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JP2723795B2 - Horizontal processing furnace - Google Patents

Horizontal processing furnace

Info

Publication number
JP2723795B2
JP2723795B2 JP2297494A JP2297494A JP2723795B2 JP 2723795 B2 JP2723795 B2 JP 2723795B2 JP 2297494 A JP2297494 A JP 2297494A JP 2297494 A JP2297494 A JP 2297494A JP 2723795 B2 JP2723795 B2 JP 2723795B2
Authority
JP
Japan
Prior art keywords
valve
core tube
opening
furnace core
furnace
Prior art date
Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
Expired - Fee Related
Application number
JP2297494A
Other languages
Japanese (ja)
Other versions
JPH07235497A (en
Inventor
繁章 井手
Current Assignee (The listed assignees may be inaccurate. Google has not performed a legal analysis and makes no representation or warranty as to the accuracy of the list.)
NEC Kyushu Ltd
Original Assignee
NEC Kyushu Ltd
Priority date (The priority date is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the date listed.)
Filing date
Publication date
Application filed by NEC Kyushu Ltd filed Critical NEC Kyushu Ltd
Priority to JP2297494A priority Critical patent/JP2723795B2/en
Publication of JPH07235497A publication Critical patent/JPH07235497A/en
Application granted granted Critical
Publication of JP2723795B2 publication Critical patent/JP2723795B2/en
Anticipated expiration legal-status Critical
Expired - Fee Related legal-status Critical Current

Links

Description

【発明の詳細な説明】DETAILED DESCRIPTION OF THE INVENTION

【0001】[0001]

【産業上の利用分野】本発明は長尺な炉芯管を水平に載
置した横型拡散炉に関し、特に、複数枚の半導体ウェー
ハ(以下単にウェーハと呼ぶ)をボートに搭載しに収納
してウェーハ表面に酸化、不純物拡散および気相成長な
どの処理を行なう横型処理炉に関する。
BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a horizontal diffusion furnace in which a long furnace core tube is placed horizontally, and more particularly to a horizontal diffusion furnace in which a plurality of semiconductor wafers (hereinafter simply referred to as wafers) are mounted on a boat and stored. The present invention relates to a horizontal processing furnace for performing processes such as oxidation, impurity diffusion, and vapor phase growth on a wafer surface.

【0002】[0002]

【従来の技術】この種の横型処理炉は、一度に多数枚の
ウェーハを効率良く処理できるようにウェーハの複数枚
を立てて並べボートに乗せ、このボートを長尺な炉芯管
に入れ、所要の酸化、不純物拡散あるいは気相成長によ
る成膜などの処理を行なっていた。また、このウェーハ
を搭載するボートにおいては、生産性向上の目的として
如何に多数の半導体ウェーハを搭載し均一に処理できる
か種々の改善工夫がなされてきた。
2. Description of the Related Art In a horizontal processing furnace of this type, a plurality of wafers are erected and arranged on a boat so that a large number of wafers can be efficiently processed at a time, and the boat is placed in a long furnace core tube. Processing such as required oxidation, impurity diffusion, or film formation by vapor phase growth has been performed. In addition, various improvements have been made in boats on which these wafers are mounted to see how many semiconductor wafers can be mounted and processed uniformly for the purpose of improving productivity.

【0003】しかしながら、多数枚のウェーハをボート
に搭載できるのに伴いボート自体が長く重くなり、この
重量のあるボートを炉芯管に挿入する際に、炉芯管の内
壁とボートの下部とがこすれ、これにより石英くずや内
壁に付着する気相成長膜の剥れなどによる塵埃を発生さ
せ、炉芯管を真空排気する際に発生した塵埃が舞い上り
半導体ウェーハに付着し品質に重大な欠陥をもたらすと
いう新たな問題を引起すこととなった。
[0003] However, the boat itself becomes longer and heavier as a large number of wafers can be mounted on the boat, and when the heavy boat is inserted into the furnace core tube, the inner wall of the furnace core tube and the lower part of the boat are separated. This causes dust due to the removal of quartz chips and the vapor-phase growth film attached to the inner wall, and the dust generated when the furnace core tube is evacuated flies up and adheres to semiconductor wafers, causing serious defects in quality. Raises a new problem:

