TW201333399A - Heater unit and heat treatment apparatus - Google Patents
Heater unit and heat treatment apparatus Download PDFInfo
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Description
本發明有關於加熱器單元及熱處理裝置,特別有關適用於藉由利用熱輻射之相對低溫帶(例如,300℃以下)之熱處理之加熱器單元及熱處理裝置。The present invention relates to a heater unit and a heat treatment apparatus, and more particularly to a heater unit and a heat treatment apparatus which are suitable for heat treatment by a relatively low temperature zone (for example, 300 ° C or less) using heat radiation.
為使由水或有機溶媒等之液滴所附著、或被此等之液體所濕潤之被處理品,利用熱使液體成分氣化而進行乾燥,所以使用具備有熱源之乾燥裝置。In order to dry the liquid component by heat or the like, which is adhered to or wet by the liquid such as water or an organic solvent, the liquid component is vaporized and dried. Therefore, a drying device including a heat source is used.
在專利文獻1中,提案有作為使矽晶圓上之水滴乾燥之乾燥裝置,其熱源使用紅外線燈,並在晶圓設置台和遠紅外線燈之間,配置與矽晶圓相同材質(Si)之濾光鏡者。濾光鏡雖然具有使能夠有效率地乾燥水滴之波長之紅外線穿透,但是將會對矽晶圓加熱之波長之紅外線過濾之功能。因此,可不對矽晶圓加熱而只對液滴加熱,可達成快速地乾燥。Patent Document 1 proposes a drying device that dries water droplets on a silicon wafer, and uses an infrared lamp for the heat source, and arranges the same material (Si) between the wafer mounting table and the far-infrared lamp. The filter. Although the filter has an infrared ray that allows the wavelength of the water droplet to be efficiently dried, it will function as an infrared ray filter for the wavelength at which the wafer is heated. Therefore, it is possible to heat the droplets without heating the droplets, and it is possible to achieve rapid drying.
[專利文獻1]日本專利特開平8-122532號公報[Patent Document 1] Japanese Patent Laid-Open No. Hei 8-122532
在上述專利文獻1所記載之乾燥裝置中,因為濾光鏡吸收紅外線,所以濾光鏡本身具有熱,連濾光鏡周邊之空氣亦會被加熱。因此,在乾燥處理時,當從被處理品產生可燃性之氣體(N-甲基吡咯烷酮(以下稱為MMP)氣體等)之情況時,周圍環境溫度上升至起燃溫度,就會有起火之危險性。例如,在鋰離子電池用電極,因為在製作塗布在金屬箔表面之集電體之漿料(slurry)時,會使用NMP作為溶劑,所以存在有此一危險。In the drying device described in Patent Document 1, since the filter absorbs infrared rays, the filter itself has heat, and the air surrounding the filter is also heated. Therefore, when a flammable gas (N-methylpyrrolidone (hereinafter referred to as MMP) gas or the like) is generated from the object to be treated during the drying process, the ambient temperature rises to the light-off temperature, and there is a fire. Dangerous. For example, in the electrode for a lithium ion battery, since NMP is used as a solvent when preparing a slurry of a current collector coated on the surface of the metal foil, there is a danger.
本發明有鑑於上述習知之問題,其目的在於:一邊抑制周圍環境溫度之上升一邊有效率地進行被處理品之熱處理。The present invention has been made in view of the above-described conventional problems, and an object thereof is to efficiently perform heat treatment of a workpiece while suppressing an increase in ambient temperature.
本發明之加熱器單元具有熱源、濾光鏡、和透光構件。熱源使用放射紅外線者。濾光鏡配置為鄰接上述熱源,用來過濾既定波長以上之紅外線。透光構件與上述濾光鏡對向而隔離配置在上述熱源之相反側,使穿透上述濾光鏡之紅外線穿透。The heater unit of the present invention has a heat source, a filter, and a light transmissive member. The heat source uses a person who emits infrared rays. The filter is disposed adjacent to the heat source and is used to filter infrared rays of a predetermined wavelength or more. The light transmitting member is disposed opposite to the filter and disposed on the opposite side of the heat source to penetrate the infrared rays penetrating the filter.
