TWI568975B - Duct type accumulator - Google Patents
Duct type accumulator Download PDFInfo
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- TWI568975B TWI568975B TW103132606A TW103132606A TWI568975B TW I568975 B TWI568975 B TW I568975B TW 103132606 A TW103132606 A TW 103132606A TW 103132606 A TW103132606 A TW 103132606A TW I568975 B TWI568975 B TW I568975B
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- F—MECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
- F23—COMBUSTION APPARATUS; COMBUSTION PROCESSES
- F23L—SUPPLYING AIR OR NON-COMBUSTIBLE LIQUIDS OR GASES TO COMBUSTION APPARATUS IN GENERAL ; VALVES OR DAMPERS SPECIALLY ADAPTED FOR CONTROLLING AIR SUPPLY OR DRAUGHT IN COMBUSTION APPARATUS; INDUCING DRAUGHT IN COMBUSTION APPARATUS; TOPS FOR CHIMNEYS OR VENTILATING SHAFTS; TERMINALS FOR FLUES
- F23L15/00—Heating of air supplied for combustion
- F23L15/02—Arrangements of regenerators
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- F—MECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
- F28—HEAT EXCHANGE IN GENERAL
- F28D—HEAT-EXCHANGE APPARATUS, NOT PROVIDED FOR IN ANOTHER SUBCLASS, IN WHICH THE HEAT-EXCHANGE MEDIA DO NOT COME INTO DIRECT CONTACT
- F28D17/00—Regenerative heat-exchange apparatus in which a stationary intermediate heat-transfer medium or body is contacted successively by each heat-exchange medium, e.g. using granular particles
- F28D17/005—Regenerative heat-exchange apparatus in which a stationary intermediate heat-transfer medium or body is contacted successively by each heat-exchange medium, e.g. using granular particles using granular particles
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- F—MECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
- F28—HEAT EXCHANGE IN GENERAL
- F28D—HEAT-EXCHANGE APPARATUS, NOT PROVIDED FOR IN ANOTHER SUBCLASS, IN WHICH THE HEAT-EXCHANGE MEDIA DO NOT COME INTO DIRECT CONTACT
- F28D19/00—Regenerative heat-exchange apparatus in which the intermediate heat-transfer medium or body is moved successively into contact with each heat-exchange medium
- F28D19/02—Regenerative heat-exchange apparatus in which the intermediate heat-transfer medium or body is moved successively into contact with each heat-exchange medium using granular particles
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- Y—GENERAL TAGGING OF NEW TECHNOLOGICAL DEVELOPMENTS; GENERAL TAGGING OF CROSS-SECTIONAL TECHNOLOGIES SPANNING OVER SEVERAL SECTIONS OF THE IPC; TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
- Y02—TECHNOLOGIES OR APPLICATIONS FOR MITIGATION OR ADAPTATION AGAINST CLIMATE CHANGE
- Y02E—REDUCTION OF GREENHOUSE GAS [GHG] EMISSIONS, RELATED TO ENERGY GENERATION, TRANSMISSION OR DISTRIBUTION
- Y02E20/00—Combustion technologies with mitigation potential
- Y02E20/34—Indirect CO2mitigation, i.e. by acting on non CO2directly related matters of the process, e.g. pre-heating or heat recovery
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- Engineering & Computer Science (AREA)
- Mechanical Engineering (AREA)
- General Engineering & Computer Science (AREA)
- Physics & Mathematics (AREA)
- Thermal Sciences (AREA)
- Chemical & Material Sciences (AREA)
- Combustion & Propulsion (AREA)
- Air Supply (AREA)
Description
本發明係關於一種可在短時間內迅速地完成全部蓄熱材料之交換作業之風道式蓄熱裝置。 The present invention relates to a duct type heat storage device which can quickly perform an exchange operation of all heat storage materials in a short time.
使用於工業爐之蓄熱式燃燒器(regenerative burners),具備利用廢氣之排熱對燃燒用空氣進行加熱之蓄熱裝置。於此蓄熱裝置內收納有球狀蓄熱材料,且其構成為於交替流通之廢氣與燃燒用空氣中,當廢氣流通時將排放之熱量蓄積於球狀蓄熱材料,然後當燃燒用空氣流通時利用球狀蓄熱材料將該燃燒用空氣加熱。 Regenerative burners used in industrial furnaces include a heat storage device that heats combustion air by exhaust heat of exhaust gas. In the heat storage device, a spherical heat storage material is accommodated, and the exhaust gas and the combustion air are alternately distributed, and the discharged heat is accumulated in the spherical heat storage material when the exhaust gas flows, and then used when the combustion air is circulated. The spherical heat storage material heats the combustion air.
有關此種蓄熱裝置,於專利文獻1及2已揭示有一種對球狀蓄熱材料進行交換之交換裝置。專利文獻1之「蓄熱式燃燒器之蓄熱體交換裝置」,係於蓄熱室上部外側設置蓄熱體補充室,且由單數或複數之蓄熱體供給部將上述蓄熱室與蓄熱體補充室連通,上述蓄熱室之底部係由蓄熱體適量落下地板所構成,且僅按照自此蓄熱體適量落下地板落下之量,自上述蓄熱體補充室經由蓄熱體供給部將蓄熱體供給於蓄熱室。 Regarding such a heat storage device, Patent Document 1 and 2 disclose an exchange device for exchanging spherical heat storage materials. In the heat storage body exchange device of the regenerative burner, the regenerator replenishing chamber is provided on the outer side of the upper portion of the regenerator, and the regenerator and the regenerator replenishing chamber are connected by the singular or plural regenerator supply units. The bottom of the regenerator is formed by the amount of the regenerator falling from the floor, and the regenerator is supplied from the regenerator replenishing chamber to the regenerator via the regenerator supply unit in accordance with the amount of the regenerator falling from the floor.
專利文獻2之「具備蓄熱體交換機構之蓄熱式交替型燃燒裝置」,係由至少一對蓄熱式燃燒器所構成,該至少一對蓄熱式燃燒器係由具備燃燒噴嘴之燃燒部、及收納蓄熱體之蓄熱室所構 成,使上述一對蓄熱式燃燒器交替地進行燃燒及排氣之蓄熱式交替型燃燒裝置的蓄熱室形成為略L字形,上述蓄熱室之前端經由多孔板連接於上述燃燒部之燃燒室後端,於上述蓄熱室之底部設置具備蓄熱體排出用開閉閥之蓄熱體排出管,此外,由具備分配器及位於該分配器之下游的蓄熱體供給用開閉閥之蓄熱體供給管連接上述蓄熱室之上部與蓄熱體貯藏箱。 The "regenerative alternating combustion apparatus having a heat storage body exchange mechanism" of Patent Document 2 is composed of at least one pair of regenerative burners, and the at least one pair of regenerative burners are provided by a combustion unit including a combustion nozzle, and a storage unit. Regenerator of regenerator The regenerator of the regenerative alternating combustion apparatus in which the pair of regenerative burners are alternately combusted and exhausted is formed in a slightly L shape, and the front end of the regenerator is connected to the combustion chamber of the combustion section via a perforated plate. The heat storage body discharge pipe including the heat storage body discharge opening and closing valve is provided at the bottom of the heat storage chamber, and the heat storage body supply pipe including the distributor and the heat storage body supply opening/closing valve located downstream of the distributor is connected to the heat storage device. The upper part of the room and the regenerator storage box.
