KR20190005720A - Heat treatment furnace - Google Patents

Abstract

When the combustion operation and the heat storage operation are alternately performed in the ceiling portion side regenerative type combustion burner 20 provided in the ceiling portion 11 and the regenerative type combustion burner 30 disposed in the body portion 12, During the combustion operation of the regenerative combustion burner, the heated combustion air is supplied into the furnace 10 from the ceiling portion side air supply / exhaust port 24 while turning along the inner periphery of the cylindrical ceiling portion side guide path 23, While heating the combustion air from the air exhaust port 31 on the fuselage side through the fuselage side guide path 32 along the inner periphery of the fuselage section in the furnace during the combustion operation of the fuselage side regenerative combustion burner So as to burn the fuel while pivoting the fuel along the inner periphery of the body part.

Description

{HEAT TREATMENT FURNACE}

According to the present invention, combustion air is heated by heat accumulated in a heat storage material accommodated in a heat accumulating portion, and the combustion air heated through the guide path is guided from the air supply / exhaust port into a furnace, The combustion operation for causing the fuel and the heated combustion air to be combusted in the furnace is performed while the combustion exhaust gas in the furnace is guided to the heat storage portion containing the heat storage material and the heat of the combustion exhaust gas is supplied to the heat storage material And a heat treatment furnace in which a combustion operation and a heat accumulation operation are alternately performed by using a regenerative combustion burner in which a heat accumulation operation for heat accumulation is performed. Particularly, in a heat treatment furnace in which a regenerative combustion burner is provided in each of a ceiling portion and a fuselage portion of a furnace, a ceiling portion side regenerative type combustion burner provided on a ceiling portion of the furnace and a regenerative type combustion burner on a fuselage side portion provided on a fuselage portion of the furnace, The flame from the ceiling portion side regenerative type combustion burner or the flame from the regenerative type combustion burner on the fuselage side is brought into contact with the object to be processed or the like , It is possible to efficiently heat the inside of the furnace and sufficiently heat the object to be treated while suppressing damage to the object to be treated and increasing the temperature of the flame at the time of combustion to increase the amount of NOx generated It is characterized by one point.

BACKGROUND ART Conventionally, in a heat treatment furnace such as a heating furnace, in order to perform efficient combustion using the heat of the combustion exhaust gas in the furnace when heat treating the article to be treated in the furnace, The heat of the exhaust gas is stored in the heat storage material accommodated in the heat storage portion and then the combustion air is guided to the heat storage portion and the combustion air is heated by the heat stored in the heat storage material in the heat storage portion, A regenerative combustion burner which mixes heated combustion air with fuel supplied from the fuel supply nozzle to burn the fuel in the furnace is widely used.

However, in the case of the above-described regenerative combustion burner, since the heated combustion air and the fuel are mixed and burned, there is a problem that the temperature of the flame increases during combustion and the amount of NOx generated increases. In addition, in the case of the conventional regenerative combustion burner, the diffusion of the flame is generally small, so that the flame becomes long, the flame comes into contact with the object to be treated in the furnace, and the object to be treated is damaged. When the furnace is enlarged in order to prevent the flame from contacting the object to be treated, there is a problem in that various costs such as equipment cost and operating cost are increased in order to sufficiently heat the furnace.

Conventionally, in order to shorten the flame at the time of combustion in the regenerative combustion burner as described above, as shown in Patent Document 1, a porous material having permeability is provided at the tip of the fuel supply nozzle, The combustion air heated by the heat accumulating material in the heat accumulating portion is formed into a flame hole portion at the tip end portion of the nozzle and at the same time, It is proposed that the fuel is mixed with the fuel ejected from the fuel spouting portion to burn the fuel and shorten the length of the flame at the time of combustion.

However, as shown in Patent Document 1, in order to mix and burn the fuel sprayed from the fuel spraying portion with the heated combustion air in the salt treatment provided with the porous material, the combustion air is used as the porous material A large blower or the like is required because it is sent out through the installed salt water treatment.

Further, conventionally, as shown in Patent Document 2, a plurality of regenerative type combustion burners are provided along the main direction (circumferential direction) in the body portion of the heat treatment furnace, It has been proposed to alternately switch the heat storage operation.