【0004】このような塵埃の発生を抑制する方法とし
て、ボートを炉芯管内に搬入する際に、ボートを炉芯管
内壁に摺動させることなく空間内を移動させ所定の位置
に到達したら、ボートをゆっくり下し炉芯管に載置する
というソフトランディング方式が採用された。しかしな
がら、この方式は塵埃の発生を抑制するものの、ボート
を持ち上げ移動させゆっくりと下すという複雑な運動を
させるボート搬出入機構を必要とし装置自体が高価にな
るばかりか、このボート搬出入機構の動きに合せてそれ
だけ炉芯管を大きくしなければならないことと同時にこ
のボート搬出入機構を設置するために炉芯管の周囲に広
い床面積が必要になり必ずしも得策な方法とは言えな
い。
As a method of suppressing the generation of such dust, when a boat is carried into a furnace core tube, the boat is moved in a space without sliding on the furnace core inner wall and reaches a predetermined position. A soft landing method was adopted in which the boat was slowly lowered and placed on the furnace core tube. However, although this method suppresses the generation of dust, it requires a boat loading / unloading mechanism that performs a complicated movement of lifting and moving the boat and slowly lowering it, which not only makes the device itself expensive, but also moves the boat loading / unloading mechanism. Accordingly, the furnace core tube must be enlarged accordingly, and at the same time, a large floor area is required around the furnace core tube for installing the boat loading / unloading mechanism, which is not always an advantageous method.

【0005】このソフトランディング方式とは別に塵埃
が発生しても塵埃を除去する手段をもつ横型処理炉が特
開昭60一72225号公報に開示されている。この装
置は、炉芯管である石英反応管におけるボートの通過路
上に複数の塵埃排出孔を並べて開け、この塵埃排出孔を
含む新たに排気管を石英反応管の下部に設け、この排気
管をバルブを介して前記石英反応管の真空排気装置に接
続している。
A horizontal processing furnace having means for removing dust even if dust is generated in addition to the soft landing method is disclosed in Japanese Patent Application Laid-Open No. 60-72225. In this apparatus, a plurality of dust discharge holes are arranged and opened on the passage of a boat in a quartz reaction tube which is a furnace core tube, and a new exhaust pipe including the dust discharge holes is provided at a lower portion of the quartz reaction tube. The quartz reaction tube is connected to a vacuum evacuation device via a valve.

【0006】この装置の塵埃除去作用は、まず、ボート
挿入排出時に発生する塵埃を前記バルブを開け前記塵埃
排出孔と前記排気管を通し前記真空排気装置によって排
出させ、ある程度排気し塵埃が舞い上らなくなってから
前記バルブを閉じ、石英反応管側のバルブを開け石英反
応管を排気する。このように石英反応管を真空排気する
前に下部の排気管を通して塵埃を効果的に除去すること
を特徴としている。
The dust removing action of this device is as follows. First, dust generated when a boat is inserted and discharged is opened by opening the valve, discharged through the dust discharge hole and the exhaust pipe, and discharged by the vacuum exhaust device. After that, the valve is closed, the valve on the quartz reaction tube side is opened, and the quartz reaction tube is evacuated. As described above, dust is effectively removed through the lower exhaust pipe before the quartz reaction pipe is evacuated.