專利文獻1:日本專利特開平9-159148號公報 Patent Document 1: Japanese Patent Laid-Open No. Hei 9-159148
專利文獻2:日本專利特開2001-317732號公報 Patent Document 2: Japanese Patent Laid-Open Publication No. 2001-317732
於任一背景技術中,皆具備蓄熱體供給部、蓄熱體適量落下地板、蓄熱體供給管、蓄熱體排出管,且這些構件與蓄熱室之容積相比具有十分狹窄或細之通道部分,以使蓄熱體不是一口氣地被供給於蓄熱室、或不自蓄熱室一口氣地排出,而可漸漸地供給及排出蓄熱體。因此,存在有蓄熱體在這些通道部分發生堵塞,進而變得無法交換蓄熱體之問題。 In any of the background art, the heat storage body supply unit, the heat storage body, the floor, the heat storage body supply pipe, and the heat storage body discharge pipe are provided, and the members have a narrow or thin passage portion compared with the volume of the regenerator. The heat storage body is not supplied to the regenerator in one breath, or is discharged from the regenerator in a single breath, and the heat accumulator can be gradually supplied and discharged. Therefore, there is a problem that the heat storage body is clogged in these passage portions, and the heat storage body cannot be exchanged.
此外,有關蓄熱體之交換,相較於分次少量地進行交換,一口氣將所有量交換之方式,更不會有未交換之蓄熱體始終留在蓄熱室內等之缺點,對設備管理有利。於進行全量交換之情況下,必須將蓄熱式燃燒器及工業爐設備停止。為了縮短此停止期間,需要能迅速地進行交換作業,但要滿足此種需求卻相當困難。 In addition, the exchange of the regenerators is advantageous in terms of equipment management, in which the exchange of a small amount is performed in a small amount, and the exchange of all the quantities in one breath, and the fact that the unrecharged regenerators are always left in the regenerative chamber. In the case of full exchange, the regenerative burner and industrial furnace equipment must be stopped. In order to shorten this stop period, it is necessary to perform the exchange work quickly, but it is quite difficult to meet such a demand.
本發明係鑑於上述習知之課題而創造發明者,其目的在於提供一種可於短時間內迅速地完成全部蓄熱材料之交換作業之風道式蓄熱裝置。 The present invention has been made in view of the above-described problems, and an object of the invention is to provide a duct type heat storage device that can quickly complete an exchange operation of all heat storage materials in a short period of time.
本發明之風道式蓄熱裝置,其特徵在於具備有:垂直風道,其在上部連接有上部風道,並且在下部連接有下部風道,且至少至該下部風道上方為止收納有顆粒狀蓄熱材料,經由該顆粒狀蓄熱材料而於該上部風道與該下部風道之間以交替之方式流通燃燒用空氣與廢氣;供給料斗,其設置在該垂直風道上,用於將上述顆粒狀蓄熱材料供給至該垂直風道內部;上部閘門,其以開閉自如之方式設置在該供給料斗與上述垂直風道之間,於關閉之後,用於將上述顆粒狀蓄熱材料保持在該供給料斗內,並且於開放之後,用於自該供給料斗將上述顆粒狀蓄熱材料投放至該垂直風道內部;及下部閘門,其以開閉自如之方式設置在上述垂直風道下端,於關閉之後,將上述顆粒狀蓄熱材料保持在該垂直風道內,並且於開放之後,自該垂直風道內部將該顆粒狀蓄熱材料加以排出。 A duct type heat storage device according to the present invention is characterized in that: a vertical duct is provided, an upper duct is connected to an upper portion, and a lower duct is connected to a lower portion, and at least a granular shape is received above the lower duct. a heat storage material, wherein the combustion air and the exhaust gas are alternately flowed between the upper air passage and the lower air passage via the particulate heat storage material; and a supply hopper is disposed on the vertical air passage for the granular shape The heat storage material is supplied to the inside of the vertical air duct; the upper gate is disposed between the supply hopper and the vertical air passage in an openable and closable manner, and is configured to hold the particulate heat storage material in the supply hopper after being closed And after opening, for discharging the granular heat storage material from the supply hopper to the inside of the vertical air duct; and a lower gate which is disposed at a lower end of the vertical air duct in an openable and closable manner, after being closed, The particulate heat storage material is retained in the vertical air duct, and after opening, the particulate heat storage material is applied from inside the vertical air duct Out.
其特徵在於:於上述垂直風道下方配置有回收容器,該回收容器係對自上述下部閘門被排出之上述顆粒狀蓄熱材料進行回收。 The collection container is provided below the vertical duct, and the collection container recovers the particulate heat storage material discharged from the lower gate.
其特徵在於:上述下部閘門係利用對開門之方式進行開閉。 The utility model is characterized in that the lower gate is opened and closed by means of opening the door.
其特徵在於以如下之方式加以構成:於上述上部風道及下部風道之任一者,連接有具有供氣閥之燃燒用空氣供給管及具有排氣閥之廢氣排出管,並且在上述排氣閥被關閉且上述供氣閥被 開放而燃燒用空氣流通於上述垂直風道之狀態下,配合關閉該供氣閥之情形,接著上述下部閘門之開閉動作,而繼續進行上述上部閘門之開閉動作。 It is characterized in that a combustion air supply pipe having an air supply valve and an exhaust gas discharge pipe having an exhaust valve are connected to any of the upper air passage and the lower air passage, and are arranged in the above-described row The gas valve is closed and the above gas supply valve is When the combustion air is circulated in the vertical air passage and the air supply valve is closed, the opening and closing operation of the lower shutter is continued, and the opening and closing operation of the upper shutter is continued.
其特徵在於:上述顆粒狀蓄熱體係為球體形狀之球狀蓄熱材料。 It is characterized in that the particulate heat storage system is a spherical heat storage material having a spherical shape.
本發明之風道式蓄熱裝置,可於短時間內迅速地完成全部蓄熱材料之交換作業。 According to the duct type heat storage device of the present invention, the exchange operation of all the heat storage materials can be quickly completed in a short time.
1‧‧‧風道式蓄熱裝置 1‧‧‧Air duct type heat storage device
2‧‧‧垂直風道 2‧‧‧Vertical air duct
2a‧‧‧垂直風道之上端 2a‧‧‧Upper vertical air duct
2b‧‧‧垂直風道之下端 2b‧‧‧lower end of vertical air duct
2c‧‧‧垂直風道之內面 2c‧‧‧ inside the vertical duct
3‧‧‧上部風道 3‧‧‧Upper air duct
4‧‧‧下部風道 4‧‧‧Lower air duct
5‧‧‧多孔板 5‧‧‧Perforated plate
6‧‧‧多孔板 6‧‧‧Perforated plate
5a、6a‧‧‧多孔板之表面 5a, 6a‧‧‧ Surface of perforated plate
7‧‧‧供氣閥 7‧‧‧ gas supply valve
8‧‧‧燃燒用空氣供給管 8‧‧‧Combustion air supply pipe
9‧‧‧排氣閥 9‧‧‧Exhaust valve
10‧‧‧廢氣排出管 10‧‧‧Exhaust exhaust pipe
11‧‧‧球狀蓄熱材料 11‧‧‧Spherical heat storage material
12‧‧‧供給料斗 12‧‧‧Supply hopper
12a‧‧‧供給料斗之下端 12a‧‧‧Supply at the lower end of the hopper
13‧‧‧球狀蓄熱材料供給路徑 13‧‧‧Spherical heat storage material supply path
14‧‧‧上部閘門 14‧‧‧Upper gate
14a‧‧‧上部閘板 14a‧‧‧Upper ram
15‧‧‧下部閘門 15‧‧‧lower gate
15a‧‧‧下部閘板 15a‧‧‧lower gate
15b‧‧‧支軸 15b‧‧‧ spindle
15c‧‧‧前端 15c‧‧‧ front end
15d‧‧‧補強肋 15d‧‧‧ reinforcing ribs
17‧‧‧設置地板 17‧‧‧Set the floor
18‧‧‧回收容器 18‧‧‧Recycling container
18a‧‧‧向上開口部 18a‧‧‧Upper opening
18b‧‧‧車輪 18b‧‧‧ Wheels
19‧‧‧控制器 19‧‧‧ Controller
A‧‧‧燃燒用空氣 A‧‧‧Combustion air
B‧‧‧廢氣 B‧‧‧Exhaust
C‧‧‧底部區域 C‧‧‧ bottom area
D‧‧‧顯示球狀蓄熱材料之收納高度之點劃線 D‧‧‧Dotted line showing the storage height of spherical heat storage material
圖1為顯示本發明之風道式蓄熱裝置之較佳實施形態之側剖視圖。 BRIEF DESCRIPTION OF THE DRAWINGS Fig. 1 is a side cross-sectional view showing a preferred embodiment of a duct type heat storage device of the present invention.
