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JPH0671689B2 - Vacuum suction device for polishing and grinding - Google Patents

Vacuum suction device for polishing and grinding

Info

Publication number
JPH0671689B2
JPH0671689B2 JP60264802A JP26480285A JPH0671689B2 JP H0671689 B2 JPH0671689 B2 JP H0671689B2 JP 60264802 A JP60264802 A JP 60264802A JP 26480285 A JP26480285 A JP 26480285A JP H0671689 B2 JPH0671689 B2 JP H0671689B2
Authority
JP
Japan
Prior art keywords
polishing
grinding
suction
vacuum
wafer
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
JP60264802A
Other languages
Japanese (ja)
Other versions
JPS62124844A (en
Inventor
潔 赤松
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.)
Hitachi Ltd
Original Assignee
Hitachi 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 Hitachi Ltd filed Critical Hitachi Ltd
Priority to JP60264802A priority Critical patent/JPH0671689B2/en
Publication of JPS62124844A publication Critical patent/JPS62124844A/en
Publication of JPH0671689B2 publication Critical patent/JPH0671689B2/en
Anticipated expiration legal-status Critical
Expired - Fee Related legal-status Critical Current

Links

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  • Mechanical Treatment Of Semiconductor (AREA)
  • Jigs For Machine Tools (AREA)
  • Constituent Portions Of Griding Lathes, Driving, Sensing And Control (AREA)
  • Finish Polishing, Edge Sharpening, And Grinding By Specific Grinding Devices (AREA)

Description

【発明の詳細な説明】 〔産業上の利用分野〕 本発明は研磨、研削加工の被加工物の保持に係り、特に
大口径の被加工物を高い形状精度に研磨、研削する事に
好適な研磨、研削用真空吸着装置に関する。
The present invention relates to holding of a workpiece to be ground or ground, and is particularly suitable for polishing or grinding a workpiece having a large diameter with high shape accuracy. The present invention relates to a vacuum suction device for polishing and grinding.

〔従来の技術〕[Conventional technology]

従来、被加工物を真空吸着保持する手段として、例え
ば、実開昭59−17159号公報に示されるように、真空チ
ャック吸着面への研削材の吸引防止手段として、真空チ
ャックの外周部に摺動自在のシール体を設け、このシー
ル体をウエハの裏面外周部に真空吸着させる装置が知ら
れている。
Conventionally, as a means for holding a workpiece by vacuum suction, for example, as shown in Japanese Utility Model Laid-Open No. 59-17159, as a means for preventing suction of abrasives to the vacuum chuck suction surface, it is slid on the outer peripheral portion of the vacuum chuck. There is known a device in which a movable seal body is provided and the seal body is vacuum-sucked to the outer periphery of the back surface of the wafer.

この装置は、真空チャック面に研削材の吸引防止を可能
としているが、摺動シール体部分をウエハに密着させて
いるだけで、ウエハに研削圧力を負荷していない。
This device can prevent the suction of the abrasive on the vacuum chuck surface, but only the sliding seal body portion is brought into close contact with the wafer, and the wafer is not subjected to the grinding pressure.

また、例えば、実開昭58−40338号公報に示されるよう
に、真空吸着第の上面に該吸着台を貫通する細穴に接続
する細穴を形成した薄いフィルム状の軟質プラスチック
シートを張り付け、前記シートの上面ウエハの接触面に
前記細穴に接続する多数の条痕を形成したものが知られ
ている。この装置は単に短時間にウエハを取り外すこと
を可能にしているにすぎない。
Further, for example, as shown in Japanese Utility Model Application Laid-Open No. 58-40338, a thin film-like soft plastic sheet is formed on the upper surface of the vacuum suction member, in which thin holes are formed to connect to the small holes penetrating the suction table. It is known that a large number of striations connecting to the fine holes are formed on the contact surface of the upper surface wafer of the sheet. This device simply allows the wafer to be removed in a short time.