【0007】[0007]

【発明が解決しようとする課題】しかしながら、上述し
た横型処理炉では、比較的に重量のある塵埃は塵埃排出
孔から排気管内に落ち込み真空排気装置の吸引力で除去
できるものの、重量の小さい微細な粉状の塵埃は塵埃排
出孔に落ち込まず石英反応管の底部に停留したままにな
り、バルブを開けたときの急激な管内の圧力降下に伴な
う気流によって微粉状の塵埃は必然的に舞い上り、これ
ら舞い上った塵埃は気中の僅かな水分を吸収しウェーハ
に付着する。このように付着した微粉状の塵埃をウェー
ハより離脱させることは洗浄しない限りは困難である。
また、塵埃が付着したまま処理することは品質に重大な
欠陥をもたらすことになる。
However, in the above-mentioned horizontal processing furnace, relatively heavy dust falls into the exhaust pipe from the dust discharge hole and can be removed by the suction force of the vacuum exhaust device, but the fine and small weight is small. The powdery dust does not fall into the dust discharge hole and remains at the bottom of the quartz reaction tube. Ascending, these soaring dusts absorb a little moisture in the air and adhere to the wafer. It is difficult to remove the fine powder dust attached from the wafer unless it is cleaned.
In addition, processing with dust adhered causes a serious defect in quality.

【0008】従って、本発明の目的は、炉芯管へのボー
トの搬出入時に塵埃が発生してもウェーハを汚染するこ
となく処理できる横型処理炉を提供することにある。
Accordingly, it is an object of the present invention to provide a horizontal processing furnace capable of processing wafers without contaminating the wafers even if dust is generated when the boat is carried in and out of the furnace core tube.

【0009】[0009]

【課題を解決するための手段】本発明の特徴は、一端側
に第1の開閉弁を介し真空排気装置が接続されるととも
に他端に開口を有し水平に載置される長尺の炉芯管と、
反応ガス導入口が設けられ前記開口を開閉する蓋を有
し、複数の半導体ウェーハを載置し収納されるボートを
前記炉芯管に該開口より挿入する横型処理炉において、
前記炉芯管の上部に長手方向に複数並べて設けられた空
気取入れ口を開閉する第2の開閉弁と、前記炉芯管の底
部の内壁とその一壁部が連なる排気管と、この排気管を
第3の開閉弁を介して前記真空排気装置に連結するとと
もに該真空排気装置の排気速度を制御する排気速度制御
機構とを備える横型処理炉である。
A feature of the present invention is that a long elongate furnace which is connected horizontally to a vacuum exhaust device at one end through a first on-off valve and has an opening at the other end. A core tube,
A horizontal processing furnace having a lid provided with a reaction gas inlet and opening and closing the opening, and inserting a boat in which a plurality of semiconductor wafers are placed and stored into the furnace core tube from the opening,
A second opening / closing valve for opening and closing a plurality of air intake ports provided in the upper part of the furnace core pipe in a longitudinal direction, an exhaust pipe connecting an inner wall of the bottom part of the furnace core pipe and one wall part thereof, and an exhaust pipe Is connected to the vacuum pumping device via a third on-off valve, and a pumping speed control mechanism for controlling a pumping speed of the vacuum pumping device.

【0010】また、前記空気取入れ口から乾燥したガス
を前記炉芯管内へ導入する手段を設けることが望まし
い。
[0010] It is preferable that a means for introducing dry gas into the furnace core tube from the air inlet is provided.

【0011】[0011]

【実施例】次に本発明について図面を参照して説明す
る。
DESCRIPTION OF THE PREFERRED EMBODIMENTS Next, the present invention will be described with reference to the drawings.