根據此一構造,從熱源所放射之紅外線在通過濾光鏡時,會過濾掉既定波長以上之光線。然後,只有穿透濾光鏡之紅外線才可穿透透光構件。因此,若將透光構件相對於被處理品進行接物配置時,利用穿透透光構件之紅外線對被處理品輻射加熱,可達成對被處理品之熱處理(例如,乾燥)。此時,由於透光構件幾乎不會吸收到紅外線,所以透光構件不會過熱。因此,可一邊抑制周圍環境溫度之上升一邊有效率地進行被處理品之加熱處理。According to this configuration, the infrared rays radiated from the heat source filter out light of a predetermined wavelength or more when passing through the filter. Then, only the infrared rays penetrating the filter can penetrate the light transmitting member. Therefore, when the light-transmitting member is placed on the workpiece with respect to the workpiece, the object to be treated is irradiated and heated by the infrared rays penetrating the light-transmitting member, whereby heat treatment (for example, drying) of the workpiece can be achieved. At this time, since the light transmitting member hardly absorbs infrared rays, the light transmitting member does not overheat. Therefore, the heat treatment of the workpiece can be efficiently performed while suppressing an increase in the ambient temperature.
另外,為使從濾光鏡表面所放出之熱不會傳達到透光構件,較佳為使上述濾光鏡和上述透光構件間之空間利用真空進行隔熱。Further, in order to prevent the heat emitted from the surface of the filter from being transmitted to the light transmitting member, it is preferable that the space between the filter and the light transmitting member is insulated by vacuum.
上述濾光鏡和上述透光構件之材料,較佳為可使用容易取得之石英玻璃。As the material of the above-mentioned filter and the above-mentioned light transmitting member, quartz glass which is easy to obtain can be preferably used.
另外,本發明之熱處理裝置,具備有熱處理爐、熱源、濾光鏡、和透光構件。熱處理爐用來收容被處理品。熱源使用放射紅外線者。濾光鏡係配置為鄰接上述熱源,用來過濾既定波長以上之紅外線。透光構件與上述濾光鏡對向而隔離配置在上述熱源之相反側,使未由上述濾光鏡所過濾之紅外線穿透,並且使上述濾光鏡與上述熱處理爐內之周圍環境隔離。Further, the heat treatment apparatus of the present invention comprises a heat treatment furnace, a heat source, a filter, and a light transmitting member. The heat treatment furnace is used to house the processed product. The heat source uses a person who emits infrared rays. The filter is disposed adjacent to the heat source and is used to filter infrared rays of a predetermined wavelength or more. The light transmitting member is disposed opposite to the filter and disposed opposite to the heat source, and penetrates the infrared rays not filtered by the filter, and isolates the filter from the surrounding environment in the heat treatment furnace.
根據此一構造,從熱源所放射之紅外線在通過濾光鏡時,會過濾掉既定波長以上之光線。然後,只有穿透濾光鏡之紅外線才可穿透透光構件。因此,若將透光構件相對於被處理品進行接物配置時,利用穿透透光構件之紅外線對被處理品輻射加熱,可達成對被處理品之熱處理(例如,乾燥)。此時,由於透光構件幾乎不會吸收到紅外線,所以透光構件不會過熱。因此,可一邊抑制周圍環境溫度之上升一邊有效率地進行被處理品之加熱處理。According to this configuration, the infrared rays radiated from the heat source filter out light of a predetermined wavelength or more when passing through the filter. Then, only the infrared rays penetrating the filter can penetrate the light transmitting member. Therefore, when the light-transmitting member is placed on the workpiece with respect to the workpiece, the object to be treated is irradiated and heated by the infrared rays penetrating the light-transmitting member, whereby heat treatment (for example, drying) of the workpiece can be achieved. At this time, since the light transmitting member hardly absorbs infrared rays, the light transmitting member does not overheat. Therefore, the heat treatment of the workpiece can be efficiently performed while suppressing an increase in the ambient temperature.