また、例えば、実開昭56−151728号公報に示されるよう
に、吸着部をその外縁部で包囲された載台の吸着面にお
いて、前記吸着部と外縁部とは同質の無機物であってそ
れぞれ気孔率の異なるものを用いて形成したものが知ら
れている。
Further, for example, as shown in Japanese Utility Model Laid-Open No. 56-151728, in the adsorption surface of the mounting table surrounded by the outer edge portion of the adsorption portion, the adsorption portion and the outer edge portion are the same inorganic substance, respectively. Those formed by using those having different porosities are known.

このものは、熱膨張係数の相違や湿度による変形度合の
相違により生ずる吸着面の歪曲を防止することを可能と
している。
This one can prevent the adsorption surface from being distorted due to a difference in coefficient of thermal expansion and a difference in degree of deformation due to humidity.

またさらに、例えば、実開昭58−180026号公報に示され
るように、被加工ウエハの外形寸法によりわずかに小さ
い外形寸法の厚板の表面に複数の細溝等を刻設し、この
細溝等と連通する吸引用孔を穿つ一方、上記厚板の全外
周にゴム状弾性体を密着,囲繞し、このゴム状弾性体を
上記厚板の表面より微小寸法突出させた吸引板が知られ
ている。
Furthermore, for example, as shown in Japanese Utility Model Laid-Open No. 58-180026, a plurality of fine grooves or the like are formed on the surface of a thick plate having an outer dimension slightly smaller than the outer dimension of the wafer to be processed. A suction plate is known in which a rubber-like elastic body is closely adhered to and surrounds the entire outer circumference of the thick plate while the suction hole communicating with the thick plate is made to protrude from the surface of the thick plate by a small dimension. ing.

この吸着板は研磨剤のウエハ裏面への侵入の防止を可能
とし、ウエハ精度の向上も一応期待できるものであっ
た。
This suction plate can prevent the polishing agent from invading the back surface of the wafer, and it can be expected that the accuracy of the wafer will be improved.

〔発明が解決しようとする課題〕[Problems to be Solved by the Invention]

上記従来技術は、吸着部外周部に加工中の研磨材,研削
材の被加工物へ侵入を防止する外周部シール体が配設さ
れていないものがある。
In some of the above-mentioned conventional techniques, the outer peripheral seal body for preventing the abrasive material or the abrasive material being processed from entering the workpiece is not provided on the outer peripheral portion of the suction portion.

また、前記シール体が配設されていても単に密着してい
るにすぎず研磨,研削圧力を負荷していないものがあ
る。
In addition, even if the seal body is provided, there is a case in which the seal body is merely in close contact and is not subjected to polishing and grinding pressure.

さらに、シール体が研磨,研削圧力を負荷していても、
吸着部の内周部と外周部シール体とが別体に形成され、
前記両面体を接合した構成となっているものもある。
Furthermore, even if the seal body is subjected to polishing and grinding pressure,
The inner peripheral portion and the outer peripheral sealing body of the adsorption portion are formed as separate bodies,
There is also a structure in which the double-sided body is joined.

さらにまた、上記従来技術は、吸着部全体の減圧を同一
の真空源で行う構成となっている。
Furthermore, the above-mentioned conventional technique is configured to reduce the pressure of the entire adsorption unit by the same vacuum source.

したがって、上記吸着部の構成では、被加工物上の研
磨,研削圧力のばらつきが生まれる。加えて、吸着部全
体の減圧を同一の真空源で実施することが前記発生した
ばらつきを増加させる。
Therefore, in the structure of the suction portion, variations in polishing and grinding pressures on the workpiece occur. In addition, performing the decompression of the entire adsorption unit with the same vacuum source increases the generated variation.

このため、研磨量,研削量に差が生じ、被加工物が凹形
上となり、良好な形状精度が得られないという問題があ
った。
For this reason, there is a problem that a difference occurs in the amount of polishing and the amount of grinding, the workpiece becomes concave, and good shape accuracy cannot be obtained.

本発明は、上記従来技術の問題点を解決するためになさ
れたもので、被加工物を減圧により吸着保持する装置に
おいて、吸着面に研磨材,研削材の流入を防止し、被加
工物面に均一な研磨圧力,研削圧力を負加し、高い形状
精度の被加工物を研磨、研削できる研磨、研削用真空吸
着装置を提供することにある。
The present invention has been made to solve the above-mentioned problems of the prior art, and in an apparatus for adsorbing and holding an object to be processed by decompression, it prevents inflow of abrasives and abrasives to the adsorbing surface, The object is to provide a vacuum suction device for polishing and grinding which can uniformly polish and grind a workpiece having high shape accuracy by negatively applying uniform polishing pressure and grinding pressure.