【0012】図1(a)および(b)は本発明の横型処
理炉の一実施例を示す断面図および拡大して示すAA矢
視図である。この横型処理炉は、図1に示すように、一
端側にバルブ8を介し真空ポンプ2に接続されるととも
に他端に開口18を有し水平に載置される長尺の石英製
の炉芯管1と、反応ガス導入口14を有し開口18を開
閉する蓋17と、炉芯管1の開口18より挿入され複数
のウェーハ11を載置し収納されるボート12と、炉芯
管1の上部に長手方向に複数並べて設けられた空気取入
れ口16を開閉するバルブ15と、炉芯管1の底部の内
壁4aとその一部の壁部4bとが連なる排気管3と、こ
の排気管3をバルブ9を介して真空ポンプ2に連結する
とともに真空ポンプ2の排気速度を制御する可変コンダ
クタンスバルブ10とを備えている。
1 (a) and 1 (b) are a cross-sectional view and an enlarged view taken on line AA of an embodiment of the horizontal processing furnace of the present invention. As shown in FIG. 1, this horizontal processing furnace is connected to the vacuum pump 2 via a valve 8 at one end and has an opening 18 at the other end, and has a long quartz core inserted horizontally. A tube 1, a lid 17 having a reaction gas inlet 14 for opening and closing an opening 18, a boat 12 inserted through the opening 18 of the furnace core tube 1, on which a plurality of wafers 11 are placed and stored, and a furnace core tube 1 A valve 15 for opening and closing an air intake port 16 provided in the upper portion of the furnace in a longitudinal direction, an exhaust pipe 3 in which an inner wall 4a at the bottom of the furnace core tube 1 and a partial wall 4b thereof are continuous, and an exhaust pipe 3 is connected to the vacuum pump 2 via a valve 9 and has a variable conductance valve 10 for controlling the evacuation speed of the vacuum pump 2.

【0013】また、装置が置かれる部屋の塵埃度および
湿度を考慮して空気取入れ口16には水分を除去する空
気清浄用のフィルタ13の取付けることごが望ましい。
この種の装置が設置される部屋は清浄度の高い部屋であ
るので、このフィルタ13は部屋の塵埃度よりはむしろ
湿度を重視し乾燥材を入れることが望ましい。また、こ
の乾燥材については、頻繁に交換を必要とするが吸湿性
の高い5酸化リンなどを充填すると良い。
Further, it is desirable to attach an air purifying filter 13 for removing moisture to the air intake 16 in consideration of the degree of dust and humidity in the room where the apparatus is placed.
Since the room in which this type of device is installed is a room with a high degree of cleanliness, it is desirable that this filter 13 puts a drying agent in favor of humidity rather than dustiness in the room. The desiccant needs to be replaced frequently, but is preferably filled with phosphorus pentoxide having high hygroscopicity.

【0014】炉芯管1は表面が滑らかに成形でき高耐熱
性の石英材か安価な炭化珪素材あるいは窒化珪素材を用
いると良い。また、この円管状に成形された炉芯管1の
底部は重量のある塵埃が落ち込むように溝4を形成する
ことが望ましい。しかも排気管3に行くに従って下り勾
配をもたせることである。
The furnace core tube 1 is preferably made of a quartz material or a silicon carbide material or a silicon nitride material which can be formed smoothly and has high heat resistance and which is inexpensive. Further, it is desirable to form a groove 4 at the bottom of the furnace core tube 1 formed into a circular tube so that heavy dust falls. In addition, it is to have a downward gradient toward the exhaust pipe 3.

【0015】排気速度制御機構である可変コンダクタン
スバルブ10は、ベーンの開度によりコンダクタンスを
変えて真空ポンプ2の排気速度を制御するものである。
そして、この真空ポンプ2の排気速度を小さくすること
によって吸引圧力も小さくできる。また、この真空ポン
プ2の排気速度の抑制により可変コンダクタンスバルブ
10の背圧が低下し可変コンダクタンスバルブ10の制
御が円滑に行なわれないときは、背圧を上げるように後
段にバリアブルリーク弁を設け、ある程度の外気をリー
クさせ背圧が一定になるよういに図ることが望ましい。
The variable conductance valve 10 serving as an exhaust speed control mechanism controls the exhaust speed of the vacuum pump 2 by changing the conductance according to the opening degree of the vane.
The suction pressure can be reduced by reducing the exhaust speed of the vacuum pump 2. When the back pressure of the variable conductance valve 10 is reduced due to the suppression of the pumping speed of the vacuum pump 2 and the control of the variable conductance valve 10 is not performed smoothly, a variable leak valve is provided at a subsequent stage so as to increase the back pressure. It is desirable that a certain amount of outside air be leaked so that the back pressure becomes constant.