另外,本發明之熱處理裝置,具有傳熱阻止手段,可阻止從上述濾光鏡表面所放出之熱傳達到上述透光構件。根據此一構造,可使從濾光鏡表面所放出之熱不會傳達,有助於抑制周圍環境溫度之上升。具體而言,可藉由將上述濾光鏡和上述透光構件間之空間利用真空進行隔熱、或藉由設置冷卻手段以冷卻上述濾光鏡之表面而實現。Further, the heat treatment apparatus of the present invention has a heat transfer preventing means for preventing heat radiated from the surface of the filter from being transmitted to the light transmitting member. According to this configuration, the heat emitted from the surface of the filter can be prevented from being transmitted, which contributes to suppressing an increase in the ambient temperature. Specifically, it can be realized by heat-insulating the space between the filter and the light-transmitting member by vacuum or by providing a cooling means to cool the surface of the filter.
另外,若具有移動手段,其可使上述被處理品移動到上述熱處理爐內之與上述透光構件之紅外線射出側對向之區域,可達成連續地進行被處理品之熱處理,以提高作業效率。Further, when the moving means is provided, the processed article can be moved to a region in the heat treatment furnace opposite to the infrared light emitting side of the light transmitting member, whereby heat treatment of the processed product can be continuously performed to improve work efficiency. .
根據本發明,可一邊抑制周圍環境溫度之上升,一邊有效率地進行被處理品之熱處理。因此,在熱處理時即使從被處理品產生可燃性之氣體(MMP等),亦不會使周圍環境溫度上升到起燃溫度,而不會有爆炸之危險性。According to the present invention, heat treatment of the workpiece can be efficiently performed while suppressing an increase in the ambient temperature. Therefore, even if a flammable gas (MMP or the like) is generated from the workpiece during heat treatment, the ambient temperature is not raised to the light-off temperature without risk of explosion.
以下,參照圖式說明本發明一實施形態之熱處理裝置。Hereinafter, a heat treatment apparatus according to an embodiment of the present invention will be described with reference to the drawings.
如圖1所示,熱處理裝置10具有熱處理爐1、熱源21、濾光鏡3、和透光構件4。此熱處理裝置10較佳為可藉由利用輻射熱之相對低溫帶(例如,300℃以下)之熱處理者。As shown in FIG. 1, the heat treatment apparatus 10 has a heat treatment furnace 1, a heat source 21, a filter 3, and a light transmitting member 4. The heat treatment apparatus 10 is preferably a heat treater that can utilize a relatively low temperature zone (for example, 300 ° C or less) that uses radiant heat.
熱處理爐1具備有框體11和隔熱層12框體11由具備耐熱性之材料所構成。隔熱層12設置在框體11之內側。根據此一構造,熱處理爐1成為具備有耐熱性和隔熱性。隔熱層12可適用於使用陶瓷纖維等之隔熱材料。再者,亦可藉由使框體11之內側成為中空而以空氣層構成隔熱層12。The heat treatment furnace 1 is provided with a casing 11 and a heat insulating layer 12. The casing 11 is made of a material having heat resistance. The heat insulating layer 12 is disposed inside the frame 11. According to this configuration, the heat treatment furnace 1 is provided with heat resistance and heat insulation. The heat insulating layer 12 can be applied to a heat insulating material using ceramic fibers or the like. Further, the heat insulating layer 12 may be formed of an air layer by making the inside of the casing 11 hollow.
在本實施形態中,熱處理爐1係呈現扁平之箱形狀者。熱處理爐1之形狀並不僅限於此。例如,亦可成為有底圓筒形等。在熱處理爐1之天花板中央部,貫穿有用以安裝後述加熱器2之矩形安裝孔1A。In the present embodiment, the heat treatment furnace 1 is a flat box shape. The shape of the heat treatment furnace 1 is not limited to this. For example, it may be a bottomed cylindrical shape or the like. In the center portion of the ceiling of the heat treatment furnace 1, a rectangular mounting hole 1A for mounting a heater 2 to be described later is inserted.