However, when combustion is performed by each regenerative combustion burner provided along the main direction in the body portion of the heat treatment furnace as described above, it becomes difficult to sufficiently heat the central portion in the furnace, In the regenerative combustion burner, when the combustion operation and the heat storage operation are alternately switched, the direction in which the fuel ejected from the air supply / discharge port is burned in the combustion operation and the heat storage operation, and the direction It is difficult to obtain a smooth swirling flow, and at the same time, the heat of the flames ejected from the air supply / discharge port of the regenerative combustion burner that carries out combustion is transferred to the side Is sucked immediately through the air supply / exhaust port of the regenerative combustion burner installed in the furnace, thereby heating the furnace sufficiently Difficult it is has been a problem.

In addition, as shown in Patent Document 3, a cylindrical portion is provided at a portion for supplying combustion air heated by the heat storage material in the heat storage portion into the furnace, and in the cylindrical portion, The fuel gas is supplied from the gas nozzle to the cylindrical portion, and the combustion air and the fuel gas, which are heated and turned as described above, are mixed and combusted, and at the same time, It is proposed that the diameter of the burned flame is gradually increased to shorten the length of the flame at the time of burning and to reduce the amount of generated NOx.

However, as shown in Patent Document 3, the heated combustion air is made to swirl in the cylindrical portion that supplies the combustion air into the furnace, the fuel gas is supplied to the cylindrical portion from the gas nozzle, Even in the case where the heated combustion air and the fuel gas are mixed and combusted and the diameter of the flame burned through the enlarged diameter portion formed on the furnace wall is gradually increased, the entire furnace of the heat treatment furnace is sufficiently heated In order to process the object to be treated, it is necessary to increase the supply amount of fuel and combustion air. If the supply amount of the fuel or the combustion air is increased in this way, the temperature of the flame at the time of combustion becomes high, so that the amount of generated NOx can not be reduced sufficiently. Further, It is difficult to shorten the length of the flame at the time of combustion and the flame is brought into contact with the object to be treated in the furnace to cause damage to the object to be treated.

Japanese Patent Application Laid-Open No. 2000-199611 Japanese Patent Application Laid-Open No. 7-71879 Japanese Patent Application Laid-Open No. 2013-2706

 According to the present invention, combustion air is heated by heat accumulated in a heat storage material accommodated in a heat accumulating portion, and the combustion air heated through the guide path is guided from the air supply / discharge port to the furnace, And the combustion exhaust gas in the furnace is guided to the heat accumulating portion in which the heat accumulating material is accommodated and the heat of the combustion exhaust gas is stored in the heat accumulating material It is an object of the present invention to solve the above-mentioned various problems in a heat treatment furnace in which a regenerative combustion burner for carrying out a heat accumulation operation is used and the combustion operation and the heat accumulation operation are alternately switched.

In the heat treatment furnace of the present invention, a regenerative combustion burner is provided in each of the ceiling portion and the body portion of the furnace, and the ceiling portion side regenerative combustion burner provided on the ceiling portion of the furnace and the burner- In the burner, when the inside of the furnace is heated by alternately switching the combustion operation and the heat-accumulating operation, and the object to be treated in the furnace is subjected to heat treatment, the flame from the ceiling portion side regenerative burner or the regenerative burner The flame of the flame is brought into contact with the object or the like to cause damage to the object to be treated and the temperature of the flame at the time of combustion is increased so that the amount of NOx generated is prevented from being increased, So that the treated material can be subjected to sufficient heat treatment.

In order to solve the above problems, in the heat treatment furnace according to the present invention, the combustion air is heated by the heat accumulated in the heat accumulating material accommodated in the heat accumulating portion, and the combustion air heated through the guide path is supplied to the air supply / A combustion operation is performed in which the fuel supplied from the fuel supply nozzle and the heated combustion air are burned in the furnace while the combustion exhaust gas in the furnace is burned to the heat storage portion accommodated in the heat storage material Wherein the regenerative combustion burner is provided in a ceiling portion and a body portion of a furnace, respectively, and the furnace body is provided with a heat accumulation type combustion burner, A ceiling portion side regenerative type combustion burner provided on a ceiling portion of a furnace and a regenerative type combustion burner on a fuselage side portion provided on a fuselage portion of the furnace, And the heating operation is performed by switching alternately between the operation and the heat storage operation, and during the combustion operation of the ceiling portion side regenerative type combustion burner, the heated combustion air is circulated along the inner periphery of the ceiling portion side guide path, The combustion air is supplied from the ceiling portion side air supply port to the furnace so as to burn the fuel while turning the fuel in the furnace while burning the heated combustion air at the time of combustion operation of the fuselage side regenerative combustion burner, So as to follow the inner circumference of the body portion in the furnace, and the combustion was made while turning the fuel along the inner circumference of the body portion.