【0016】次に、この横型処理炉における塵埃除去作
用について説明する。まず、バルブ15およびバルブ9
を開け、バルブ8を閉じた状態で、ボート12を摺動部
12aを炉芯管1の内壁に接触させながら炉芯管1内に
収納し蓋17で開口18を閉じる。次に、可変コンダク
タンスバルブ10の開度を最小にして真空ポンプ2を動
作させる。そして、可変コンダクタンスバルブ10の開
度を徐々に大きくし真空ポンプ2の排気速度を緩やかに
上げる。
Next, the dust removing action in this horizontal processing furnace will be described. First, valve 15 and valve 9
With the valve 8 closed, the boat 12 is housed in the furnace core tube 1 while the sliding portion 12 a is in contact with the inner wall of the furnace core tube 1, and the opening 18 is closed by the lid 17. Next, the vacuum pump 2 is operated with the opening of the variable conductance valve 10 minimized. Then, the opening of the variable conductance valve 10 is gradually increased, and the evacuation speed of the vacuum pump 2 is gradually increased.

【0017】このことにより空気取入れ口16より外気
が侵入し、矢印で示す空気の流れを生じさせ、溝4に停
滞する塵埃は排気管3の方向に流され排気管3を通し炉
芯管1外に排出される。次に、可変コンダクタンスバル
ブ10の開度が最大の例えば1/2程度に達したら所定
の時間だけ排気した後、レーザ光を溝4に照射し異物の
存在の有無を確認してからバルブ15および9を閉じ、
バルブ8を開けて炉芯管内を所定の真空度に排気する。
そして、反応ガス導入口14より反応ガスを導入しウェ
ーハ11を処理する。
As a result, outside air enters through the air inlet 16 and generates an air flow indicated by an arrow. Dust stagnating in the groove 4 is flowed in the direction of the exhaust pipe 3, passes through the exhaust pipe 3, and passes through the furnace core pipe 1. It is discharged outside. Next, when the degree of opening of the variable conductance valve 10 reaches the maximum, for example, about 排 気, the gas is evacuated for a predetermined time, and then the laser light is applied to the groove 4 to check for the presence of foreign matter. Close 9
The valve 8 is opened to evacuate the furnace core tube to a predetermined degree of vacuum.
Then, a reaction gas is introduced from the reaction gas inlet 14 to process the wafer 11.

【0018】このように真空ポンプ2の排気速度を抑え
吸引圧力を小さくした状態で、空気取入れ口16から排
気管3側への乾燥した空気の弱い流れを形成し、徐々に
流れの強さを増すことにより溝4あるいは溝4近傍の塵
埃は舞い上がることなく排気管3側に流され排出され
る。試みにウェーハ11に付着する塵埃を調べたとこ
ろ、その塵埃数は一ウェーハ当り10個程度であり、ソ
フトランディング方式と同程度の結果であった。
With the exhaust speed of the vacuum pump 2 suppressed and the suction pressure reduced in this way, a weak flow of dry air from the air intake 16 to the exhaust pipe 3 is formed, and the intensity of the flow gradually increases. With the increase, the dust in the groove 4 or in the vicinity of the groove 4 is flown toward the exhaust pipe 3 and discharged without rising. When the dust adhering to the wafer 11 was examined in the trial, the number of the dust was about 10 per wafer, which was almost the same as that of the soft landing method.

【0019】図2は本発明の横型処理炉の他の実施例を
示す断面図である。この横型処理炉は、図2に示すよう
に、炉芯管1の上部にある空気取入れ口16にマニホー
ルド5とバルブ7を介して乾燥ガス供給装置6を設けた
ことである。それ以外は前述の実施例と同じである。
FIG. 2 is a sectional view showing another embodiment of the horizontal processing furnace of the present invention. In this horizontal processing furnace, as shown in FIG. 2, a dry gas supply device 6 is provided at an air intake 16 at an upper portion of the furnace core tube 1 via a manifold 5 and a valve 7. Other than that, it is the same as the above-mentioned embodiment.