圖2為顯示圖1之風道式蓄熱裝置之蓄熱材料排出階段之側剖視圖。 Fig. 2 is a side cross-sectional view showing a stage in which a heat storage material of the duct type heat storage device of Fig. 1 is discharged.
圖3為顯示圖1之風道式蓄熱裝置之蓄熱材料投放階段之側剖視圖。 Fig. 3 is a side cross-sectional view showing a stage in which a heat storage material of the duct type heat storage device of Fig. 1 is placed.
圖4為顯示圖1之風道式蓄熱裝置之蓄熱材料交換作業之完成狀態之側剖視圖。 Fig. 4 is a side cross-sectional view showing a state in which the heat storage material exchange operation of the duct type heat storage device of Fig. 1 is completed.
以下,參照所附圖式,對本發明之風道式蓄熱裝置的一較佳實施形態詳細進行說明。圖1為本實施形態之風道式蓄熱裝置之側剖視圖,圖2為顯示圖1之風道式蓄熱裝置之蓄熱材料排出階段之側剖視圖,圖3為顯示圖1之風道式蓄熱裝置之蓄熱材料投放階段之側剖視圖,圖4為顯示圖1之風道式蓄熱裝置之蓄熱材料 交換作業之完成狀態之側剖視圖。 Hereinafter, a preferred embodiment of the duct type heat storage device of the present invention will be described in detail with reference to the accompanying drawings. 1 is a side cross-sectional view of a duct type heat storage device of the present embodiment, FIG. 2 is a side cross-sectional view showing a heat storage material discharge stage of the duct type heat storage device of FIG. 1, and FIG. 3 is a view showing the duct type heat storage device of FIG. Side sectional view of the stage of the heat storage material, and FIG. 4 is a heat storage material showing the air channel type heat storage device of FIG. A side cross-sectional view of the completed state of the exchange job.
本實施形態之風道式蓄熱裝置1,具備豎設於上下垂 直方向之筆直的垂直風道2。垂直風道2係形成為上端2a向上方開放,下端2b向下方開放之中空筒體狀。垂直風道2之內徑係自上端2a至下端2b為止由相同尺寸形成。 The duct type heat storage device 1 of the present embodiment is provided with a vertical sag Straight vertical air duct 2 in the straight direction. The vertical duct 2 is formed in a hollow cylindrical shape in which the upper end 2a is opened upward and the lower end 2b is opened downward. The inner diameter of the vertical duct 2 is formed of the same size from the upper end 2a to the lower end 2b.
於垂直風道2之上部連接有上部風道3。於垂直風道 2之下部連接有下部風道4。於連接在垂直風道2之上部風道3的端部設置有多孔板(格子板)5。於連接在垂直風道2之下部風道4的端部也設置有多孔板6。 An upper duct 3 is connected to the upper portion of the vertical duct 2 . In vertical air duct The lower air duct 4 is connected to the lower part of 2. A perforated plate (lattice plate) 5 is provided at an end portion connected to the upper air passage 3 of the vertical duct 2 . A perforated plate 6 is also provided at the end connected to the lower air duct 4 of the vertical duct 2 .
於下部風道4連接具有供氣閥7之燃燒用空氣供給管 8及具有排氣閥9之廢氣排出管10。燃燒用空氣供給管8連接於供給燃燒用空氣A之空氣供給鼓風機(未圖示),廢氣排出管10連接於排出廢氣B之煙道(未圖示)。 A combustion air supply pipe having an air supply valve 7 is connected to the lower air passage 4 8 and an exhaust gas discharge pipe 10 having an exhaust valve 9. The combustion air supply pipe 8 is connected to an air supply blower (not shown) that supplies the combustion air A, and the exhaust gas discharge pipe 10 is connected to a flue (not shown) that discharges the exhaust gas B.
蓄熱式燃燒器係由交替地進行燃燒動作及排氣動作之一對燃燒器單元所構成。各圖顯示一個燃燒器單元之主要部分。上部風道3例如向工業用爐之爐內開口,於燃燒動作時,燃料與自燃燒用空氣供給管8供給之燃燒用空氣A(圖中,以實線箭頭顯示)混合,朝爐內產生火焰。於排氣動作時,將爐內之廢氣B(圖中,以虛線箭頭顯示)朝廢氣排出管10吸引。 The regenerative burner is constructed by alternately performing one of a combustion operation and an exhaust operation to the burner unit. Each figure shows the main part of a burner unit. The upper air passage 3 is opened to the inside of the furnace of the industrial furnace, for example, and the fuel is mixed with the combustion air A (shown by a solid arrow in the figure) supplied from the combustion air supply pipe 8 during the combustion operation, and is generated in the furnace. flame. At the time of the exhaust operation, the exhaust gas B (shown by a broken line arrow in the drawing) in the furnace is sucked toward the exhaust gas discharge pipe 10.
如圖1所示,自燃燒用空氣供給管8朝向爐內供給之燃燒用空氣A,自下部風道4經由垂直風道2朝向上部風道3流通。自廢氣排出管10排出之廢氣B係與燃燒用空氣A之流向相反,自上部風道3經由垂直風道2朝向下部風道4流通。亦即,燃燒用空氣A及廢氣B之流通路徑,係將這些燃燒用空氣A及廢氣B彼此 以相反之方向,使燃燒用空氣A自下部風道4朝向上部風道3流通,使廢氣B自上部風道3朝向下部風道4流通。此外,也可取代下部風道4,將燃燒用空氣供給管8及廢氣排出管10連接於上部風道3,將下部風道4連接於爐內側。無論如何,皆使燃燒用空氣A及廢氣B於設在上部風道3與下部風道4之間的垂直風道2內交替地流通。 As shown in FIG. 1, the combustion air A supplied from the combustion air supply pipe 8 toward the inside of the furnace flows from the lower air passage 4 toward the upper air passage 3 via the vertical duct 2. The exhaust gas B discharged from the exhaust gas discharge pipe 10 is opposite to the flow of the combustion air A, and flows from the upper air passage 3 to the lower air passage 4 via the vertical air passage 2. That is, the flow paths of the combustion air A and the exhaust gas B are such that the combustion air A and the exhaust gas B are mutually In the opposite direction, the combustion air A flows from the lower duct 4 toward the upper duct 3, and the exhaust gas B flows from the upper duct 3 toward the lower duct 4. Further, instead of the lower air passage 4, the combustion air supply pipe 8 and the exhaust gas discharge pipe 10 may be connected to the upper air passage 3, and the lower air passage 4 may be connected to the inner side of the furnace. In any case, the combustion air A and the exhaust gas B are alternately flowed in the vertical duct 2 provided between the upper duct 3 and the lower duct 4.