Here, as in the heat treatment furnace according to the present invention, the combustion operation and the heat accumulation operation are alternately performed in the ceiling portion side regenerative type combustion burner provided on the ceiling portion of the furnace and the regenerative type combustion burner provided on the body portion of the furnace During the combustion operation of the ceiling portion side regenerative combustion burner, the heated combustion air is supplied into the furnace from the ceiling portion side air supply port while being turned along the inner periphery of the tubular-shaped ceiling portion side guide path, The burning air is mixed with the combustion air while being swirled in the furnace, the central portion in the furnace is heated in a wide range, and the length of the flame in the ceiling portion side regenerative combustion burner is shortened. Since the central portion of the swirled vortex becomes a negative pressure, the combustion exhaust gas is swept and burned, and the flame temperature is lowered, so that the amount of generated NOx can be reduced. During the combustion operation of the regenerative combustion burner on the fuselage side, the heated combustion air is supplied from the air exhaust port on the fuselage side of the fuselage portion along the inner periphery of the fuselage portion in the furnace through the guiding path on the fuselage portion side, So that the peripheral portion of the furnace is heated while being rotated while being rotated along the inner periphery of the portion.

When the ceiling portion side regenerative type combustion burner provided on the ceiling portion of the furnace and the regenerative type combustion burner on the fuselage side portion provided on the body portion of the furnace are alternately switched between the combustion operation and the heat storage operation, By the combustion operation of the secondary regenerative burner, the entire furnace can be sufficiently heated and the amount of NOx generated can be reduced.

In the heat treatment furnace according to the present invention, it is preferable that a plurality of fuselage side regenerative combustion burners are provided in the body portion of the furnace. In this way, during the combustion operation of the regenerative combustion burner at the fuselage side, the heated combustion air is supplied from the fuselage side exhaust ports of each fuselage side regenerative combustion burner along the inner periphery of the fuselage portion in the furnace, Is burned while appropriately pivoting so as to follow the inner periphery of the body section from each of the air exhaust ports on the side of the fuselage section, so that the entire peripheral portion in the furnace is efficiently heated.

Further, in the heat treatment furnace according to the present invention, in the combustion direction of the ceiling portion side regenerative type combustion burner, Is rotated in a direction along the inner periphery of the trunk portion and is turned in a reverse direction. In this way, the turning direction of the flame is switched between the combustion operation of the ceiling-portion regenerative combustion burner and the combustion operation of the regenerative-combustion burner of the body portion, and the whole of the furnace is stirred and heated more uniformly.

In the heat treatment furnace according to the present invention, the combustion amount of the ceiling portion side regenerative combustion burner at the time of the combustion operation and the combustion amount at the time of the combustion operation of the total number of regenerative burner burners at the end portion of the body portion are the same . This makes it possible to prevent variations in the amount of heat generated at the time of each combustion depending on the difference in the amount of combustion in the ceiling portion side regenerative combustion burner and the fuselage portion side regenerative combustion burner so that the entire inside of the furnace can be uniformly heated The operation of alternately switching the combustion operation and the heat accumulation operation can be performed stably.

In the heat treatment furnace of the present invention, when the combustion operation and the heat storage operation are alternately switched in the ceiling portion side regenerative combustion burner provided on the ceiling portion of the furnace and the regenerative combustion burner on the fuselage portion provided on the body portion of the furnace, In the combustion operation of the combustion burner, the heated combustion air is supplied into the furnace from the ceiling portion side air supply port while swirling along the inner periphery of the tubular-shaped ceiling portion side guide passage, and the fuel is supplied from the ceiling portion side air supply / And the central portion of the furnace is widely heated so that the heated combustion air flows from the exhaust port on the side of the fuselage side to the inner periphery of the fuselage in the furnace during the combustion operation of the fuselage side regenerative combustion burner And the fuel is burned while pivoting so as to follow the inner periphery of the body part, so that the peripheral part in the furnace is heated.