【0020】この乾燥ガス供給装置は、窒素やアルゴン
あるいはヘリウムなどの不活性ガスを充填したガスボン
ベと、圧力調整器および圧力計19で構成され、炉芯管
1内に任意の圧力のガスを導入することができる。ここ
では、安価で取扱いが容易な窒素を用いている。また、
この種のガスボンベに充填された窒素ガスは水分を全く
含まない状態であるので、この乾燥度の高い窒素を導入
することで炉芯管1内壁やウェーハ11あるいはボート
12などに付着する水分を奪いこれらに付着する塵埃を
より容易に剥離させるという利点がある。
This dry gas supply device comprises a gas cylinder filled with an inert gas such as nitrogen, argon or helium, a pressure regulator and a pressure gauge 19, and introduces a gas at an arbitrary pressure into the furnace core tube 1. can do. Here, nitrogen which is inexpensive and easy to handle is used. Also,
Since nitrogen gas filled in this kind of gas cylinder does not contain moisture at all, by introducing this highly dry nitrogen, moisture adhering to the inner wall of the furnace core tube 1, the wafer 11, the boat 12, or the like is deprived. There is an advantage that dust adhering to these is more easily separated.

【0021】次に、この横型処理炉における塵埃除去作
用について説明する。まず、バルブ7およびバルブ9を
開け、バルブ8を閉じた状態で、ボート12を炉芯管1
内に収納し蓋17で開口18を閉じる。次に、炉芯管1
内を略1気圧に維持しながら乾燥ガス供給装置6から例
えば0.05気圧程度の圧力で窒素を供給し空気取入れ
口16から導入する。一方、真空ポンプ2の吸引圧力が
例えば0.05気圧程度になるように可変コンダクタン
スバルブ10の開度を調節する。このことによって炉芯
管1の上方と下方とでは圧力差0.1気圧を生じさせ矢
印で示す空気の流れを形成する。この空気の流れによっ
て塵埃は舞い上ることなく排気管3側に寄せられ排出さ
れる。
Next, the dust removing action in the horizontal processing furnace will be described. First, with the valve 7 and the valve 9 opened and the valve 8 closed, the boat 12 is
The opening 18 is closed with the lid 17. Next, furnace core tube 1
While maintaining the inside at approximately 1 atm, nitrogen is supplied from the dry gas supply device 6 at a pressure of, for example, about 0.05 atm and is introduced from the air intake 16. On the other hand, the opening of the variable conductance valve 10 is adjusted so that the suction pressure of the vacuum pump 2 becomes, for example, about 0.05 atm. As a result, a pressure difference of 0.1 atm is generated between the upper part and the lower part of the furnace core tube 1 to form a flow of air indicated by an arrow. Due to this flow of air, the dust is brought to the side of the exhaust pipe 3 and discharged without soaring.

【0022】この実施例の場合は強制的に窒素ガスを流
すことにより空気の流れを一方向に限定して制御できる
ことから前述の実施例に比べ舞い上り現象をよりなくせ
るという利点がある。また、乾燥した窒素ガスを用いる
ことにより、水分を含む室内の空気を利用する前述の実
施例に比べ塵埃の剥離および移動が極めて円滑に進み、
より短時間で塵埃を炉芯管1より排出できる。なお、以
上説明した実施例では、ボート11の炉芯管1への搬出
入を炉芯管1の内壁とボート11の摺動部12aとの面
接触で移動を行なっているが、ボート11に車輪を取付
けころがり接触で移動させれば、移動による発塵をより
少なくすることができる。
In this embodiment, since the flow of air can be controlled in one direction by forcibly flowing nitrogen gas, there is an advantage that the flying phenomenon can be further reduced as compared with the above-described embodiment. Further, by using the dried nitrogen gas, the separation and movement of the dust proceed extremely smoothly as compared with the above-described embodiment using the indoor air containing moisture,
Dust can be discharged from the furnace core tube 1 in a shorter time. In the embodiment described above, the boat 11 is carried in and out of the furnace core tube 1 by surface contact between the inner wall of the furnace core tube 1 and the sliding portion 12a of the boat 11. If the wheels are mounted and moved by rolling contact, dust generated by the movement can be further reduced.