於垂直風道2之內部,至少至下部風道4之上方為止 收納有陶瓷製等之顆粒狀蓄熱材料、本實施形態中為球狀形態之球狀蓄熱材料11。如圖1中之假想線D所示,當然,球狀蓄熱材料11也可收納至上部風道3附近或者上部風道3之上方。藉此,自上部風道3及下部風道4流入而流經垂直風道2內部之燃燒用空氣A及廢氣B,經由球狀蓄熱材料11流通而接觸於該球狀蓄熱材料11。 Inside the vertical duct 2, at least to the top of the lower duct 4 The particulate heat storage material such as ceramics or the spherical heat storage material 11 having a spherical shape in the present embodiment is housed. As shown by the imaginary line D in FIG. 1, of course, the spherical heat storage material 11 can be accommodated in the vicinity of the upper air passage 3 or above the upper air passage 3. Thereby, the combustion air A and the exhaust gas B that have flowed in from the upper duct 3 and the lower duct 4 and flow through the inside of the vertical duct 2 flow through the spherical heat accumulating material 11 and come into contact with the spherical heat accumulating material 11.
當廢氣B流通時,球狀蓄熱材料11自廢氣B回收排 熱,當燃燒用空氣A流通時,球狀蓄熱材料11利用回收之排熱對燃燒用空氣A進行加熱。上部風道3及下部風道4之多孔板5、6,係一方面使燃燒用空氣A及廢氣B流通,一方面保持球狀蓄熱材料11以使球狀蓄熱材料11不要自垂直風道2之內部向上部風道3及下部風道4逃出。 When the exhaust gas B is circulated, the spherical heat accumulating material 11 is recovered from the exhaust gas B. When the combustion air A flows, the spherical heat storage material 11 heats the combustion air A by the exhaust heat recovered. The perforated plates 5 and 6 of the upper duct 3 and the lower duct 4 are configured to circulate the combustion air A and the exhaust gas B on the one hand, and to maintain the spherical heat accumulating material 11 on the one hand so that the spherical heat accumulating material 11 is not from the vertical duct 2 The inner upper air duct 3 and the lower air duct 4 escape.
多孔板5、6係設置為使面向垂直風道2內部之表面 5a、6a與垂直風道2之內面2c形成於大致相同面上,藉此,如後述,當將球狀蓄熱材料11自垂直風道2內部排出時,球狀蓄熱材料11平滑地落下,不會殘留在多孔板5、6之周邊。 The perforated plates 5, 6 are arranged such that the surface facing the inside of the vertical duct 2 The 5a, 6a and the inner surface 2c of the vertical duct 2 are formed on substantially the same surface. As will be described later, when the spherical heat storage material 11 is discharged from the inside of the vertical duct 2, the spherical heat storage material 11 smoothly falls. It does not remain on the periphery of the perforated plates 5, 6.
於垂直風道2之上端2a上設置有用以將球狀蓄熱材 料11供給於垂直風道2內部之供給料斗12。供給料斗12如所熟知 構成者,係由下端部朝供給方向傾斜之傾斜面所形成。 Provided on the upper end 2a of the vertical air duct 2 to serve the spherical heat storage material The material 11 is supplied to the supply hopper 12 inside the vertical duct 2 . Supply hopper 12 is as known The constituting body is formed by an inclined surface which is inclined at the lower end portion in the supply direction.
供給料斗12之下端12a之開口,係由與垂直風道2 之開口大致同一之尺寸所形成。供給料斗12係於朝垂直風道2內部供給之前,預先被自球狀蓄熱材料供給路徑13送入球狀蓄熱材料11並予貯存。一次之貯存量係設定為球狀蓄熱材料11之總交換量。 The opening of the lower end 12a of the supply hopper 12 is connected to the vertical air duct 2 The openings are formed in substantially the same size. The supply hopper 12 is sent to the spherical heat storage material 11 from the spherical heat storage material supply path 13 before being supplied to the inside of the vertical air duct 2, and is stored in advance. The storage amount at one time is set as the total exchange amount of the spherical heat storage material 11.
於供給料斗12之下端12a與垂直風道2之上端2a 之間可開閉自如地設置有上部閘門14。上部閘門14係藉由關閉而自垂直風道2內部將供給料斗12隔開,進而將球狀蓄熱材料11保持於供給料斗12內。同時,上部閘門14係對垂直風道2之內部氣密性地進行保持。另一方面,上部閘門14係藉由開放而將供給料斗12與垂直風道2之內部連通,將球狀蓄熱材料11自供給料斗12投放於垂直風道2內部。 At the lower end 12a of the supply hopper 12 and the upper end 2a of the vertical duct 2 The upper gate 14 is openably and closably connectable. The upper gate 14 separates the supply hopper 12 from the inside of the vertical duct 2 by closing, and further holds the spherical heat storage material 11 in the supply hopper 12. At the same time, the upper gate 14 is airtightly held inside the vertical duct 2 . On the other hand, the upper gate 14 communicates with the inside of the vertical duct 2 by opening, and the spherical heat storage material 11 is placed inside the vertical duct 2 from the supply hopper 12.
本實施形態中,上部閘門14係於水平方向被滑行驅 動而使左右一對之上部閘板14a相互接近及/或分離,藉由接近而被關閉,藉由分離而被開放。較佳為,各上部閘板14a係被分離驅動至使垂直風道2之上端2a成為全開之位置為止。作為驅動機構例如可使用油壓汽缸等。 In this embodiment, the upper gate 14 is slidably driven in the horizontal direction. The pair of right and left upper shutters 14a are moved toward and/or separated from each other, closed by being close, and opened by separation. Preferably, each of the upper shutters 14a is driven separately to a position where the upper end 2a of the vertical duct 2 is fully opened. As the drive mechanism, for example, a hydraulic cylinder or the like can be used.
於垂直風道2之下端2b可開閉自如地設置有下部閘 門15。下部閘門15係藉由關閉而自外部將垂直風道2內部隔開,進而將球狀蓄熱材料11保持於垂直風道2內部。同時,下部閘門15係對垂直風道2之內部氣密性地進行保持。另一方面,下部閘門15係藉由開放而將垂直風道2內部與外部連通,自垂直風道2內部將球狀蓄熱材料11排出。 At the lower end 2b of the vertical air duct 2, a lower brake can be opened and closed freely Door 15. The lower gate 15 separates the inside of the vertical duct 2 from the outside by closing, and further holds the spherical heat accumulating material 11 inside the vertical duct 2 . At the same time, the lower gate 15 holds the inside of the vertical duct 2 airtightly. On the other hand, the lower shutter 15 communicates the inside of the vertical duct 2 with the outside by opening, and discharges the spherical heat storage material 11 from the inside of the vertical duct 2.
本實施形態中,下部閘門15係利用對開門式進行開閉驅動,以使左右一對之下部閘板15a相互接近及/或分離。具體而言,下部閘門15係藉由各下部閘板15a之基端可旋轉自如地支持於設在垂直風道2之外側部分的支軸15b,且各下部閘板15a繞基端旋轉而使此等前端15c彼此接近而被關閉,並藉由分離而被開放。 In the present embodiment, the lower shutter 15 is opened and closed by the split door type so that the pair of right and left lower shutters 15a are close to each other and/or separated from each other. Specifically, the lower gate 15 is rotatably supported by the base end of each lower shutter 15a to the support shaft 15b provided at the outer side portion of the vertical duct 2, and each lower shutter 15a is rotated around the base end. These front ends 15c are closed close to each other and are opened by separation.
藉此,各下部閘板15a被分離移動至使垂直風道2之下端2b成為全開之位置為止。作為驅動機構例如可使用齒輪機構等。 Thereby, each of the lower shutters 15a is separated and moved to a position where the lower end 2b of the vertical duct 2 is fully opened. As the drive mechanism, for example, a gear mechanism or the like can be used.