As a result, in the heat treatment furnace of the present invention, the combustion operation and the heat accumulation operation are alternately performed in the ceiling portion side regenerative type combustion burner provided on the ceiling portion of the furnace and the regenerative type combustion burner on the fuselage portion side portion of the furnace , The entire furnace can be sufficiently heated without causing the flame to come into contact with the object to be processed, the object to be processed can be sufficiently subjected to heat treatment, and the amount of generated NOx can be reduced.

BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is a view showing a state where a ceiling portion side regenerative type combustion burner provided on a ceiling portion of a furnace is provided in a heat treatment furnace according to an embodiment of the present invention, and two fuselage side regenerative combustion burners are provided on a body portion of a furnace (A) is a schematic plan view, and (B) is a schematic side view.
2 shows a state in which the burning operation is performed in the ceiling portion side regenerative combustion burner in the heat treatment furnace according to the embodiment described above and the heat accumulation operation is performed in the regenerative burner in the body portion side, (A) is a schematic plan view, and (B) is a schematic side view.
Fig. 3 is a view showing a state in which the burning operation is performed in the burner side regenerative burner in the heat treatment furnace according to the above embodiment, and the heat storage operation is performed in the ceiling portion side regenerative burner, (A) is a cross-sectional explanatory view of a part of an exhaust gas inlet / exhaust port on a fuselage side showing combustion states by regenerative combustion burners on each fuselage side, and (B) is a schematic side view.
4 is a schematic side view showing a first modification example in which the ceiling portion side air supply / exhaust port of the ceiling portion side regenerative combustion burner is diffused toward the furnace in the heat treatment furnace according to the above embodiment.
Fig. 5 is a cross-sectional view of a heat treatment furnace according to the above-described embodiment, in which a ceiling portion side supply nozzle for supplying fuel to the ceiling portion side regenerative combustion burner is disposed on both sides of a ceiling portion side air- Is a schematic plan view showing a modification example.
6 is a schematic plan view showing a third modification example in which one fuselage side regenerative combustion burner is provided in the body portion of the furnace in the heat treatment furnace according to the above embodiment.
Fig. 7 is a schematic plan view showing a fourth modification example in which the ceiling portion of the hearth of the furnace is rectangular and the body of the furnace is of a rectangular tube shape in the heat treatment furnace according to the above embodiment.

A heat treatment furnace according to an embodiment of the present invention will be described in detail with reference to the accompanying drawings. Further, the heat treatment furnace according to the present invention is not limited to the ones shown in the following embodiments, but may be appropriately modified and carried out within the range not changing the gist of the invention.

1 (A) and 1 (B), in the heat treatment furnace according to the first embodiment, in the furnace 10, the ceiling portion 11 having a circular shape is provided with a ceiling- Two fuselage side regenerative combustion burners 30 and 30 are provided on a cylindrical body portion 12 of the furnace 10 on the opposite side through the central portion of the furnace 10 while the combustion burner 20 is installed .

2 (A) and (B), when the combustion operation is performed in the ceiling-portion side regenerative combustion burner 20, the two fuselage-side regenerative combustion burners 30, As shown in Figs. 3 (A) and 3 (B), when the combustion operation is carried out in the two fusing unit side regenerative combustion burners 30 and 30, The heat storage operation is performed in the ceiling portion side regenerative type combustion burner 20 and the combustion operation and the thermal storage operation are performed in the ceiling portion side regenerative type combustion burner 20 and the two body side side regenerative type combustion burners 30, Are alternately switched.