【0023】[0023]

【発明の効果】以上説明したように本発明は、炉芯管の
上側に外気取入れ口と下部側に塵埃が停留する内壁と一
部の壁部が連なる排気管を設け、さらに、この排気管に
バルブを介して真空排気装置と接続し、この真空排気装
置の排気速度を制御する排気速度制御機構を備え、炉芯
管上部から下部に向って流れる空気の流れを形成するこ
とによって、炉芯管内壁に停留した塵埃を舞い上らせる
ことなく排気管を通して排出できるので、ウェーハに塵
埃を付着させることがなくなる。また、必要に応じて、
炉芯管内に乾燥ガスを外気取入れ口から導入することに
よって、炉芯管内壁あるいはボートなどの水分を取去り
塵埃の剥離を促進し塵埃を短時間に排出させるという効
果もある。
As described above, according to the present invention, an exhaust pipe is provided on the upper side of the furnace core pipe, and an exhaust pipe is provided on the lower side where an inner wall where dust stays and a part of the wall are continuous. Is connected to a vacuum pumping device via a valve, and has a pumping speed control mechanism for controlling the pumping speed of the vacuum pumping device. Since the dust remaining on the inner wall of the tube can be discharged through the exhaust pipe without soaring, dust does not adhere to the wafer. Also, if necessary,
By introducing the dry gas into the furnace core tube from the outside air intake, there is also an effect that moisture on the inner wall of the furnace core tube or the boat is removed, the separation of dust is promoted, and the dust is discharged in a short time.

【図面の簡単な説明】[Brief description of the drawings]

【図1】本発明の横型処理炉の一実施例を示す断面図お
よび拡大して示すAA矢視図である。
FIG. 1 is a cross-sectional view showing an embodiment of a horizontal processing furnace according to the present invention, and is an enlarged view taken on line AA of FIG.

【図2】本発明の横型処理炉の他の実施例を示す断面図
である。
FIG. 2 is a sectional view showing another embodiment of the horizontal processing furnace of the present invention.

【符号の説明】[Explanation of symbols]

1 炉芯管 2 真空ポンプ 3 排気管 4 溝 4a 内壁 4b 壁部 5 マニホールド 6 乾燥ガス供給装置 7,8,9,15 バルブ 10 可変コンダクタンスバルブ 11 ウェーハ 12 ボート 12a 摺動部 13 フィルタ 14 反応ガス導入口 16 空気取入れ口 17 蓋 18 開口 19 圧力計 DESCRIPTION OF SYMBOLS 1 Furnace tube 2 Vacuum pump 3 Exhaust pipe 4 Groove 4a Inner wall 4b Wall 5 Manifold 6 Dry gas supply device 7, 8, 9, 15 Valve 10 Variable conductance valve 11 Wafer 12 Boat 12a Sliding portion 13 Filter 14 Introducing reactive gas Mouth 16 Air intake 17 Lid 18 Opening 19 Pressure gauge

Claims (3)