熱處理爐1之內部係成為圖中之上下狹窄之空間。在此空間收容有被處理品100。而使熱處理爐1之內部成為上下狹窄之空間係為了使從後述之加熱器2所射出之紅外線有效地照射被處理品100。The interior of the heat treatment furnace 1 is a space narrowed above and below the figure. The processed article 100 is accommodated in this space. In addition, the inside of the heat treatment furnace 1 is a space in which the inside of the heat treatment furnace 1 is narrowed in order to efficiently illuminate the workpiece 100 from the infrared rays emitted from the heater 2 to be described later.
作為被處理品100之具體例,可列舉鋰離子電池用之電極等。如上述,鋰離子電池用之電極,在製作時會使用可燃性之NMP作為溶劑之漿料。Specific examples of the workpiece 100 include an electrode for a lithium ion battery. As described above, the electrode for a lithium ion battery uses a flammable NMP as a solvent slurry during production.
熱源21係使用放射紅外線之發熱體。具體而言,可列舉鎳鉻線發熱體,鹵素燈加熱器,碳製加熱器等。再者,圖1中之箭頭IR1表示從熱源21所放射之紅外線。熱源21所必要之輸出係根據熱處理爐1之大小和被處理品100之處理條件而改變。The heat source 21 is a heat generating body that emits infrared rays. Specifically, a nickel-chromium wire heating element, a halogen lamp heater, a carbon heater, etc. are mentioned. Further, an arrow IR1 in Fig. 1 indicates infrared rays radiated from the heat source 21. The output necessary for the heat source 21 varies depending on the size of the heat treatment furnace 1 and the processing conditions of the workpiece 100.
加熱器2將上述熱源21和陶瓷纖維等隔熱材料22利用真空成型為一體化而製作成既定之形狀。在本實施形態中,加熱器2呈現角板狀。再者,紅外線加熱器2之形狀並不僅限於此。例如,熱處理爐1若為有底圓筒形,只要與此對應地將加熱器2形成為半管狀或四分之一管狀亦可。In the heater 2, the heat source 21 and the heat insulating material 22 such as ceramic fibers are integrally formed by vacuum molding to have a predetermined shape. In the present embodiment, the heater 2 has a gusset shape. Furthermore, the shape of the infrared heater 2 is not limited to this. For example, if the heat treatment furnace 1 has a bottomed cylindrical shape, the heater 2 may be formed into a semi-tubular shape or a quarter tubular shape in accordance with this.
在隔熱材料22之底面露出有一部分之熱源21。隔熱材料22遮斷來自熱源21之熱。因此,加熱器2具有朝向紅外線之放射方向之指向性。亦即,加熱器2構成為從隔熱材料22之底面朝向下方射出紅外線。A part of the heat source 21 is exposed on the bottom surface of the heat insulating material 22. The heat insulating material 22 blocks heat from the heat source 21. Therefore, the heater 2 has directivity toward the radiation direction of the infrared rays. That is, the heater 2 is configured to emit infrared rays from the bottom surface of the heat insulating material 22 downward.
在隔熱材料22之上部形成有突緣部22B。當將加熱器2安裝在熱處理爐1時,使隔熱材料22之主體部22A插入上述安裝孔1A。然後,利用螺絲等將隔熱材料22之突緣部22B固定在熱處理爐1之外壁。藉此,使熱源21以面對熱處理爐1內部之方式,將加熱器2安裝在熱處理爐1。A flange portion 22B is formed on the upper portion of the heat insulating material 22. When the heater 2 is mounted in the heat treatment furnace 1, the main body portion 22A of the heat insulating material 22 is inserted into the above-described mounting hole 1A. Then, the flange portion 22B of the heat insulating material 22 is fixed to the outer wall of the heat treatment furnace 1 by screws or the like. Thereby, the heat source 21 is attached to the heat treatment furnace 1 in such a manner as to face the inside of the heat treatment furnace 1.