2A and 2B, when the combustion operation is performed in the ceiling portion side regenerative combustion burner 20, the combustion air is supplied from the ceiling portion side air supply / exhaust pipe 21 to the heat storage material Side regenerating chamber 22 accommodating the heat accumulating member 22a and heating the combustion air by the heat stored in the heat accumulating material 22a so that the heated combustion air is guided from the guide portion 23a Guided to the ceiling portion side guide passage 23 in the shape of a cylinder and guided into the furnace 10 from the ceiling portion side air supply / exhaust port 24 while turning along the inner periphery of the ceiling portion side guide passage 23, Side fuel supply nozzle 25 to the heated combustion air guided into the furnace 10 from the side air supply and exhaust port 24. [ Then, the combustion air heated and circulated from the ceiling side air supply / exhaust port 24 is mixed with the fuel to burn them in the furnace 10.

When the combustion air heated from the ceiling portion side air supply / exhaust port 24 and the fuel are mixed while turning and burned in the furnace 10 as described above, the central portion of the furnace 10 is heated in a wide range and the ceiling- The length of the flame in the combustion burner 20 is shortened.

2 (A) and (B), when the heat accumulation operation is performed in the two fusing-body side regenerative combustion burners 30 and 30 at the time of the combustion operation of the ceiling portion side regenerative combustion burner 20, , The combustion exhaust gas in the furnace 10 is sucked from each of the exhaust ports 31 and 31 on the side of the fuselage portion provided on each of the fuselage side regenerative combustion burners 30 and 30 and guided to the respective fuselage side guide paths 32 and 32 via the respective fuselage side guide paths 32 and 32 while the fuselage side fuel supply nozzles 33 and 33 connected to the respective fuselage side guide paths 32 and 32 are closed, The exhaust gas is guided to the heat storage chambers 34 and 34 of the respective fuselage side portions accommodated in the heat storage materials 34a and 34a and the heat storage materials 34a and 34a of the fuselage side heat storage chambers 34 and 34 are supplied to the combustion exhaust After the heat of the gas is stored, the combustion exhaust gas after the heat storage is discharged from each of the fossil fuel side heat storage chambers 34, And is guided to the outside through the air supply and exhaust pipes 35 and 35.

3 (A) and 3 (B), when the burning operation is performed in the above-described two fuselage side regenerative combustion burners 30 and 30, each of the exhaust pipes 35, The combustion air is guided from the combustion chambers 35 and 35 to the combustion chamber side heat storage chambers 34 and 34 accommodated in the heat storage materials 34a and 34a respectively and the heat storage materials 34a and 34b in the combustion chambers 34 and 34, 34a so that the combustion air is heated to guide the heated combustion air to the respective fuselage-side guide paths 32, 32, and through the fuselage side guide paths 32, 32 The air is guided into the furnace 10 from the air exhaust ports 31 and 31 on the side of the respective fuselage side and the air for heating is guided from the fuselage side guide paths 32 and 32 into the furnace 10, And the fuel is supplied from the fuel supply nozzles 33 and 33. The heated air for combustion and the fuel are mixed and supplied from the exhaust ports 31 and 31 along the inner periphery of the body section 12 from the body exhaust ports 31 and 31, Burning in the furnace 10 while turning in a direction opposite to the case of the ceiling portion side regenerative combustion burner 20 in accordance with the inner periphery of the portion 12.

In this way, the turning direction of the flame is switched during the combustion operation of the ceiling-portion side regenerative combustion burner 20 and the combustion operation of each of the fuselage side regenerative combustion burners 30, 30, and the whole of the furnace 10 is stirred , So that it is more uniformly heated.

When the heat storage operation is performed in the ceiling portion side regenerative type combustion burner 20 at the time of the combustion operation of each of the fuselage side regenerative combustion burners 30 and 30 described above, The combustion exhaust gas in the furnace 10 is sucked from the ceiling portion side air supply / exhaust port 24 of the ceiling portion side regenerative combustion burner 20 and guided to the ceiling portion side guide path 23, Side heat storage chamber 22 in which the heat accumulating material 22a is accommodated, through the ceiling portion side guide path 23, with the ceiling portion side fuel supply nozzle 25 connected to the side guide path 23 being closed, The heat of the combustion exhaust gas is stored in the heat accumulating material 22a in the ceiling portion side heat accumulating chamber 22 and the combustion exhaust gas after the heat accumulation is guided from the ceiling portion side heat accumulating chamber 22 to the ceiling portion And is guided to the outside through the side-surface exhaust pipe (21).