〔課題を解決するための手段〕[Means for Solving the Problems]

上記目的を達成するため、本発明に係る研磨,研削用真
空吸着装置の構成は、被加工物を減圧により吸着保持す
る研磨、研削用真空吸着装置において、被加工物に接し
てこれを吸着する吸着部材は、同一高さの吸着面を持
ち、かつ環状の外周部にのみ軟質弾性体を含浸させた多
孔質体で構成され、上記環状の外周部に設けた連通孔お
よび軟質弾性体が含浸されない内周部をそれぞれ別個の
減圧源で減圧することにより、上記同一高さの吸着面に
吸着された被加工物に、均一な研磨、研削圧力を負荷す
るようにしたものである。
In order to achieve the above object, the structure of the vacuum suction device for polishing and grinding according to the present invention is such that in a vacuum suction device for polishing and grinding which sucks and holds a workpiece by decompression, it is in contact with the workpiece and sucks it. The suction member has a suction surface of the same height and is composed of a porous body in which a soft elastic body is impregnated only in the annular outer peripheral portion, and the communication hole and the soft elastic body provided in the annular outer peripheral portion are impregnated. By depressurizing the inner peripheral portions which are not formed by separate depressurizing sources, uniform polishing and grinding pressures are applied to the work piece adsorbed on the adsorbing surfaces having the same height.

〔作用〕[Action]

上記技術手段の働きは次のとおりである。 The functions of the above technical means are as follows.

本発明の構成によれば、被加工物を減圧により吸着保持
する研磨,研削用真空吸着装置において、吸着部を同一
高さを有する一体の多孔質体とし、その環状外周部にの
み軟質弾性体を含浸させたので、被加工物を同一平面上
に保持し、内周面,外周面それぞれに吸着し、シールす
るので二重のシールをすることになる。
According to the configuration of the present invention, in a vacuum suction device for polishing and grinding that sucks and holds a work piece under reduced pressure, the suction portion is an integral porous body having the same height, and a soft elastic body is provided only in the annular outer peripheral portion thereof. Since it is impregnated with, the work piece is held on the same plane and is adsorbed on each of the inner peripheral surface and the outer peripheral surface and sealed, so that double sealing is performed.

また、内周部と外周部を別個の減圧源にて減圧するの
で、前記内周部と外周部との減圧血を調整し、被加工物
のわずかな変化を修正することができる。
Further, since the inner peripheral portion and the outer peripheral portion are decompressed by separate decompression sources, it is possible to adjust the decompressed blood in the inner peripheral portion and the outer peripheral portion and correct a slight change in the workpiece.

上記両作用が相加し、研磨材,研削材の吸着面への侵入
を防止すると友に、均一な研磨圧力,研削圧力を付加す
ることができる。
If both of the above actions are added to prevent the abrasives and abrasives from entering the suction surface, a uniform polishing pressure and grinding pressure can be added.

〔実施例〕〔Example〕

以下、本発明の一実施例によって説明する。 An embodiment of the present invention will be described below.

第1図は本発明の一実施例に係る真空吸着装置の略示説
明図である。
FIG. 1 is a schematic explanatory view of a vacuum suction device according to an embodiment of the present invention.

吸着部材1は多孔質体(例えばアナミナセラミックスや
ステンレス等の粉体焼結体)が用いられている。
As the adsorbing member 1, a porous body (for example, a powder sintered body such as anamina ceramics or stainless steel) is used.

前記吸着部材1は、真空源5に連通されている溝部4を
有する保持部材3により支持されており、その1面は前
記溝部4と接し、他の1面はウエハ11の吸着面を形成し
ている。
The suction member 1 is supported by a holding member 3 having a groove portion 4 communicating with a vacuum source 5, one surface of which is in contact with the groove portion 4 and the other one surface forms a suction surface of a wafer 11. ing.