在熱處理爐1之內壁,於安裝孔1A之開口周圍安裝有支持構件5。支持構件5用來支持後述之濾光鏡3和透光構件4。On the inner wall of the heat treatment furnace 1, a support member 5 is attached around the opening of the mounting hole 1A. The support member 5 is for supporting the filter 3 and the light transmitting member 4 which will be described later.
濾光鏡3係用來過濾既定波長以上之紅外線者。作為濾光鏡3之材料可適用於使用容易取得之石英玻璃。再者,濾光鏡3之材料並不僅限定於此。會被過濾掉之紅外線之波長區域係根據濾光鏡3之材料所決定。例如,若為石英玻璃時,將由濾光鏡3過濾大約4μm以上之紅外線,4μm以下之紅外線可穿透濾光鏡3。圖1中之箭頭IR2表示穿透濾光鏡3之紅外線。The filter 3 is used to filter infrared rays of a predetermined wavelength or more. The material of the filter 3 can be applied to the use of quartz glass which is easy to obtain. Furthermore, the material of the filter 3 is not limited to this. The wavelength region of the infrared rays to be filtered out is determined according to the material of the filter 3. For example, in the case of quartz glass, infrared rays of about 4 μm or more are filtered by the filter 3, and infrared rays of 4 μm or less can penetrate the filter 3. The arrow IR2 in Fig. 1 indicates the infrared rays penetrating the filter 3.
濾光鏡3呈現板狀。濾光鏡3以位於加熱器2下方之方式支持於上述支持構件5。亦即,濾光鏡3配置為鄰接熱源21。The filter 3 assumes a plate shape. The filter 3 is supported by the above-described support member 5 in such a manner as to be located below the heater 2. That is, the filter 3 is disposed adjacent to the heat source 21.
透光構件4使未被濾光鏡3過濾而穿透濾光鏡3之紅外線穿透,並且使濾光鏡3與熱處理爐1內之周圍環境隔離。作為透光構件4之材料,可使用適用於容易取得之石英玻璃。再者,透光構件4之材料並不僅限定於此。例如,雖然稍微高價但亦可使用氟化鋇、氟化鈣、藍寶石等。The light transmitting member 4 penetrates the infrared rays that are not filtered by the filter 3 and penetrates the filter 3, and isolates the filter 3 from the surrounding environment in the heat treatment furnace 1. As the material of the light transmitting member 4, quartz glass suitable for easy availability can be used. Furthermore, the material of the light transmitting member 4 is not limited thereto. For example, cesium fluoride, calcium fluoride, sapphire or the like may be used although it is slightly expensive.
透光構件4呈現板狀。透光構件4之厚度為例如3~5mm程度。再者,透光構件4之厚度並不僅限定於此範圍。在透過率方面,透光構件4之厚度越薄越有利。The light transmitting member 4 has a plate shape. The thickness of the light transmitting member 4 is, for example, about 3 to 5 mm. Further, the thickness of the light transmitting member 4 is not limited to this range. In terms of transmittance, the thinner the thickness of the light transmissive member 4, the more advantageous.
透光構件4以位於濾光鏡3下方之方式支持於上述支持構件5。透光構件4和濾光鏡3係大致並行地被支持。亦即,透光構件4與濾光鏡3對向地隔離配置在熱源21之相反側。透光構件4為與濾光鏡3之熱處理爐1內之周圍環境確實地隔離,較佳為使與支持構件5間之密著性成為更高。而為了提高此密著性,可將透光構件4經由密封構件(未圖示)安裝在支持構件5。作為此密封構件之材料較佳為可使用具備有耐熱性和耐溶劑性之氟素系或Si系之樹脂。The light transmitting member 4 is supported by the above-described supporting member 5 so as to be positioned below the filter 3. The light transmitting member 4 and the filter 3 are supported substantially in parallel. That is, the light transmitting member 4 is disposed opposite to the filter 3 on the opposite side of the heat source 21. The light transmitting member 4 is surely isolated from the surrounding environment in the heat treatment furnace 1 of the filter 3, and it is preferable to make the adhesion to the supporting member 5 higher. Further, in order to improve the adhesion, the light transmitting member 4 may be attached to the supporting member 5 via a sealing member (not shown). As the material of the sealing member, a fluorine-based or Si-based resin having heat resistance and solvent resistance can be preferably used.
