KR101728761B1 - Regenerative Combustion Apparatus with Working Space of Stage Separation and Corrugated Sheet - Google Patents

Abstract

A regenerative combustion device with a working space unit interposed between layers and corrugated plates of the present invention includes: a separation layer composed of the corrugated plates radically installed to form multiple small partitioned spaces in a radical form and ceramic boards vertically positioned on the tops of the corrugated plates; the working space unit partitioned into the small partitioned spaces in a radical direction by the separation layer and formed between the lowest regenerative material and the next higher regenerative material stacked inside the partitioned spaces in layers to enable a worker to perform a task therein; an outer cylindrical unit with multiple doors where the worker is able to go out to the outside from the partitioned spaces; a combustion chamber burning a VOC gas in upper sides of the catalyst and regenerative material layers; a burner including the combustion chamber therein; a rotary valve switching directions of an exhaust gas flow and an air supply; and a power device rotating the rotary valve.

Description

(Regenerative Combustion Apparatus with Working Space of Stage Separation and Corrugated Sheet)

The present invention relates to a regenerative combustion device. Generally, a regenerative combustion device has a plurality of separation membranes for the heat storage of a combustion chamber, and a multilayer ceramic storage material is disposed between the separation membranes. The combustion heat is stored in a ceramic heat storage material when the combustion chamber is combusted, . If the ceramic heat storage material is completely stored as described above, even if the burner is not operated, the intake gas can be burned by the heat of ceramic storage.

A conventional technique related to the present invention is disclosed in Korean Patent Registration No. 10-1425634 (published on Apr. 2014, 2008). FIG. 1 is a view showing the structure of a regenerative type combustion apparatus having a rotary valve with improved sealing in the conventional wind direction switching. 1, a regenerative combustion device having a rotary valve with improved sealing at the time of changing the direction of a windshield is provided with a catalyst and a heat storage material layer 10, a catalyst and a catalyst layer, for treating volatile organic compound (VOC) A combustion chamber 20 in which noxious gas passing through the heat storage material layer 10 is burnt and a combustion chamber 20 including a separation chamber 30 which is equally spaced to receive a noxious gas from the rotary valve 100 or to exhaust clean gas, An apparatus (1); A rotary valve (100) located at a lower portion of the combustion apparatus (1) for separating and changing the direction of the wind while rotating; And a power unit (500) for providing a power source for rotating the rotary valve. In addition, the catalyst and the thermal storage material 10 are laminated in a fan-shaped chamber so that the outer shape of the combustion apparatus 1 is formed into a cylindrical shape. However, this shows one embodiment, and the laminated structure may be formed in a rectangular shape. When the rectangular catalyst and the thermal storage material 10 are constructed as described above, the outer shape of the combustion device may be formed in a rectangular shape. Further, the rotary valve 100 having a shock absorber capable of absorbing or compensating a variable amount due to thermal expansion is provided in the separation chamber 30 formed of 8 to 12 separation walls so that the air supply and exhaust are alternately switched to the combustion device So that the noxious gas of the supply air and the purified air treated by the exhaust are mixed and are not discharged to the atmosphere. The basic operation principle of the rotary valve type regenerative thermal oxidizer having the above structure is that the volatile organic compound (VOC) noxious gas supplied from the supply duct 2 flows into the supply chamber 3, (Not shown) through the rotary valve 100, which is constructed by the blocking wall 150 and separated by the dead zone 250 and the purge zone 260 and rotates so as to process the clean gas supplied and treated with the noxious gas, (About 800 ° C.) in the combustion chamber 20 after descending as shown by the arrow and then collected in the exhaust chamber 5 through the open space formed on one side of the rotary valve 100 And exhausted to the atmosphere through an exhaust duct (4). The fresh purge air introduced through the purge air classifier 400 is collected in the purge chamber 6 and then supplied to the upper portion of the power shaft 300 through which a driving force is transmitted from the power unit 500 So that leakage gas is not generated in the circumferential direction of the rotary valve 100 and the upper direction of the rotary valve 100 through the fine purge pipe 4021, the fan-shaped sealing hole 111 and the air pocket 4023 It will be done.