前記吸着部材1の環状外周部にシリコンゴムやポリウレ
タン等の軟質弾性体を含浸させ、シール体2とし該環状
外周部のシール体2のシール面に溝部6が形成されてい
る。
A groove 6 is formed on the sealing surface of the seal body 2 at the annular outer peripheral portion by impregnating the annular outer peripheral portion of the suction member 1 with a soft elastic material such as silicon rubber or polyurethane.

前記溝部6は真空源7および加圧水源8と連通孔を介し
て連通している。
The groove portion 6 communicates with the vacuum source 7 and the pressurized water source 8 via a communication hole.

前記真空源7と前記加圧水源8とは自動弁9と10とを備
えている。
The vacuum source 7 and the pressurized water source 8 are provided with automatic valves 9 and 10.

次に本実施例の動作を説明する。Next, the operation of this embodiment will be described.

自動弁9を開、自動弁10を閉とし、真空源5と真空源7
とを作動させ、吸着部材1の多孔質体と溝部6とを減圧
状態にする。
The automatic valve 9 is opened, the automatic valve 10 is closed, and the vacuum source 5 and the vacuum source 7
Are activated to bring the porous body of the adsorption member 1 and the groove 6 into a depressurized state.

減圧状態となった多孔質体の吸着面と前記シール体2の
溝部6とによりウエハ11を真空吸着し、前記シール体2
はウエハ11と密着する。そのため、ウエハは固定され、
加工される。
The wafer 11 is vacuum-sucked by the suction surface of the porous body and the groove portion 6 of the seal body 2 in a reduced pressure state, and
Adheres to the wafer 11. Therefore, the wafer is fixed,
Is processed.

加工後、前記自動弁9を閉、前記自動弁10を開とし、前
記真空源5,7を停止し、且つ水源8を作動させると、前
記溝部6から高圧水が前記ウエハ11に噴き出し、前記ウ
エハ11は前記吸着部材1から取りはずされる。
After processing, when the automatic valve 9 is closed, the automatic valve 10 is opened, the vacuum sources 5 and 7 are stopped, and the water source 8 is activated, high-pressure water spouts from the groove 6 onto the wafer 11, The wafer 11 is removed from the suction member 1.

以上の様に本実施例によれば、ウエハ11を多孔質体の吸
着部材1を備えた真空吸着装置を用いて、研磨材,研削
材を吸引することなく、研磨,研削を施しやすいように
固定し、また、シール体2においても研磨圧力,研削圧
力を負荷し、均一な研磨,研削圧力分布を保つことがで
きる。
As described above, according to the present embodiment, the wafer 11 can be easily polished and ground by using the vacuum suction device having the porous suction member 1 without sucking the abrasive and the abrasive. The sealing body 2 can be fixed, and polishing pressure and grinding pressure can be applied to the seal body 2 as well to maintain uniform polishing and grinding pressure distribution.

次に他の一実施例を説明する。Next, another embodiment will be described.

第2図は本発明の他の一実施例に係る真空吸着装置の略
示図である。
FIG. 2 is a schematic view of a vacuum suction device according to another embodiment of the present invention.

吸着部材1,軟質弾性体を含浸させた環状外周部のシール
体2,保持部材3,溝部4,真空源5,溝部6等からなる真空吸
着装置の構成は、第1図の本発明の一実施例と同一であ
るので詳細な説明は省略し、異なる吸着面の構成を説明
する。
The structure of the vacuum suction device including the suction member 1, the ring-shaped outer peripheral seal member 2 impregnated with the soft elastic body 2, the holding member 3, the groove portion 4, the vacuum source 5, the groove portion 6 and the like is the same as that of the invention of FIG. Since it is the same as the embodiment, detailed description thereof will be omitted, and a different structure of the suction surface will be described.

多孔質体の吸着部材1の吸着面12に薄膜の硬質ウレタン
フィルムあるいは硬質ポリエステルフィルム13を張り付
ける。
A thin hard urethane film or hard polyester film 13 is attached to the suction surface 12 of the porous suction member 1.