As described above, the ceiling portion side regenerative type combustion burner 20 provided in the ceiling portion 11 of the furnace 10 and the fossil portion side regenerative combustion burners 30 and 30 provided in the body portion 12 of the furnace 10 , The combustion operation and the heat storage operation are alternately performed. In the combustion operation of the ceiling portion side regenerative type combustion burner 20, the heated combustion air flows into the inner periphery of the ceiling portion side guide path 23, The fuel is supplied from the ceiling portion side air supply port 24 into the furnace 10 so that the fuel is burned while being circulated in the furnace 10 from the ceiling portion side air supply port 24 and the central portion in the furnace 10 is wide The length of the flame in the ceiling portion side regenerative combustion burner 20 is shortened and the flame is brought into contact with the object to be treated (not shown) or the like to cause damage to the object to be treated, The temperature of the flame in the combustion chamber increases, Oh, that or is prevented.

In the combustion operation of each of the fuselage side regenerative combustion burners 30 and 30, the heated combustion air flows from the fuselage side air supply ports 31 and 31 through the fuselage side guide paths 32 and 32 Are burned in the furnace 10 while being rotated in a direction opposite to the case of the ceiling portion side regenerative combustion burner 20 in accordance with the inner periphery of the body portion 12 so that the flame does not contact the object to be treated So that the inner peripheral portion of the furnace 10 is heated.

As a result, the entire inside of the furnace 10 can be sufficiently heated by the combustion operation of the ceiling portion side regenerative type combustion burner 20 and the fuselage side regenerative type combustion burners 30, 30.

When the combustion operation and the heat storage operation are alternately performed in the ceiling portion side regenerative type combustion burner 20 and the fuselage side regenerative type combustion burners 30 and 30 as described above, the ceiling portion side regenerative type combustion burner 20, The amount of combustion in the combustion operation of each of the fuselage side regenerative combustion burners 30 and 30 is the same as that in the combustion operation. In this manner, when the combustion operation and the heat storage operation are alternately switched in the ceiling portion side regenerative type combustion burner 20 and the fuselage side regenerative type combustion burners 30 and 30, It is possible to uniformly heat the whole of the furnace 10, and at the same time to stabilize the operation of alternately switching the combustion operation and the heat storage operation.

In the heat treatment furnace of the above embodiment, the ceiling portion side air supply / exhaust port 24 of the ceiling portion side regenerative combustion burner 20 has the same diameter as that of the ceiling portion side guide path 23, It is also possible to form the portion of the ceiling portion side air supply / exhaust port 24 in an R shape or the like so as to diffuse toward the inside of the furnace 10 as shown in Fig. In this way, when the combustion air is supplied into the furnace 10 from the ceiling portion side air supply / exhaust port 24 while swirling along the inner periphery of the ceiling portion side guide path 23, the combustion air is diffused toward the inside of the furnace 10 The combustion air is supplied into the furnace 10 while being swirled while being further diffused from the ceiling portion side air supply / exhaust port 24 formed therein, and is mixed with the fuel, and the flame spreads more during combustion, Can be shortened.

In the heat treatment furnace of the above-described embodiment, in the ceiling portion side regenerative combustion burner 20, the ceiling portion side fuel supply nozzle 25 is disposed in the vicinity of the ceiling portion side air supply / exhaust port 24, 5, in addition to the above-mentioned ceiling portion side fuel supply nozzle 25, the ceiling portion side air supply and exhaust port 24 is provided with the ceiling portion side air supply and exhaust port 24, Side fuel supply nozzles 25a and 25a may be provided on the first ceiling-portion side fuel supply nozzles 11, respectively.

In this case, it is possible to prevent the fuel from being supplied from the ceiling-portion-side fuel supply nozzle 25 to the ceiling-portion side air supply / exhaust port 24, The fuel is supplied from the second ceiling portion side fuel supply nozzles 25a and 25a to the combustion air guided into the furnace 10 while turning through the ceiling portion side air supply and exhaust port 24, The combustion exhaust gas is taken in by the negative pressure generated at the center portion of the swirling flow of the combustion air guided into the furnace 10 while being swirled as described above so that the combustion is performed and the amount of NOx generated during combustion is reduced And the fuel supplied into the furnace 10 from each of the second ceiling portion side fuel supply nozzles 25a and 25a flows into the furnace 10 while swirling from the ceiling portion side air supply / Mixed in a wide range and burned , At the same time that the flame is more prevalent at the time of combustion of the flame length it becomes short.