下部閘門15也可與上部閘門14同樣地,藉由於水平方向滑行驅動而進行開閉。此外,上部閘門14也可與下部閘門15同樣地,藉由對開門式進行開閉驅動。 Similarly to the upper gate 14, the lower gate 15 can be opened and closed by sliding driving in the horizontal direction. Further, the upper gate 14 can be opened and closed by the open door type in the same manner as the lower gate 15.
若為滑行驅動,可減小設置所需要之上下尺寸,可將風道式蓄熱裝置1小型化。另一方面,於垂直風道2之上下具有寬裕空間之情況下,藉由對開門式,可瞬間迅速地進行球狀蓄熱材料11之供給及排出。 In the case of the coasting drive, the upper and lower dimensions required for the installation can be reduced, and the duct type heat storage device 1 can be miniaturized. On the other hand, when there is ample space above and below the vertical duct 2, the supply and discharge of the spherical heat accumulating material 11 can be instantaneously and rapidly performed by the door opening type.
本實施形態中,為了將下部閘板15a輕量化,於該下部閘板15a之下表面設置有補強肋15d,藉此,可期待下部閘板15a之薄壁化。此外,圖示例中,下部閘門15之下方係一空地,但也可於下部閘門15之正下方設置對球狀蓄熱材料11之排出進行導引之排出斜槽。 In the present embodiment, in order to reduce the weight of the lower shutter 15a, the reinforcing rib 15d is provided on the lower surface of the lower shutter 15a, whereby the lower shutter 15a can be expected to be thinned. Further, in the illustrated example, the lower portion of the lower shutter 15 is provided with an empty space, but a discharge chute for guiding the discharge of the spherical heat storage material 11 may be provided directly below the lower shutter 15.
下部風道4係連接於較設置有下部閘門15之垂直風道2的下端2b更靠上方,藉此,於垂直風道2之下端2b周邊形成有底部區域C。垂直風道2之下端2b周邊之底部區域C係較下部風道4靠下方,由於底部區域C若一旦有廢氣B等進入,壓力即會 穩定,隨後廢氣B等之朝向此底部區域C之流通將會受到妨礙。 The lower duct 4 is connected above the lower end 2b of the vertical duct 2 provided with the lower gate 15, whereby the bottom region C is formed around the lower end 2b of the vertical duct 2. The bottom area C around the lower end 2b of the vertical duct 2 is lower than the lower duct 4, and if the bottom area C enters the exhaust gas B, the pressure will be Stabilization, and then the circulation of the exhaust gas B or the like toward the bottom region C will be hindered.
亦即,廢氣B等不繞入底部區域C,再加上球狀蓄熱材料11彼此間之空氣層的相乘效應,進而出現隔熱性。因此,可防止下部閘門15周邊被加熱為高溫。藉此,可削減施工於下部閘門15之耐熱材料,而可達成下部閘門15之輕量化及低成本化。 That is, the exhaust gas B or the like does not wrap around the bottom portion C, and the synergistic effect of the air layer between the spherical heat accumulating materials 11 increases, and heat insulation occurs. Therefore, the periphery of the lower gate 15 can be prevented from being heated to a high temperature. Thereby, the heat-resistant material applied to the lower gate 15 can be reduced, and the weight and cost of the lower gate 15 can be reduced.
於風道式蓄熱裝置1之設置地板17上配置有回收容器18,該回收容器18位於垂直風道2下方,用以回收自下部閘門15排出之球狀蓄熱材料11。回收容器18具有向上開口部18a。只要是可收納球狀蓄熱材料11者,回收容器18亦可為類似貨櫃形態等之任一形態之容器。本實施形態中,為了提高移動之方便性,於回收容器18設置有可於設置地板17上自由行走之車輪18b。 A recovery container 18 is disposed on the installation floor 17 of the duct type heat storage device 1, and the recovery container 18 is located below the vertical duct 2 for recovering the spherical heat storage material 11 discharged from the lower gate 15. The recovery container 18 has an upward opening portion 18a. As long as the spherical heat storage material 11 can be accommodated, the recovery container 18 may be a container similar to any of the container forms. In the present embodiment, in order to improve the convenience of movement, the recovery container 18 is provided with a wheel 18b that can freely travel on the installation floor 17.
風道式蓄熱裝置1具備連接於上部閘門14、下部閘門15、供氣閥7及排氣閥9且對這些構件進行控制之控制器19。 The duct type heat storage device 1 includes a controller 19 that is connected to the upper gate 14, the lower gate 15, the air supply valve 7, and the exhaust valve 9, and controls these members.
供氣閥7係於蓄熱式燃燒器之燃燒動作時被開放(開放動作係於圖中以白色標記顯示),來自燃燒用空氣供給管8之燃燒用空氣A係自垂直風道2被朝向上部風道3送入。送入上部風道3之燃燒用空氣A係於其後與燃料混合,藉此朝爐內產生火焰。此時,排氣閥9被關閉(關閉動作係於圖中以黑色標記顯示)。另一方面,於蓄熱式燃燒器之排氣動作時,供氣閥7被關閉,並將排氣閥9開放,藉此,來自爐內之廢氣B經由上部風道3流通於垂直風道2內部,然後朝向廢氣排出管10排出。 The air supply valve 7 is opened during the combustion operation of the regenerative burner (the opening operation is indicated by a white mark in the figure), and the combustion air A from the combustion air supply pipe 8 is directed upward from the vertical duct 2 The air duct 3 is fed. The combustion air A sent to the upper duct 3 is thereafter mixed with the fuel, thereby generating a flame into the furnace. At this time, the exhaust valve 9 is closed (the closing operation is indicated by a black mark in the drawing). On the other hand, at the time of the exhaust operation of the regenerative burner, the supply valve 7 is closed, and the exhaust valve 9 is opened, whereby the exhaust gas B from the furnace flows through the upper duct 3 to the vertical duct 2 The inside is then discharged toward the exhaust gas discharge pipe 10.
控制器19係關於蓄熱式燃燒器之成對之燃燒器單元的一個燃燒器單元,於處在排氣閥9被關閉、供氣閥7開放而使燃燒用空氣A流通於垂直風道2之狀態下的燃燒動作時(另一個燃燒 器單元處於排氣動作狀態),若供氣閥7被關閉且自供氣閥7輸入此操作信號,即可進行球狀蓄熱材料11之交換操作。或者,於燃燒動作時,若於控制器19輸入供氣閥7之關閉信號,則將此輸入操作作為觸發器,可實施球狀蓄熱材料11之交換操作。 The controller 19 is a burner unit of the pair of burner units of the regenerative burner, wherein the exhaust valve 9 is closed, the air supply valve 7 is opened, and the combustion air A is circulated to the vertical duct 2 When the combustion is in the state (another combustion When the air supply valve 7 is closed and the operation signal is input from the air supply valve 7, the exchange operation of the spherical heat storage material 11 can be performed. Alternatively, when the controller 19 inputs the closing signal of the air supply valve 7 during the combustion operation, the input operation can be used as a trigger to perform the exchange operation of the spherical heat storage material 11.
隨著供氣閥7被關閉,垂直風道2內之氣流被暫時停 止,自控制器19朝下部閘門15送出開放信號。然後,若利用控制器19所具備之計時器等的計時而藉由經過既定時間等而確認全部之球狀蓄熱材料11已落下於回收容器18內,則朝下部閘門15送出關閉信號。其後,若藉由檢測下部閘門15之開閉的感測器等確認下部閘門15已被關閉,則自控制器19朝上部閘門14送出開放信號。 As the air supply valve 7 is closed, the airflow in the vertical air duct 2 is temporarily stopped. Then, the controller 19 sends an open signal to the lower gate 15. Then, when all of the spherical heat storage materials 11 have been dropped in the recovery container 18 by the lapse of a predetermined time or the like by the timer of the controller 19 or the like, a shutdown signal is sent to the lower shutter 15. Thereafter, when it is confirmed by the sensor or the like that detects the opening and closing of the lower shutter 15, the lower shutter 15 is closed, and the open signal is sent from the controller 19 to the upper gate 14.