In the conventional regenerative type combustion apparatus having a rotary valve with improved sealing at the time of changing the direction of airflow, it is possible to prevent leakage of gas from the upper portion of the rotary valve. However, when the temperature of the heat storage chamber rises to a high temperature, There is a problem that leakage occurs between the divided heat storage chambers due to the positional change of the bulk which fills the gap between the ceramic board and the heat storage chamber which form the separation membrane of the seal. In addition, the conventional art as described above has a problem that the particulate matter is difficult to sufficiently burn and remove so that the particulate matter adheres to the lower surface of the heat storage chamber, thereby blocking the air supply mechanism for supplying the purge air. Accordingly, an object of the present invention is to prevent the deformation of the ceramic board and the bulk, thereby suppressing the leakage between the compartments in the heat storage chamber and facilitating the maintenance of the particulate matter adhering to the lower surface of the heat storage chamber.

The above and other objects of the present invention can be also accomplished by the provision of a regenerative type combustion apparatus having a work space and a corrugated plate for separating a plurality of small compartments in a radial pattern, And a separator disposed between the lowermost heat accumulating material layer and the heat accumulating material layer located immediately above the heat accumulating material layer in the radial direction, A combustion chamber containing a combustion chamber therein, an air supply unit for switching the air supply direction and an air supply direction of the exhaust gas from the combustion chamber to the upper portion of the catalyst and the heat storage material layer, And a power unit for rotating the rotary valve and the rotary valve A.

The regenerative type combustion apparatus having the work space portion and the corrugated plate having the above-described separation structure according to the present invention separates the lowermost heat storage material layer of the heat storage chamber and the heat storage material layer of the next higher layer to form a work space portion, (Water and dust) adhering to the bottom heat storage material layer in the heat storage chamber formed of multi-stage heat storage material layers can be easily removed. Further, another effect of the present invention is that the separating wall constituting the radial burning compartment of the regenerating chamber constitutes a corrugated plate made of steel and the upper part of the corrugated plate is made of a ceramic board, The shape change can be minimized and the leakage between the compartment can be blocked.

FIG. 1 is a schematic view of a regenerative-type combustion apparatus having a rotary valve with improved sealing at the time of a conventional wind direction change.
FIG. 2 is a perspective view of a regenerative type combustion apparatus having a work space and a corrugated plate,
FIG. 3 is a front view of a regenerative type combustion apparatus having a work space portion and a corrugated plate,
FIG. 4 is a partially cut-away sectional view of a regenerative type combustion apparatus having a work space portion and a corrugated plate,
FIG. 5 is a partially cutaway perspective view of a regenerative type combustion apparatus having a work space portion and a corrugated plate,
6 is a state in which the corrugated board is applied to the present invention,
Fig. 7 is a view showing the state of the corrugated board and the ceramic board applied to the present invention.

A regenerative type combustion apparatus having a work space and a corrugated plate, which have the above-described objects, are described below with reference to FIGS. 2 to 7.

FIG. 2 is a perspective view of a regenerative type combustion apparatus having a work space and a corrugated plate, which are separated according to the present invention. 2, a regenerative type combustion apparatus having a work space and a corrugated plate, which are separated from each other according to the present invention, includes a purge chamber 610, a base frame 600 on which a motor 640 is mounted, And a rotary valve (720) for converting the air flow direction of the air supply and the exhaust gas is provided on the upper portion of the purge chamber of the support frame, And an outer cylindrical portion 850 is formed with a heat storage chamber between the inner cylindrical portion 810 and the outer cylindrical portion 850. The outer cylindrical portion 850 has a cylindrical shape, A plurality of reinforcing bands 857 are formed in the outer cylindrical portion 850 and a plurality of reinforcing bands 857 are formed in the outer cylindrical portion 850 and upper portions of the bipod A discharge pipe 860. The structure is formed, the guide rail (858), the support frame is formed which will indicate that the structure which can protect the worker. In addition, the interior heat storage chamber of the door 855 is formed with a separation compartment 910 by a separation wall, and each of the small compartments has a multi-stage heat storage material layer. Among the heat storage material layers, the lowest heat storage material layer 831, The work space 855 is formed in the outer cylindrical portion 850 of the portion where the work space portion 854 is formed, So that the operator can enter the work space through the door to replace or repair the bottommost storage material layer 831 of the storage material layer. Since the lowermost thermal storage medium layer 831 of the heat storage material layer adheres to the particulate matter that is not burnt to close the air supply mechanism, a strong air blow must be blown in order to remove the particulate matter, And to easily repair or replace the work space. If there is no work space as in the present invention, the uppermost heat storage material layer must be dismantled in order to repair or replace the heat storage material layer 831 of the lowest layer, so that the operation time is considerably long and the operation is complicated.

