utility model relates to a reversing-free high temperature heat exchanger. A heat storage device comprises a lower barrel, a rotor heat storage body and an upper barrel. The lower barrel is fixed on a frame, a low-temperature air cavity and a low-temperature smoke cavity are separated in the lower barrel, and a low-temperature air inlet and a low-temperature smoke outlet are arranged on the lateral face of the lower barrel. The rotor heat storage body is supported on the lower barrel in a free rotating mode, and a heat storage medium is filled in the rotor heat storage body. The upper barrel is located on the rotor heat storage body and is fixed on the frame, a high-temperature air cavity and a high-temperature smoke cavity are separated in the upper barrel, and a high-temperature smoke inlet and a high-temperature air outlet are arranged at the top of the upper barrel. The high-temperature smoke inlet on the upper barrel is communicated with the low-temperature smoke outlet on the lower barrel, the low-temperature air inlet on the lower barrel is communicated with the high-temperature air outlet on the upper barrel, and a driving mechanism on the frame is in driving connection with the rotor heat storage body and drives the rotor heat storage body to rotate. The rotor heat storage body rotates to continuously transmit high-temperature smoke heat to combustion supporting air. The reversing-free high temperature heat exchanger achieves thermal continuous operation and heat exchange and is high in heat exchange rate.

Description

A kind of without the commutation high-temperature heat-exchanging

Technical field

The utility model relates to a kind of without the commutation high-temperature heat-exchanging, is used for not adopting the Industrial Stoves of hot water or the use occasion of Steam Recovery heat.

Background technology

Heat accumulating type high temperature air combustion technology (HTAC) is the combustion technology of a kind of novel concept of late 1980s appearance, recovery waste heat and efficient burning and reduction NO _xThe technology such as discharging organically combine, thereby have realized energy-conservation and reduced NO _xThe double goal of discharge capacity.Along with the progress of equipment and material, effects of regenerative heat exchanging technology is widely applied on the heating furnace of smelter and ladle baking facility.Yet, also have some self problem when this technology has huge energy-saving potential.

For example, in the nonferrous metallurgy industry, due to its technology characteristics, the variations in temperature in stove is very big for molten aluminium stove.Just installed the stove furnace temperature of cold burden between 500 ℃～600 ℃, even lower.The furnace temperature of this moment is lower than the ignition temperature of fuel, and the while, the commutation type accumulation of heat can't guarantee the normal combustion of the rear fuel of each commutation because material in stove blocks.The general traditional combustion mode that adopts is brought up to furnace temperature the method for opening again hold over system more than 800 ℃, perhaps adopts the method for altar lamp or burner successively-ignited reversing combustion burner on duty.So both cause the unnecessary waste of fuel, improved again workman's labour intensity.Each burner combustion smoke evacuation of working in pairs of tradition commutation type technology, burner hockets, and certainly will cause like this furnace pressure fluctuation, and frequent commutation causes control valve fragile, and the unsuccessful problem such as fault alarm that causes of lighting a fire.Directly impact is produced thereby commutating device fault and the combustion system that causes can't be worked, and has simultaneously certain potential safety hazard.Increased the input of commutation part for being interrupted the commutation type burner, if use simultaneously coal gas to act as a fuel, the combustion system commutation has also increased operating personnel's operational risk, for addressing this problem, also will drop into suitable fund.

How to address these problems, make that this power-saving technology application is more wide, energy-saving effect significantly is necessary.This just requires on pulse heat recover basis according to for a long time use experience and the circumscribed understanding of these systems is further developed performance and more stablized superior new-type heat regenerator.

The utility model content

The purpose of this utility model is to overcome the deficiency that prior art exists, and provides a kind of without the commutation high-temperature heat-exchanging.

The purpose of this utility model is achieved through the following technical solutions:

A kind of without the commutation high-temperature heat-exchanging, characteristics are: comprise framework, regenerative apparatus and driving mechanism, the cylindrical structure of described regenerative apparatus, comprise lower shell, rotor heat storage and the upper shell arranged successively, lower shell is fixed on framework, the lower shell interior separation has Cryogenic air chamber and low-temperature flue gas chamber, and the lower shell side is provided with Cryogenic air import and low-temperature flue gas outlet; The rotor heat accumulator rotary is supported on lower shell freely, and the rotor heat storage is filled with heat storage medium; Upper shell is positioned on the rotor heat storage and is fixed on framework, and the upper shell interior separation has high-temperature flue gas chamber and high temperature air chamber, and the upper shell top is provided with high-temperature flue gas import and high temperature air outlet; High-temperature flue gas import on upper shell is corresponding with the low-temperature flue gas outlet on lower shell, and the Cryogenic air import on lower shell is corresponding with the high temperature air outlet on upper shell; Driving mechanism is installed on framework, and driving mechanism drives to be connected with the rotor heat storage and drives its rotation.