其後,若藉由利用控制器19之計時器等的計時而藉由經過既定時間等確認全部之球狀蓄熱材料11已自供給料斗12投放於垂直風道2內,則自控制器19朝上部閘門14送出關閉信號。最後,若藉由檢測上部閘門14之開閉的感測器等確認上部閘門14已被關閉,則自控制器19朝排氣閥9送出開放信號,該一個燃燒器單元移行至排氣動作,藉此,利用成對之另一個燃燒器單元開始燃燒動作。 Then, by checking the timer of the controller 19 or the like, it is confirmed that all of the spherical heat storage material 11 has been placed in the vertical duct 2 from the supply hopper 12 by a predetermined time or the like, and then from the controller 19 The upper gate 14 sends a shutdown signal. Finally, if it is confirmed by the sensor or the like that detects the opening and closing of the upper gate 14, the upper gate 14 is closed, and an open signal is sent from the controller 19 toward the exhaust valve 9, and the one burner unit is moved to the exhausting operation. Thus, the combustion action is initiated by the pair of other burner units.
閥7、9及閘門14、15之動作控制,也可不利用控制器19之計時器等的遞增計數,而是由作業者一方面目視確認狀況,一方面操作控制器19對閘門14、15及閥7、9進行開閉操作。於此情況下,控制器19也是以排氣閥9被關閉作為條件,根據供氣閥7被關閉之情況,允許交換操作之控制。藉此,於排氣閥9被開放之排氣動作時,控制器19禁止交換操作之控制。 The operation of the valves 7, 9 and the gates 14, 15 may be controlled without the use of a timer such as a timer of the controller 19, but may be visually confirmed by the operator on the one hand, and the gates 14 and 15 may be operated by the controller 19 on the one hand. The valves 7, 9 are opened and closed. In this case, the controller 19 also controls the exchange operation in accordance with the case where the air supply valve 7 is closed, with the exhaust valve 9 being closed. Thereby, the controller 19 prohibits the control of the exchange operation when the exhaust valve 9 is opened by the exhaust operation.
接著,對本實施形態之風道式蓄熱裝置1之作用進行 說明。圖1至圖4中根據圖式順序顯示有球狀蓄熱材料11之交換操作之順序。圖1顯示蓄熱式燃燒器之平常運轉時之一個燃燒器單元的燃燒運轉狀態。 Next, the action of the duct type heat storage device 1 of the present embodiment is performed. Description. The sequence of the exchange operation of the spherical heat storage material 11 is shown in the order of the drawings in FIGS. 1 to 4. Fig. 1 shows the combustion operation state of one burner unit in the normal operation of the regenerative burner.
於燃燒動作時,供氣閥7被開放,並將排氣閥9關閉, 燃燒用空氣A自燃燒用空氣供給管8經過垂直風道2朝向上部風道3流通。球狀蓄熱材料11之交換操作係於此燃燒動作時進行。 During the combustion operation, the air supply valve 7 is opened and the exhaust valve 9 is closed. The combustion air A flows from the combustion air supply pipe 8 to the upper air passage 3 through the vertical duct 2 . The exchange operation of the spherical heat storage material 11 is performed during this combustion operation.
如圖2所示,首先,於垂直風道2下方之設備地板 17上配置回收容器18,回收容器18係將向上開口部18a朝向下部閘門15。此外,於供給料斗12內貯放有總交換量之球狀蓄熱材料11。然後將供氣閥7關閉。藉此,燃燒用空氣A之流通停止。此時,燃料之供給亦停止。 As shown in Figure 2, first, the equipment floor below the vertical duct 2 The recovery container 18 is disposed on the 17th, and the recovery container 18 is directed toward the lower shutter 15 toward the upper opening portion 18. Further, a total amount of the spherical heat storage material 11 is stored in the supply hopper 12. The gas supply valve 7 is then closed. Thereby, the circulation of the combustion air A is stopped. At this time, the supply of fuel is also stopped.
其後,藉由控制器19將下部閘門15開放。藉此,垂 直風道2內部之球狀蓄熱材料11於瞬間內一口氣地自下部閘門15朝回收容器18內排出。接著,藉由控制器19將下部閘門15關閉。 Thereafter, the lower gate 15 is opened by the controller 19. Take this The spherical heat accumulating material 11 inside the straight air duct 2 is discharged from the lower gate 15 into the recovery container 18 in an instant. Next, the lower gate 15 is closed by the controller 19.
接著,如圖3所示,藉由控制器19將上部閘門14 開放。藉此,供給料斗12內之球狀蓄熱材料11於瞬間內一口氣地自上部閘門14投放於垂直風道2內。 Next, as shown in FIG. 3, the upper gate 14 is controlled by the controller 19. open. Thereby, the spherical heat storage material 11 in the supply hopper 12 is placed in the vertical duct 2 from the upper gate 14 in an instant.
其後,如圖4所示,藉由控制器19將上部閘門14 關閉。然後開放排氣閥9。藉此,於該一個燃燒器單元中開始廢氣B之流通而移行至排氣運轉狀態,與此同時,於另一個燃燒器單元中開始燃燒運轉。於下部閘門15被關閉後,於適宜之時間將回收容器18搬入清洗設備等。藉由清洗等而被再生之球狀蓄熱材料11,自球狀蓄熱材料供給路徑13朝向供給料斗12被供給而被再利 用。 Thereafter, as shown in FIG. 4, the upper gate 14 is controlled by the controller 19. shut down. The exhaust valve 9 is then opened. Thereby, the flow of the exhaust gas B is started in the one burner unit to shift to the exhaust operation state, and at the same time, the combustion operation is started in the other burner unit. After the lower gate 15 is closed, the recovery container 18 is carried into a washing apparatus or the like at an appropriate time. The spherical heat storage material 11 that has been regenerated by washing or the like is supplied from the spherical heat storage material supply path 13 toward the supply hopper 12 to be re-benefited. use.
以上說明之本實施形態之風道式蓄熱裝置1,係於上 下方向筆直之形態之垂直風道2內收納球狀蓄熱材料11,因而無論是對球狀蓄熱材料11進行交換時之排出作業,還是用以再次填充之投放作業,皆不會產生堵塞,可瞬間且一口氣地進行,從而可於極短時間內迅速地完成全部球狀蓄熱材料11之交換作業。 The air duct type heat storage device 1 of the present embodiment described above is attached to Since the spherical heat storage material 11 is accommodated in the vertical air duct 2 in the form of a straight downward direction, the discharge operation for exchanging the spherical heat storage material 11 or the filling operation for refilling does not cause clogging. This is carried out in an instant, so that the exchange of all the spherical heat storage materials 11 can be quickly completed in a very short time.
因此,可簡化以球狀蓄熱材料11作為對象之蓄熱式 燃燒器之保養維護。此外,由於可一口氣地交換全部之球狀蓄熱材料11,因而不會有未交換之球狀蓄熱材料11始終殘留等之缺點,從而可提高設備之管理。 Therefore, the regenerative type with the spherical heat storage material 11 as an object can be simplified. Maintenance of the burner. Further, since all of the spherical heat storage materials 11 can be exchanged at once, there is no disadvantage that the unexchanged spherical heat storage materials 11 remain at all times, and the management of the equipment can be improved.