使透光構件4與濾光鏡3隔離係為了抑制從濾光鏡3之表面所放出之熱傳熱到透光構件4。圖1中之波狀線H表示從濾光鏡3之表面所放出之熱。因此,透光構件4和濾光鏡3之間隔越大越好,例如設定在50mm之程度。再者,利用下述說明之傳熱阻止手段可使此間隔變小。The light transmitting member 4 is isolated from the filter 3 in order to suppress heat transfer from the heat released from the surface of the filter 3 to the light transmitting member 4. The wavy line H in Fig. 1 indicates the heat released from the surface of the filter 3. Therefore, the larger the interval between the light transmitting member 4 and the filter 3, the better, for example, set to about 50 mm. Further, this interval can be made small by the heat transfer preventing means described below.
傳熱阻止手段係用來阻止從濾光鏡3之表面所放出之熱傳達到透光構件4。具體而言,可藉由使濾光鏡3和透光構件4間之空間9利用真空進行隔熱、或藉由設置冷卻手段以冷卻濾光鏡3之表面而實現。作為冷卻手段,例如,較佳為可使用風扇或吹風機等送風裝置、散熱風扇或熱管等熱交換器。The heat transfer preventing means is for preventing the heat radiated from the surface of the filter 3 from being transmitted to the light transmitting member 4. Specifically, it can be realized by heat-insulating the space 9 between the filter 3 and the light-transmitting member 4 by vacuum or by providing a cooling means to cool the surface of the filter 3. As the cooling means, for example, a heat exchanger such as a fan or a blower, a heat dissipating fan, or a heat pipe such as a heat pipe can be preferably used.
被處理品100,在熱處理爐1內與透光構件4之紅外線射出側對向之區域進行熱處理。再者,亦可設置移動手段用來將被處理品100朝此區域移動。具體而言,如圖所示具備有搬送滾輪6。再者,移動手段並不僅限定於搬送滾輪6。例如,亦可為搬送皮帶等。藉由移動手段成為可連續地進行被處理品100之熱處理,以提高作業效率。The workpiece 100 is subjected to heat treatment in the heat treatment furnace 1 in a region opposed to the infrared light emission side of the light transmitting member 4. Furthermore, a moving means may be provided for moving the article to be processed 100 toward this area. Specifically, the transport roller 6 is provided as shown in the drawing. Furthermore, the moving means is not limited to the conveying roller 6. For example, it may be a conveyor belt or the like. The heat treatment of the workpiece 100 can be continuously performed by the moving means to improve work efficiency.
被處理品100亦可比如圖所示之熱處理爐1之全長(圖1左右之寬度)更長。在此一情況時,藉由在熱處理爐1之兩個側面設置開口(搬入口1B和搬出口1C),可從熱處理爐1之外部如箭頭S般將被處理品100搬入,一邊在熱處理爐1內依序進行熱處理,一邊使到搬出為止之連貫作業自動地進行。再者,若被處理品100為具有可撓性之片狀物之情況時,如圖2所示,亦可將送出滾輪7和捲取滾輪8分別配置在搬入口1B、和搬出口1B之外側,而利用滾輪到滾輪(roll-to-roll)連續地進行熱處理。The workpiece 100 can also be longer than the entire length of the heat treatment furnace 1 (the width of the left and right in FIG. 1). In this case, by providing openings (the inlet 1B and the outlet 1C) on both side faces of the heat treatment furnace 1, the workpiece 100 can be carried in from the outside of the heat treatment furnace 1 by the arrow S, while the heat treatment furnace is being used. The heat treatment is performed in sequence, and the continuous operation until the carry-out is automatically performed. Further, when the processed article 100 is a flexible sheet, as shown in FIG. 2, the delivery roller 7 and the take-up roller 8 may be disposed in the carry-in port 1B and the carry-out port 1B, respectively. The outer side is continuously heat-treated by a roll-to-roll.