このフィルム13は多孔質体の吸着面12と接する部分に微
細孔14、前記溝部6と接する部分には前記溝部6と同じ
一に孔15を設けてある。
The film 13 has micropores 14 in the part in contact with the adsorption surface 12 of the porous body, and holes 15 in the same part as the groove 6 in the part in contact with the groove 6.

次に本実施例の動作を説明する。Next, the operation of this embodiment will be described.

自動弁9を開,自動弁10を閉とし、真空源5と真空源7
を作動させ、多孔質体の吸着部材1とシール体2の溝部
6を減圧状態とし、フィルム13の微細孔14,15を減圧
し、ウェハ11を真空吸着する。
The vacuum valve 5 and the vacuum source 7 are opened by opening the automatic valve 9 and closing the automatic valve 10.
Is activated to reduce the pressure of the porous adsorption member 1 and the groove portion 6 of the seal member 2 to reduce the pressure of the fine holes 14 and 15 of the film 13 and vacuum-adsorb the wafer 11.

この結果、フィルム13とウェハ11とは密着する。加工
後、自動弁9を閉、自動弁10を開とし、真空5,7を停止
し、加圧水源8を作動させると、前記溝部6から微細孔
15を通じて高圧水が噴き出し、前記ウェハ11と前記フィ
ルム13との密着力を弱め、剥離させて、加工工程を完了
する。
As a result, the film 13 and the wafer 11 come into close contact with each other. After processing, the automatic valve 9 is closed, the automatic valve 10 is opened, the vacuums 5 and 7 are stopped, and the pressurized water source 8 is activated.
High-pressure water spouts through 15 to weaken the adhesion between the wafer 11 and the film 13 and separate them, completing the processing step.

以上のように本実施例にれば、ウェハ11を多孔質体の吸
着部材1の真空吸着装置を用いて、研磨材,研削材を吸
引することなく、研磨、研削を可能とし、シール体にお
いても研磨圧力,研削圧力を負荷し、均一な研磨、研削
圧力分布を保つことができる。
As described above, according to the present embodiment, the wafer 11 can be polished and ground by using the vacuum suction device of the suction member 1 of the porous body without sucking the abrasives and the abrasives. Can also be applied with polishing pressure and grinding pressure to maintain uniform polishing and grinding pressure distribution.

更に、上記二つの実施例においては、吸着部材1とシー
ル体2とは別個の真空源5,7により減圧,吸引されるの
で、支持された状態におけるウェハ11の形状に応じ、減
圧の強さを調整し、前記ウェハ11の形状を修正すること
ができる。
Further, in the above two embodiments, since the suction member 1 and the seal body 2 are decompressed and sucked by the vacuum sources 5 and 7 which are separate from each other, the decompression strength depends on the shape of the wafer 11 in the supported state. Can be adjusted to correct the shape of the wafer 11.

〔効果〕〔effect〕

以上詳細に説明したように、本発明によれば、被加工物
を吸着し、固定保持し、吸着面に研磨剤,研削剤の流入
を防止し、被加工面を均一な研磨圧力,研削圧力を負荷
し、高い形状精度の被加工物を研磨,研削できる研磨,
研削様真空吸着装置を提供することができる。
As described in detail above, according to the present invention, the work piece is adsorbed, fixedly held, the inflow of the abrasive and the abrasive is prevented on the adsorbed surface, and the work surface is uniformly polished and ground. Polishing that can grind and grind a workpiece with high shape accuracy
It is possible to provide a grinding-like vacuum suction device.

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

第1図は本発明の一実施例に係る真空吸着装置略示説明
図、第2図は本発明の他の一実施例に係る真空吸着装置
の略示説明図である。 1……多孔質体の吸着部材、2……軟質弾性体を含浸さ
せた吸着部材の環状外周部シール体、5……真空源、7
……真空源、8……加圧水源、11……ウェハ、13……フ
ィルム。
FIG. 1 is a schematic explanatory view of a vacuum suction device according to an embodiment of the present invention, and FIG. 2 is a schematic explanatory view of a vacuum suction device according to another embodiment of the present invention. DESCRIPTION OF SYMBOLS 1 ... Porous body adsorption member, 2 ... Annular outer peripheral seal body of adsorption member impregnated with soft elastic body, 5 ... Vacuum source, 7
…… Vacuum source, 8 …… Pressurized water source, 11 …… Wafer, 13 …… Film.