(57)【特許請求の範囲】(57) [Claims] 【請求項1】 一端側に第1の開閉弁を介し真空排気装
置が接続されるとともに他端に開口を有し水平に載置さ
れる長尺の炉芯管と、反応ガス導入口が設けられ前記開
口を開閉する蓋を有し、複数の半導体ウェーハを載置し
収納されるボートを前記炉芯管に該開口より挿入する横
型処理炉において、前記炉芯管の上部に長手方向に複数
並べて設けられた空気取入れ口を開閉する第2の開閉弁
と、前記炉芯管の底部の内壁とその一壁部が連なる排気
管と、この排気管を第3の開閉弁を介して前記真空排気
装置に連結するとともに該真空排気装置の排気速度を制
御する排気速度制御機構とを備えることを特徴とする横
型処理炉。
1. A long furnace core tube having one end connected to a vacuum evacuation device via a first on-off valve and having an opening at the other end, which is placed horizontally, and a reaction gas inlet. A horizontal processing furnace having a lid for opening and closing the opening, and inserting a boat in which a plurality of semiconductor wafers are placed and stored into the furnace core tube through the opening, wherein a plurality of semiconductor wafers are longitudinally disposed above the furnace core tube. A second on-off valve for opening and closing the air intake ports provided side by side, an exhaust pipe connecting the inner wall at the bottom of the furnace core tube and one wall thereof, and connecting the exhaust pipe to the vacuum via a third on-off valve. A horizontal processing furnace, comprising: an exhaust speed control mechanism connected to the exhaust device and controlling an exhaust speed of the vacuum exhaust device.
【請求項2】 前記空気取入れ口に前記第2の開閉弁を
介して水分除去する空気清浄用フィルタが取付けられて
いることを特徴とする請求項1記載の横型処理炉。
2. The horizontal processing furnace according to claim 1, wherein an air cleaning filter for removing moisture through the second on-off valve is attached to the air intake.
【請求項3】 前記空気取入れ口に前記第2の開閉弁を
介して乾燥ガス供給装置が設けられていることを特徴と
する請求項1記載の横型処理炉。
3. The horizontal processing furnace according to claim 1, wherein a drying gas supply device is provided at the air intake via the second on-off valve.
JP2297494A 1994-02-22 1994-02-22 Horizontal processing furnace Expired - Fee Related JP2723795B2 (en)

Priority Applications (1)

Application Number Priority Date Filing Date Title
JP2297494A JP2723795B2 (en) 1994-02-22 1994-02-22 Horizontal processing furnace

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
JP2297494A JP2723795B2 (en) 1994-02-22 1994-02-22 Horizontal processing furnace

Publications (2)

Publication Number Publication Date
JPH07235497A JPH07235497A (en) 1995-09-05
JP2723795B2 true JP2723795B2 (en) 1998-03-09

Family

ID=12097541

Family Applications (1)

Application Number Title Priority Date Filing Date
JP2297494A Expired - Fee Related JP2723795B2 (en) 1994-02-22 1994-02-22 Horizontal processing furnace

Country Status (1)

Country Link
JP (1) JP2723795B2 (en)

Families Citing this family (7)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
KR100436084B1 (en) * 2001-11-12 2004-06-12 주식회사 크레젠 Horizontal type Diffusion Furnace for manufacturing semiconductor wafer
KR101012045B1 (en) 2007-07-23 2011-01-31 코바렌트 마테리얼 가부시키가이샤 Pressure-reducing apparatus and porous body of inorganic material used in this apparatus
JP5084608B2 (en) * 2008-05-27 2012-11-28 コバレントマテリアル株式会社 Pressure reducing exhaust valve
JP5219206B2 (en) * 2008-11-04 2013-06-26 コバレントマテリアル株式会社 Pressure reducing exhaust valve
JP5912229B2 (en) * 2010-06-25 2016-04-27 光洋サーモシステム株式会社 Continuous diffusion processing equipment
JP5912230B2 (en) * 2010-06-25 2016-04-27 光洋サーモシステム株式会社 Continuous diffusion processing equipment
JP6010183B2 (en) * 2015-05-20 2016-10-19 光洋サーモシステム株式会社 Continuous diffusion processing equipment

Also Published As

Publication number Publication date
JPH07235497A (en) 1995-09-05

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