FIG. 3 is a front view of a regenerative type combustion apparatus having a work space portion and a corrugated plate, which are separated by the present invention. 3, the regenerative type combustion apparatus having a working space portion and a corrugated plate, which are separated from each other according to the present invention, includes a purge chamber 610 for supplying fresh purge air to prevent leakage of the rotary valve 610, A base frame 600 supporting and supporting a motor 640 and a speed reducer 630 for reducing the rotation speed of the motor to the connection cylinder and a purge chamber 600 installed in the base frame, And a rotary valve (720) for converting the air flow direction of the air supply and the exhaust gas. The inside of the support frame is attached to a steel plate made of steel The outer side surface is constituted by a cylindrical inner cylindrical portion 810 formed of a heat insulating material and a radial heat storage chamber formed between the inner cylindrical portion and the outer cylindrical portion 850, And a plurality of reinforcing bands 857 are formed in the upper and lower portions of the outer cylindrical portion on the outer surface and a bypass discharge pipe 860 is formed on the upper portion of the outer cylindrical portion. Structure.

FIG. 4 is a partial cut-away sectional view of a regenerative type combustion apparatus having a work space and a corrugated plate for end separation. 4, the regenerative type combustion apparatus having a working space portion and a corrugated plate according to the present invention has a motor 640 for generating a rotational force, a speed reducer 630 for reducing the rotational speed of the motor, A purge chamber 610 disposed between the rotary valve and the connection cylinder for supplying fresh purge air to prevent leakage of gas from the rotary valve is supported by the base frame 600, A cylindrical support frame 700 in which a rotary valve 720 for converting the air supply and exhaust air of the heat storage chamber by being rotated by receiving the rotational force through the connection cylinder 620 is installed therein, A cylindrical inner cylindrical portion 810 formed on the inner side of the support frame and having an inner side surface made of a steel material and an outer side surface formed of a heat insulating material, And a guide rail 858 formed on the outer side of the support frame 700. The support frame 700 has a cylindrical support part 700 and a cylindrical support part 700. The support part 700 has a cylindrical shape, A lowermost heat storage material layer 831 disposed between the outer cylindrical portion and spaced apart from the heat storage material layer 833 by a predetermined distance and a heat storage material layer 833 formed between the heat storage material layer 833 and the lowermost heat storage material layer 831 A plurality of doors 855 formed at the same position as the space 854 and formed in the outer cylindrical portion 855 and each door can be installed in each of the small compartments separated by the partition wall of the heat storage material layer, Is inserted into and removed from the work space 854 through the outer cylindrical portion 850 to replace or repair the lowermost heat storage material layer 831. Further, the multi-layer heat storage material layer has a structure in which the partition walls 950 are formed in the radial direction. A plurality of reinforcing bands 857 are attached to the outer surface of the outer cylindrical portion. A combustion chamber 888 is formed in the upper portion of the separation wall. A high temperature gas is bypassed to the upper center of the combustion chamber 888, And a bypass discharge pipe 860 which can be discharged to the outside. Further, the upper end of the partition wall 950 of the present invention is formed higher than the upper end of the heat storage material layer to increase the residence time of the hot gas, thereby improving the combustion efficiency.

5 is a partially cutaway perspective view of a regenerative combustion device having a work space and a corrugated plate, which are separated by the present invention. 5, the regenerative type combustion apparatus having a working space portion and a corrugated plate, which are separated by the present invention, has a structure in which a rotary valve 720 is formed inside a support frame 700, and an inner cylindrical portion 810 and a lower storage material layer 831 is positioned between the inner cylindrical portion and the outer cylindrical portion 850 and a lower end of the lower storage material layer 831 and the working space portion 854 are spaced apart from each other by a certain distance, Layered heat accumulating material layer 833 is constituted by the inner cylindrical portion and the outer cylindrical portion and the multi-layered heat accumulating material layer 833 is formed by the radial dividing wall 950 The plurality of small compartments 910 function to circulate the supply and exhaust of the purge air evenly by the rotation of the rotary valve 720 in order. By the above-described operation, the heat storage of the heat storage material layers 831 and 833 can be made uniform, and the combustion efficiency in the combustion chamber can be increased.