In the heat treatment furnace of the above embodiment, two fuselage side regenerative combustion burners 30 and 30 are disposed in the cylindrical body portion 12 of the furnace 10 as the center of the furnace 10 The number of regenerative burners 30 on the body side provided in the body 12 is not particularly limited and the number of regenerative burners 30 on the body side can be increased . As shown in Fig. 6, it is also possible to provide one trunk side regenerative combustion burner 30 in the cylindrical body portion 12 of the furnace 10 as a cylinder. Also in this case, the combustion amount of the ceiling portion side regenerative type combustion burner 20 at the time of the combustion operation is made equal to the combustion amount at the time of the combustion operation of the end portion side regenerative type combustion burner 30 It is possible to prevent variations in the amount of heat generated at the time of each combustion and to uniformly heat the entire inside of the furnace 10 and at the same time to stably perform an operation of alternately switching the combustion operation and the heat storage operation do.

In the heat treatment furnace of the above-described embodiment, the ceiling portion 11 is circular and the trunk portion 12 is cylindrical. However, the shape of the furnace 10 is not limited to the above- For example, as shown in Fig. 7, it is also possible to use a case in which the ceiling portion 11 has a rectangular shape and the body portion 12 has a rectangular tube shape, It's okay to have a polygon.

10: No
11: ceiling
12:
20: Ceiling side regenerative burner
21: ceiling side exhaust pipe
22: ceiling heat storage chamber
22a:
23: Ceiling part side guide path
23a:
24: Ceiling side air supply / exhaust port
25: Ceiling side fuel supply nozzle
25a: second ceiling-side fuel supply nozzle
30: Recuperative combustion burner
31: Exhaust air side of the body side
32: body side guide path
33: Fuselage side fuel supply nozzle
34: Heat storage room at the fuselage side
34a:
35: Fuel exhaust pipe

Claims (4)

The combustion air is heated by the heat accumulated in the heat accumulating material accommodated in the heat accumulating portion and the combustion air heated through the guide path is guided from the air supply and exhaust port to the furnace so that the fuel supplied from the fuel supply nozzle and the heated combustion The combustion operation for causing the combustion air to be burned in the furnace is performed and the combustion exhaust gas after combustion in the furnace is guided to the heat storage portion containing the heat storage material so as to heat the heat of the combustion exhaust gas in the heat storage material The present invention relates to a heat treatment furnace using a regenerative combustion burner provided with a ceiling portion side regenerative combustion burner provided on a ceiling portion of a furnace and a ceiling portion of a furnace, The combustion operation and the heat storage operation are alternately performed in the regenerative type combustion burner for a fuselage side, During the combustion operation of the regenerative combustion burner, the heated combustion air is supplied into the furnace from the ceiling portion side air supply / exhaust port while swirling along the inner periphery of the tubular-shaped guide path on the side of the ceiling portion, While the burning operation of the burner regenerative type burner is performed so that the heated combustion air is supplied from the air intake port on the side of the fuselage side along the inner periphery of the fuselage section in the furnace through the fuselage side guide path And burns the fuel while pivoting the fuel along the inner periphery of the body part. In the description of claim 1,
Wherein a plurality of fuselage side regenerative combustion burners are provided in the body portion of the furnace. In the description of claim 1 or claim 2,
Wherein the combustion is performed while the fuel is circulated in the furnace at the time of the combustion operation of the ceiling portion side regenerative combustion burner and the combustion is performed while the fuel is turned to follow the inner periphery of the body portion at the time of the combustion operation of the regenerative combustion burner Wherein the turning direction is a reverse direction. In the description of claim 1 or claim 2,
Characterized in that the amount of combustion in the combustion operation of the ceiling portion side regenerative combustion burner is made equal to the amount of combustion in the combustion operation of the total number of regenerative combustion burner portions in the body portion side.

Images