本實施形態中,以與垂直風道2之開口大致相同之尺 寸形成供給料斗12之下端12a的開口,及以面向垂直風道2內部之表面5a、6a與垂直風道2之內面2c大致形成於相同面上之方式設置多孔板5、6,因而於這些供給料斗12及多孔板5、6周邊不會殘留球狀蓄熱材料11,可更平滑且適宜地完成交換作業。 In this embodiment, it is substantially the same size as the opening of the vertical duct 2 The opening forms the opening of the lower end 12a of the supply hopper 12, and the perforated plates 5, 6 are disposed such that the surfaces 5a, 6a facing the inside of the vertical duct 2 and the inner surface 2c of the vertical duct 2 are formed substantially on the same surface. The spherical heat storage material 11 does not remain in the vicinity of the supply hopper 12 and the perforated plates 5 and 6, and the exchange operation can be completed more smoothly and appropriately.
特別是於排出作業中,只要開放下部閘門15,即可 直接將球狀蓄熱材料11全部排出,可消除掏出等之繁瑣作業。此外,由於是垂直風道2,因而構成極簡單,即使投放或排出球狀蓄熱材料11,仍可防止因此而產生之損傷。 Especially in the discharge operation, as long as the lower gate 15 is opened, By directly discharging all of the spherical heat storage material 11, it is possible to eliminate cumbersome work such as throwing out. Further, since it is the vertical duct 2, the configuration is extremely simple, and even if the spherical heat accumulating material 11 is placed or discharged, the damage caused thereby can be prevented.
於垂直風道2下方配置回收容器18,且藉由回收容 器18回收球狀蓄熱材料11,因而可容易地將排出之球狀蓄熱材料11移動至其他場所。 The recovery container 18 is disposed below the vertical air duct 2, and is recovered by the recovery The device 18 recovers the spherical heat storage material 11, so that the discharged spherical heat storage material 11 can be easily moved to another place.
藉由利用補強肋15d對下部閘板15a進行補強,或於 下部閘門15之正上方形成具有隔熱性之底部區域C,可確保下部 閘板15a之薄壁化及耐熱材料之施工量的削減,藉此,可縮短下部閘門15之開閉動作時間,可進一步縮短交換作業時間。 Reinforcing the lower shutter 15a by using the reinforcing rib 15d, or A bottom portion C having a heat insulating property is formed directly above the lower gate 15 to ensure the lower portion The thinning of the shutter 15a and the reduction of the amount of construction of the heat-resistant material can shorten the opening and closing operation time of the lower gate 15, and the exchange work time can be further shortened.
球狀蓄熱材料11之交換作業係,僅僅利用下部閘門 15及上部閘門14之開閉操作即可,因而可簡單且於短時間內完成作業,而可縮短蓄熱式燃燒器之運轉停止期間。 The switching operation system of the spherical heat storage material 11 uses only the lower gate 15 and the opening and closing operation of the upper gate 14 are sufficient, so that the work can be completed simply and in a short time, and the operation stop period of the regenerative burner can be shortened.
由於下部閘門15為對開門式,與滑開式比較,可瞬 間迅速地進行球狀蓄熱材料11之排出,藉此還可促進交換時間之短縮化。 Since the lower gate 15 is a split door type, compared with the sliding type, it can be instantaneously The discharge of the spherical heat storage material 11 is rapidly performed, whereby the shortening of the exchange time can be promoted.
由於構成為於下部風道4連接具有供氣閥7之燃燒用 空氣供給管8及具有排氣閥9之廢氣排出管10,且於排氣閥9被關閉、供氣閥7開放而燃燒用空氣A流通於垂直風道2之狀態下,對應於已將供氣閥7關閉之情形,緊接下部閘門15之開閉動作,繼續進行上部閘門14之開閉動作,因而於高溫廢氣B之流通時係禁止交換作業,另一方面,於燃燒用空氣A之流通期間中,藉由僅於交換作業時停止燃燒用空氣A之供給,可藉由此供給停止即藉由供氣閥7之關閉操作一方面極力抑制爐內溫度之變動,一方面,即使於蓄熱式燃燒器之運轉期間中,仍可進行球狀蓄熱材料11之交換作業。 Since it is configured to connect the lower air passage 4 to the combustion with the air supply valve 7 The air supply pipe 8 and the exhaust gas discharge pipe 10 having the exhaust valve 9 are provided in a state where the exhaust valve 9 is closed, the air supply valve 7 is opened, and the combustion air A flows through the vertical air passage 2, corresponding to When the air valve 7 is closed, the opening and closing operation of the lower shutter 15 is continued, and the opening and closing operation of the upper shutter 14 is continued. Therefore, the exchange operation is prohibited when the high-temperature exhaust gas B flows, and during the circulation of the combustion air A. By stopping the supply of the combustion air A only during the exchange operation, it is possible to suppress the fluctuation of the temperature in the furnace by the closing operation of the air supply valve 7 by the supply stop, and on the other hand, even in the regenerative type. During the operation of the burner, the exchange operation of the spherical heat storage material 11 can still be performed.
此外,於低溫之燃燒用空氣A之流通時進行交換作 業,因而可將球狀蓄熱材料11之溫度下降後排出,從而可提高作業之安全性。 In addition, the exchange is performed during the circulation of the low-temperature combustion air A. Therefore, the temperature of the spherical heat storage material 11 can be lowered and discharged, so that work safety can be improved.
並且,於一個燃燒器單元中,其構成為於結束球狀蓄 熱材料11之交換作業且將上部閘門14關閉後切換為排氣運轉,因而可對應於此動作將另一個燃燒器單元立即自排氣運轉切換為燃 燒運轉,可一方面將球狀蓄熱材料11之交換作業組入,一方面確保蓄熱式燃燒器之連續運轉,藉此可連續地對爐進行生產操作。 And, in one burner unit, it is configured to end the spherical storage The hot material 11 is exchanged and the upper gate 14 is closed and then switched to the exhaust operation, so that the other burner unit can be switched from the exhaust operation to the combustion immediately corresponding to this action. In the burning operation, the exchange operation of the spherical heat storage material 11 can be carried out on the one hand, and the continuous operation of the regenerative burner can be ensured on the one hand, whereby the production operation can be continuously performed on the furnace.
此外,剛交換後之低溫之球狀蓄熱材料11係,首先 自排氣運轉時被廢氣B所加熱並蓄熱及昇溫開始,因而當於此後之燃燒運轉時有燃燒用空氣A流通時,可達到充分之高溫狀態,可適宜地將該燃燒用空氣A加熱,進而可較高地維持產生於爐內之火焰溫度。 In addition, the low-temperature spherical heat storage material 11 after the exchange, first When the exhaust gas B is heated by the exhaust gas B and the heat storage and the temperature rise are started, when the combustion air A flows during the subsequent combustion operation, a sufficient high temperature state can be obtained, and the combustion air A can be appropriately heated. Further, the temperature of the flame generated in the furnace can be maintained high.
此外,於對蓄熱式燃燒器進行複數運轉之情況下,藉 由部分運轉而使任一之蓄熱式燃燒器停止運轉。當然也可於此運轉停止期間中進行交換作業。 In addition, in the case of performing multiple operations on the regenerative burner, Any of the regenerative burners is stopped by partial operation. Of course, it is also possible to perform an exchange operation during this operation stop period.
由於底部區域C具有隔熱性,形成此底部區域C之 垂直風道2部分,也可不使用耐火材料等,而由鐵殼形成。若如此做,則可減少垂直風道2之製作費用。 Since the bottom region C has heat insulation, the bottom region C is formed The vertical duct 2 may be formed of an iron shell without using a refractory material or the like. If so, the manufacturing cost of the vertical duct 2 can be reduced.