6 is a state in which the corrugated board is applied to the present invention. 6, the corrugated plate according to the present invention is inserted between the inner cylindrical portion and the outer cylindrical portion. The corrugated plate 951 is made of steel and has corrugated curled wrinkles, Thermal expansion and the like. Therefore, by inserting the corrugated plate 951 made of steel, the position of the ceramic board can be prevented from being deformed as compared with the partition wall composed only of the ceramic board, and the leakage between the compartment in the heat storage chamber can be suppressed. Also, as described above, the plurality of separation walls 950 indicate that the small compartment 910 can be formed.

Fig. 7 is a view showing the state of the corrugated board and the ceramic board applied to the present invention. 7, the corrugated plate according to the present invention is a part of forming a separating wall 950 between an inner cylindrical portion 810 and an outer cylindrical portion 850, and the separating wall has a multi-stage heat storage material layer 833 Is divided into the small compartment 910 and separated into the small compartment and the rotary valve is rotated so that the supply and discharge of the purge air and the combustion gas can be made even. A ceramic board 955 is inserted into a lower part of the partition wall 950 forming the small compartment 910. A corrugated plate 951 made of steel is provided on the ceramic board, (955) is inserted and installed again. By constituting the corrugated plate 951 made of steel as described above, it is possible to prevent positional deformation of the bulk filling the gaps between the ceramic board 955 and the heat storage material layer 833, thereby preventing leakage between the compartment. Although the separating wall is formed of a ceramic board, a corrugated board, and a ceramic board, the corrugated board 951 and the ceramic board 955 may be used.

600: base frame, 610: purge chamber,
620: connection box, 630: speed reducer,
700: support frame, 720: rotary valve,
810: inner cylindrical portion, 850: outer cylindrical portion,
854: Work space part, 855: Entrance door,
857: reinforcement band, 858: guide rail,
950: separating wall, 951: corrugated plate

Claims (4)

A regenerative combustion apparatus for treating VOC gas,
In the regenerative combustion device for treating the VOC gas,
A rotary valve 620 for transmitting the rotational force of the speed reducer to the rotary valve 620, and a motor 640 for generating a rotational force, A base frame 600 provided with a purge chamber 610 for supplying purge air and preventing leakage of the rotary valve;
A cylindrical support frame 700 in which a rotary valve 720 for receiving the rotational force through the connection cylinder 620 and rotating to rotate the air supply and exhaust vents of the heat storage chamber;
A cylindrical inner cylindrical portion 810 formed on the inner side of the support frame and having an inner side surface made of a steel material and an outer side surface made of a heat insulating material;
An outer cylindrical portion 850 spaced apart from the inner cylindrical portion by a predetermined distance and having a cylindrical shape;
A guide rail 858 formed outside the support frame 700;
A lowermost heat storage material layer 831 disposed between the inner cylindrical portion and the outer cylindrical portion of the cylindrical support frame 700 and spaced apart from the multi-stage heat storage material layer 833 by a predetermined distance;
A separating wall 950 formed on the heat storage material layer in a radial direction and including a corrugated plate made of steel and a ceramic board;
A plurality of gates 855 formed in the outer cylindrical portion and formed at the same position as the space formed between the heat storage material layer 833 and the lowermost heat storage material layer 831;
A plurality of reinforcing bands 857 on the outer surface of the outer cylindrical portion;
And a bypass exhaust pipe 860 formed in the upper portion of the combustion chamber 888 to bypass the high temperature gas and to flow out to the outside if necessary. Regenerative combustion device for treating VOC gas.
delete The method according to claim 1,
And the lowest heat storage material layer is spaced apart from the heat storage material layer by a predetermined distance. Therefore, a work space is formed to allow a worker to go in and out through the door to repair the lowest heat storage material layer. Regenerative combustion device for treatment.
The method according to claim 1,
The upper end of the separation wall
Is formed higher than the upper end of the heat storage material layer so as to lengthen the residence time of the heat storage chamber of the high temperature gas.

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