根據本實施形態之熱處理裝置10,從熱源21所放射之紅外線IR1,在通過濾光鏡3時會過濾掉既定波長以上之光線。然後,只有穿透濾光鏡3之紅外線IR2可穿透透光構件4。因此,利用穿透透光構件4之紅外線IR3對被處理品100進行輻射加熱,可進行被處理物100之熱處理(例如,乾燥)。此時,因為透光構件4幾乎不會吸收紅外線,所以透光構件4不會過熱。因此,可一邊抑制周圍環境溫度之上升,一邊有效率地進行被處理品100之加熱處理。因此,在熱處理時即使從被處理品產生可燃性之氣體(MMP等),亦可使周圍環境溫度不會上升到起燃溫度,而不會有爆炸之危險性。According to the heat treatment apparatus 10 of the present embodiment, the infrared ray IR1 emitted from the heat source 21 filters out light of a predetermined wavelength or more when passing through the filter 3. Then, only the infrared ray IR2 penetrating the filter 3 can penetrate the light transmitting member 4. Therefore, the object to be treated 100 is radiantly heated by the infrared ray IR3 penetrating the light transmitting member 4, whereby heat treatment (for example, drying) of the object 100 can be performed. At this time, since the light transmitting member 4 hardly absorbs infrared rays, the light transmitting member 4 does not overheat. Therefore, the heat treatment of the workpiece 100 can be efficiently performed while suppressing an increase in the ambient temperature. Therefore, even if a flammable gas (MMP or the like) is generated from the workpiece during heat treatment, the ambient temperature does not rise to the light-off temperature without risk of explosion.
圖3係,表示使熱源、濾光鏡、和透光構件一體化之加熱器單元一實例之熱處理裝置之主要部分之剖面圖。在圖3所示加熱器單元200之實例中,使支持構件5成為在上部具有突緣部5B之筒狀,使加熱器2之主體部22A插入到支持構件5之筒內部並使用突緣部22B將加熱器2固定在支持構件5。藉此,形成使熱源21、濾光鏡3、和透光構件4一體化之加熱器單元200。Fig. 3 is a cross-sectional view showing a main portion of a heat treatment apparatus which is an example of a heater unit in which a heat source, a filter, and a light transmitting member are integrated. In the example of the heater unit 200 shown in FIG. 3, the support member 5 is formed into a cylindrical shape having a flange portion 5B at the upper portion, and the main body portion 22A of the heater 2 is inserted into the inside of the cylinder of the support member 5 and the flange portion is used. 22B fixes the heater 2 to the support member 5. Thereby, the heater unit 200 in which the heat source 21, the filter 3, and the light transmitting member 4 are integrated is formed.
在將加熱器單元200安裝到安裝熱處理爐1時,使支持構件5之主體部5A插入熱處理爐1之安裝孔1A。然後,使用突緣部5B利用固定螺絲等固定在熱處理爐1之外壁。藉此,可將加熱器單元200構成為可裝卸自如。When the heater unit 200 is attached to the heat treatment furnace 1, the main body portion 5A of the support member 5 is inserted into the mounting hole 1A of the heat treatment furnace 1. Then, the flange portion 5B is fixed to the outer wall of the heat treatment furnace 1 by a fixing screw or the like. Thereby, the heater unit 200 can be configured to be detachable.
上述實施形態之說明,全部作為例示之用,不應視為用來限制本發明者。本發明之範圍並非由上述實施形態所表示,而是由申請專利範圍所表示。而且,本發明之範圍係包含與申請專利範圍相等之意義和在範圍內之所有變更。The description of the above embodiments is intended to be illustrative, and should not be construed as limiting the invention. The scope of the present invention is not indicated by the above embodiments, but is represented by the scope of the claims. Further, the scope of the present invention is intended to include all modifications and equivalents thereof.