再者,對於顆粒狀蓄熱體,例示球體形狀之球狀蓄熱 材料11進行了說明,但顆粒狀不限於球狀,只要是橢圓狀、圓筒狀、粉碎之形狀等的呈現滾動性之形態,也可為任何一種形態。關於球狀也不需要為真球,也可為帶有變形及凹凸之球狀。 Further, for the particulate regenerator, a spherical shape heat storage of a spherical shape is exemplified Although the material 11 has been described, the shape of the particles is not limited to a spherical shape, and may be any form as long as it has a rolling shape such as an elliptical shape, a cylindrical shape, or a pulverized shape. The spherical shape does not need to be a true ball, and it may be a spherical shape with deformation and unevenness.
1‧‧‧風道式蓄熱裝置 1‧‧‧Air duct type heat storage device
2‧‧‧垂直風道 2‧‧‧Vertical air duct
2a‧‧‧垂直風道之上端 2a‧‧‧Upper vertical air duct
2b‧‧‧垂直風道之下端 2b‧‧‧lower end of vertical air duct
2c‧‧‧垂直風道之內面 2c‧‧‧ inside the vertical duct
3‧‧‧上部風道 3‧‧‧Upper air duct
4‧‧‧下部風道 4‧‧‧Lower air duct
5‧‧‧多孔板 5‧‧‧Perforated plate
5a‧‧‧多孔板之表面 5a‧‧‧ Surface of perforated plate
6‧‧‧多孔板 6‧‧‧Perforated plate
6a‧‧‧多孔板之表面 6a‧‧‧ Surface of perforated plate
7‧‧‧供氣閥 7‧‧‧ gas supply valve
8‧‧‧燃燒用空氣供給管 8‧‧‧Combustion air supply pipe
9‧‧‧排氣閥 9‧‧‧Exhaust valve
10‧‧‧廢氣排出管 10‧‧‧Exhaust exhaust pipe
11‧‧‧球狀蓄熱材料 11‧‧‧Spherical heat storage material
12‧‧‧供給料斗 12‧‧‧Supply hopper
12a‧‧‧供給料斗之下端 12a‧‧‧Supply at the lower end of the hopper
13‧‧‧球狀蓄熱材料供給路徑 13‧‧‧Spherical heat storage material supply path
14‧‧‧上部閘門 14‧‧‧Upper gate
14a‧‧‧上部閘板 14a‧‧‧Upper ram
15‧‧‧下部閘門 15‧‧‧lower gate
15a‧‧‧下部閘板 15a‧‧‧lower gate
15b‧‧‧支軸 15b‧‧‧ spindle
15c‧‧‧前端 15c‧‧‧ front end
15d‧‧‧補強肋 15d‧‧‧ reinforcing ribs
17‧‧‧設置地板 17‧‧‧Set the floor
18‧‧‧回收容器 18‧‧‧Recycling container
18a‧‧‧向上開口部 18a‧‧‧Upper opening
18b‧‧‧車輪 18b‧‧‧ Wheels
19‧‧‧控制器 19‧‧‧ Controller
A‧‧‧燃燒用空氣 A‧‧‧Combustion air
B‧‧‧廢氣 B‧‧‧Exhaust
C‧‧‧底部區域 C‧‧‧ bottom area
D‧‧‧顯示球狀蓄熱材料之收納高度之點劃線 D‧‧‧Dotted line showing the storage height of spherical heat storage material
Claims (7)
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JP2013240420A JP5782094B2 (en) | 2013-11-20 | 2013-11-20 | Duct type heat storage device |
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TW201522867A TW201522867A (en) | 2015-06-16 |
TWI568975B true TWI568975B (en) | 2017-02-01 |
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JP (1) | JP5782094B2 (en) |
KR (1) | KR101658759B1 (en) |
CN (1) | CN105723154B (en) |
TW (1) | TWI568975B (en) |
WO (1) | WO2015075998A1 (en) |
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CN105066757A (en) * | 2015-08-13 | 2015-11-18 | 北方民族大学 | Air heat accumulating and releasing device of solid particles |
CN113819651B (en) * | 2021-09-26 | 2023-05-23 | 芜湖新农夫机械股份有限公司 | Intelligent hot blast stove with waste gas purification function and use method thereof |
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JPH09159146A (en) * | 1995-12-07 | 1997-06-20 | Tokyo Gas Co Ltd | Method for replacing heat storage unit while maintaining temperature distribution of heat storage layer of regenerative burner and apparatus therefor |
JP2005090893A (en) * | 2003-09-18 | 2005-04-07 | Ishikawajima Harima Heavy Ind Co Ltd | Heat storage type heat exchanger and combustion device such as industrial furnace and pulverized coal burning boiler using it |
CN101319782B (en) * | 2008-06-26 | 2010-08-18 | 上海应用技术学院 | Heat accumulating burner capable of on-line replacing heat accumulation ball |
CN202638179U (en) * | 2012-05-24 | 2013-01-02 | 叶国清 | Ceramic filter |
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US4807695A (en) * | 1985-08-27 | 1989-02-28 | British Gas Plc | Regenerator for a regenerative heating system |
JPH09159148A (en) | 1995-12-07 | 1997-06-20 | Tokyo Gas Co Ltd | Heat storage unit replacing apparatus for regenerative burner |
JPH11211370A (en) * | 1998-01-27 | 1999-08-06 | Nippon Furnace Kogyo Kaisha Ltd | Thermal storage substance, thermal storage block piece used therein, and adhesion method for thermal storage substance |
JP4181289B2 (en) * | 2000-05-10 | 2008-11-12 | 中外炉工業株式会社 | Thermal storage type alternating combustion apparatus equipped with a thermal storage element exchange mechanism |
JP4121937B2 (en) * | 2003-12-15 | 2008-07-23 | Jfeスチール株式会社 | Cleaning method for thermal storage |
JP2011038741A (en) * | 2009-08-17 | 2011-02-24 | Sanken Sangyo Co Ltd | Direct injection type regenerative burner |
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2013
- 2013-11-20 JP JP2013240420A patent/JP5782094B2/en not_active Expired - Fee Related
-
2014
- 2014-09-08 CN CN201480061984.2A patent/CN105723154B/en not_active Expired - Fee Related
- 2014-09-08 WO PCT/JP2014/073631 patent/WO2015075998A1/en active Application Filing
- 2014-09-08 KR KR1020167012081A patent/KR101658759B1/en active IP Right Grant
- 2014-09-22 TW TW103132606A patent/TWI568975B/en not_active IP Right Cessation
Patent Citations (4)
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JPH09159146A (en) * | 1995-12-07 | 1997-06-20 | Tokyo Gas Co Ltd | Method for replacing heat storage unit while maintaining temperature distribution of heat storage layer of regenerative burner and apparatus therefor |
JP2005090893A (en) * | 2003-09-18 | 2005-04-07 | Ishikawajima Harima Heavy Ind Co Ltd | Heat storage type heat exchanger and combustion device such as industrial furnace and pulverized coal burning boiler using it |
CN101319782B (en) * | 2008-06-26 | 2010-08-18 | 上海应用技术学院 | Heat accumulating burner capable of on-line replacing heat accumulation ball |
CN202638179U (en) * | 2012-05-24 | 2013-01-02 | 叶国清 | Ceramic filter |
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KR101658759B1 (en) | 2016-09-21 |
WO2015075998A1 (en) | 2015-05-28 |
JP2015099002A (en) | 2015-05-28 |
CN105723154A (en) | 2016-06-29 |
KR20160057493A (en) | 2016-05-23 |
TW201522867A (en) | 2015-06-16 |
JP5782094B2 (en) | 2015-09-24 |
CN105723154B (en) | 2017-07-07 |
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