Further, above-mentioned is a kind of without the commutation high-temperature heat-exchanging, and the upper surface of described rotor heat storage and lower surface are separately installed with the labyrinth seal flange, connect with upper shell, lower shell respectively; Rotor heat storage inside is a plurality of thermal storage units by separator lined, and each thermal storage unit is all filled heat storage medium, all installs on each dividing plate with the sealing strip of strengthening pressing plate.

Further, above-mentioned a kind of without the commutation high-temperature heat-exchanging, the Cryogenic air import department of described lower shell connects a radiating tube, and the radiating tube outlet is evenly arranged in upper shell and rotor heat storage junction.

Again further, above-mentioned is a kind of without the commutation high-temperature heat-exchanging, and blunt the wheel installed along circumferentially being evenly equipped with the pin tooth assembly in the outer ring, bottom of described rotor heat storage on the motor output shaft of driving mechanism, and blunt the wheel with the pin tooth assembly is meshed.

The substantive distinguishing features that technical solutions of the utility model are outstanding and significant progressive being mainly reflected in:

by a rotating heat storage, realize continual heat exchange when realizing effectively isolating between combustion air and flue gas, in the combustion system course of work, combustion gas and air all do not commutate, the burning of flame continous-stable, effectively reduce the potential safety hazard that commutation exists, thereby the burner operation process has guaranteed the stable of the interior temperature and pressure of stove continuously, fundamentally solved and be interrupted the problem that heat transfer technology self exists, and traditional heat-accumulation combustion mode needs the energy waste problem that adopts altar lamp or burner successively-ignited reversing combustion on duty to cause in the use procedure of aluminium industry.The rotation of rotor heat storage constantly passes to combustion air with the heat of high-temperature flue gas, and rotor and the junction employing labyrinth seal of upper and lower cylindrical shell and hermetic seal are stopped hot gas and leaked outside, and realize hot continuous operation and heat exchange; Running environment is stable, work carry out continuously and heat exchange efficiency high.

Description of drawings

Below in conjunction with accompanying drawing, technical solutions of the utility model are described further:

Fig. 1: structural representation of the present utility model;

Fig. 2: the schematic top plan view of rotor heat storage.

The specific embodiment

As shown in Figure 1, a kind of without the commutation high-temperature heat-exchanging, comprise framework 6, regenerative apparatus and driving mechanism 3, the cylindrical structure of regenerative apparatus, comprise lower shell 4, rotor heat storage 2 and the upper shell 1 arranged successively, lower shell 4 is fixed on framework 6, and the lower shell interior separation has Cryogenic air chamber and low-temperature flue gas chamber, and the lower shell side is provided with Cryogenic air import 9 and low-temperature flue gas outlet 8; 2 rotations of rotor heat storage are supported on lower shell 4 freely, and rotor heat storage 2 is filled with heat storage medium; Upper shell 1 is positioned on the rotor heat storage and is fixed on framework, and the upper shell interior separation has high-temperature flue gas chamber and high temperature air chamber, and the upper shell top is provided with high-temperature flue gas import 7 and high temperature air outlet 10; Low-temperature flue gas outlet 8 on high-temperature flue gas import 7 on upper shell and lower shell communicates, and the Cryogenic air import 9 on lower shell exports 10 with high temperature air on upper shell and communicates; Driving mechanism 3 is installed on framework, and blunt the wheel installed along circumferentially being evenly equipped with the pin tooth assembly in the outer ring, bottom of rotor heat storage on the motor output shaft of driving mechanism, and blunt the wheel with the pin tooth assembly is meshed, and driving mechanism 3 drives rotor heat storage 2 around center rotating.Rotor heat storage 2 is in when work, in order to prevent the circulation between air and flue gas, in rotor heat storage 2 upper and lower end faces, sealing plate is set all.Difference for the operating temperature of heat exchanger different parts is coated with fireproof coating in the metal surface that contacts with high-temperature gas.

As shown in Figure 2, the upper surface of rotor heat storage 2 and lower surface are separately installed with labyrinth seal flange 21, connect with upper shell 1, lower shell 4 respectively, adopt labyrinth flange seal and cold air sealing between rotor heat storage 2 and upper shell 1, draw a radiating tube 5 to upper shell from lower shell Cryogenic air import 9, radiating tube 5 outlets are arranged in upper shell 1 and rotor heat storage 2 junctions uniformly, adopt the cold air sealing, and the double insurance measure is effectively stopped hot gas and leaked outside; Adopt the labyrinth flange seal between rotor heat storage 2 and lower shell 4.Rotor heat storage inside is divided into a plurality of thermal storage units by dividing plate 24, each thermal storage unit is all filled heat storage medium, all install on each dividing plate 24 with the sealing strip 23 of strengthening pressing plate, wide seal area design arrangement is installed respectively multiple-sealed between rotor and upper and lower cylindrical shell, flue gas and combustion air are effectively separated formation flow channel separately; Heat storage is not to be full of rotor fully, two ends are all stayed between certain vacant and upper and lower fixed cylinder and are formed the gap, adopt upper sealing panel 22 to form wide seal area in the gap, make flue gas and air that separately passage be arranged, prevent mutual leakage when realizing Continuous Heat Transfer.