1...熱處理爐1. . . Heat treatment furnace
1A...安裝孔1A. . . Mounting holes
1B、1C...搬出口1B, 1C. . . Move out
2...紅外線加熱器2. . . Infrared heater
3...濾光鏡3. . . Filter
4...透光構件4. . . Light transmitting member
5...支持構件5. . . Support component
5A...主體部5A. . . Main body
5B...突緣部5B. . . Flange
6...搬送滾輪6. . . Transport roller
7...送出滾輪7. . . Send out the wheel
8...捲取滾輪8. . . Take-up roller
9...空間9. . . space
10...熱處理裝置10. . . Heat treatment device
11...框體11. . . framework
12...隔熱層12. . . heat insulation
21...熱源twenty one. . . Heat source
22...隔熱材料twenty two. . . Insulation materials
22A...主體部22A. . . Main body
22B...突緣部22B. . . Flange
100...被處理品100. . . Processed product
200...加熱器單元200. . . Heater unit
H...波狀線H. . . Wave line
IR1、IR2、IR3...紅外線(箭頭)IR1, IR2, IR3. . . Infrared (arrow)
S...箭頭S. . . arrow
圖1係表示本發明一實施形態之熱處理裝置之概略構造圖。Fig. 1 is a schematic structural view showing a heat treatment apparatus according to an embodiment of the present invention.
圖2係表示本發明另一實施形態之熱處理裝置之概略構造圖。Fig. 2 is a schematic structural view showing a heat treatment apparatus according to another embodiment of the present invention.
圖3係表示使熱源、濾光鏡和透光構件一體化之加熱器單元一實例之熱處理裝置主要部分之剖面圖。Fig. 3 is a cross-sectional view showing a main portion of a heat treatment apparatus of an example of a heater unit in which a heat source, a filter, and a light transmitting member are integrated.
1...熱處理爐1. . . Heat treatment furnace
1A...安裝孔1A. . . Mounting holes
1B...搬出口1B. . . Move out
1C...搬出口1C. . . Move out
2...紅外線加熱器2. . . Infrared heater
3...濾光鏡3. . . Filter
4...透光構件4. . . Light transmitting member
5...支持構件5. . . Support component
6...搬送滾輪6. . . Transport roller
9...空間9. . . space
10...熱處理裝置10. . . Heat treatment device
11...框體11. . . framework
12...隔熱層12. . . heat insulation
21...熱源twenty one. . . Heat source
22...隔熱材料twenty two. . . Insulation materials
22A...主體部22A. . . Main body
22B...突緣部22B. . . Flange
100...被處理品100. . . Processed product
H...波狀線H. . . Wave line
IR1...紅外線(箭頭)IR1. . . Infrared (arrow)
IR2...紅外線(箭頭)IR2. . . Infrared (arrow)
IR3...紅外線(箭頭)IR3. . . Infrared (arrow)
S...箭頭S. . . arrow
Claims (8)
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TW101104504A TWI577957B (en) | 2012-02-13 | 2012-02-13 | Heater unit and heat treatment apparatus |
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CN107773195A (en) * | 2017-11-16 | 2018-03-09 | 浙江帅康电气股份有限公司 | A kind of drying and air exchange system and the dish-washing machine comprising the system |
CN107874719A (en) * | 2017-11-16 | 2018-04-06 | 浙江帅康电气股份有限公司 | A kind of dish-washing machine dried drier and include the drying drier |
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JP3088250B2 (en) * | 1994-10-28 | 2000-09-18 | 日本電気株式会社 | Drying equipment |
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CN107773195A (en) * | 2017-11-16 | 2018-03-09 | 浙江帅康电气股份有限公司 | A kind of drying and air exchange system and the dish-washing machine comprising the system |
CN107874719A (en) * | 2017-11-16 | 2018-04-06 | 浙江帅康电气股份有限公司 | A kind of dish-washing machine dried drier and include the drying drier |
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