During concrete the application, after burner is lighted, high-temperature flue gas A enters rotor heat storage 2 by high-temperature flue gas import 7 and flue on upper shell, high-temperature flue gas is top-down to be passed through regenerator and heat storage medium is heated, heat energy just is stored in heat storage, discharges by the outlet of the low-temperature flue gas on lower shell 8 through the waste gas of heat exchange.Combustion air B enters rotor heat storage 2 by Cryogenic air import 9 on lower shell, from bottom to top pass through regenerator, combustion air when the heat storage with high-temperature thermal storage body generation heat exchange, heated combustion air is admitted to burner through high temperature air outlet 10 on upper shell and participates in burning.Heat exchanger central transmission part is slowly rotated regenerator, and when the heat storage medium of accumulation of heat forwarded cold combustion air approaching side to, cold combustion air was heated, and heat storage medium is cooled simultaneously, the then combustion air of heat and fuel mix burning, heating furnace.Because rotor is continuous operation, cooled heat storage medium turns to again fume side, and heat storage is heated again, and heat storage stores new heat energy again, thermal power transfer so continuously, thus can realize continuously supplying with combustion air through preheating to burner.

During work, flue gas and combustion air reverse movement, continuous rotary by center roller with the heat of high-temperature flue gas constantly exchange to combustion air, but burner continuous operation, process heat exchange smog discharge temperature is less than 200 ℃, combustion air temperature can reach flue-gas temperature-150 ℃, realizes hot continuous operation and heat exchange.

by a rotating heat storage, realize continual heat exchange when realizing effectively isolating between combustion air and flue gas, in the combustion system course of work, combustion gas and air all do not commutate, the burning of flame continous-stable, effectively reduce the potential safety hazard that commutation exists, thereby the burner operation process has guaranteed the stable of the interior temperature and pressure of stove continuously, fundamentally solved and be interrupted the problem that heat transfer technology self exists, and traditional heat-accumulation combustion mode needs the energy waste problem that adopts altar lamp or burner successively-ignited reversing combustion on duty to cause in the use procedure of aluminium industry.The rotation of rotor constantly passes to combustion air with the heat of high-temperature flue gas, and rotor and the junction employing labyrinth seal of upper and lower cylindrical shell and hermetic seal are stopped hot gas and leaked outside, and realize hot continuous operation and heat exchange; Running environment is stable, work carry out continuously and heat exchange efficiency high.

What need to understand is: the above is only preferred embodiment of the present utility model; for those skilled in the art; under the prerequisite that does not break away from the utility model principle; can also make some improvements and modifications, these improvements and modifications also should be considered as protection domain of the present utility model.

Claims (4)

1. One kind without the commutation high-temperature heat-exchanging, it is characterized in that: comprise framework, regenerative apparatus and driving mechanism, the cylindrical structure of described regenerative apparatus, comprise lower shell, rotor heat storage and the upper shell arranged successively, lower shell is fixed on framework, the lower shell interior separation has Cryogenic air chamber and low-temperature flue gas chamber, and the lower shell side is provided with Cryogenic air import and low-temperature flue gas outlet; The rotor heat accumulator rotary is supported on lower shell freely, and the rotor heat storage is filled with heat storage medium; Upper shell is positioned on the rotor heat storage and is fixed on framework, and the upper shell interior separation has high-temperature flue gas chamber and high temperature air chamber, and the upper shell top is provided with high-temperature flue gas import and high temperature air outlet; High-temperature flue gas import on upper shell is corresponding with the low-temperature flue gas outlet on lower shell, and the Cryogenic air import on lower shell is corresponding with the high temperature air outlet on upper shell; Driving mechanism is installed on framework, and driving mechanism drives to be connected with the rotor heat storage and drives its rotation.
2. 2. according to claim 1 a kind of without the commutation high-temperature heat-exchanging, it is characterized in that: the upper surface of described rotor heat storage and lower surface are separately installed with the labyrinth seal flange, connect with upper shell, lower shell respectively; Rotor heat storage inside is a plurality of thermal storage units by separator lined, and each thermal storage unit is all filled heat storage medium, all installs on each dividing plate with the sealing strip of strengthening pressing plate.
3. 3. according to claim 1 a kind of without the commutation high-temperature heat-exchanging, it is characterized in that: the Cryogenic air import department of described lower shell connects a radiating tube, and the radiating tube outlet is evenly arranged in upper shell and rotor heat storage junction.
4. 4. according to claim 1 a kind of without the commutation high-temperature heat-exchanging, it is characterized in that: the blunt wheel installed along circumferentially being evenly equipped with the pin tooth assembly in the outer ring, bottom of described rotor heat storage on the motor output shaft of driving mechanism, the blunt wheel with the pin tooth assembly is meshed.

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