Claims (1)

【特許請求の範囲】[Claims] 【請求項1】被加工物を減圧により吸着保持する研磨、
研削用真空吸着装置において、 被加工物に接してこれを吸着する吸着部材は、同一高さ
の吸着面を持ち、かつ環状の外周部にのみ軟質弾性体を
含浸させた多孔質体で構成され、 上記環状の外周部に設けた連通孔および軟質弾性体が含
浸されない内周部をそれぞれ別個の減圧源で減圧するこ
とにより、上記同一高さの吸着面に吸着された被加工物
に、均一な研磨、研削圧力を負荷するように構成したこ
とを特徴とする研磨、研削用真空吸着装置。
1. Polishing for adsorbing and holding a work piece under reduced pressure,
In the vacuum suction device for grinding, the suction member that comes into contact with the workpiece and adsorbs it has a suction surface of the same height and is composed of a porous body in which only the annular outer periphery is impregnated with a soft elastic body. By decompressing the communication hole provided in the annular outer peripheral portion and the inner peripheral portion that is not impregnated with the soft elastic body by separate decompression sources, respectively, the work piece adsorbed on the adsorption surface of the same height can be uniformly distributed. Vacuum adsorption device for polishing and grinding, characterized in that it is configured to apply various polishing and grinding pressures.
JP60264802A 1985-11-27 1985-11-27 Vacuum suction device for polishing and grinding Expired - Fee Related JPH0671689B2 (en)

Priority Applications (1)

Application Number Priority Date Filing Date Title
JP60264802A JPH0671689B2 (en) 1985-11-27 1985-11-27 Vacuum suction device for polishing and grinding

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
JP60264802A JPH0671689B2 (en) 1985-11-27 1985-11-27 Vacuum suction device for polishing and grinding

Publications (2)

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JPS62124844A JPS62124844A (en) 1987-06-06
JPH0671689B2 true JPH0671689B2 (en) 1994-09-14

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Families Citing this family (13)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
JPS63312035A (en) * 1987-06-10 1988-12-20 Hitachi Ltd Sheet holder
JPH0691058B2 (en) * 1988-10-06 1994-11-14 信越半導体株式会社 Semiconductor wafer polishing method
JPH06143073A (en) * 1992-10-27 1994-05-24 Sony Corp Vacuum chuck plate
US5443416A (en) * 1993-09-09 1995-08-22 Cybeq Systems Incorporated Rotary union for coupling fluids in a wafer polishing apparatus
DE19647635A1 (en) * 1996-11-18 1998-05-20 Wacker Siltronic Halbleitermat Method and device for removing a semiconductor wafer from a flat base
US5993302A (en) * 1997-12-31 1999-11-30 Applied Materials, Inc. Carrier head with a removable retaining ring for a chemical mechanical polishing apparatus
US6080050A (en) 1997-12-31 2000-06-27 Applied Materials, Inc. Carrier head including a flexible membrane and a compliant backing member for a chemical mechanical polishing apparatus
US6352073B1 (en) * 1998-11-12 2002-03-05 Kabushiki Kaisha Toshiba Semiconductor manufacturing equipment
CN102004293B (en) * 2009-09-02 2014-04-23 鸿富锦精密工业(深圳)有限公司 Optical element picking and placing device and method for picking and placing multiple optical elements
JP5623213B2 (en) * 2010-09-17 2014-11-12 株式会社ディスコ Cutting device
JP6309371B2 (en) * 2014-07-01 2018-04-11 株式会社ディスコ Unloading plate workpiece
CN106891183A (en) * 2015-12-18 2017-06-27 有研半导体材料有限公司 A kind of vacuum chuck device and fixation, the method for unloading processing component
JP6829590B2 (en) * 2016-11-28 2021-02-10 株式会社ディスコ Grinding device

Family Cites Families (2)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
JPS5840338U (en) * 1981-09-11 1983-03-16 日立精工株式会社 Vacuum suction device for wafer grinder
JPS5917159U (en) * 1982-07-27 1984-02-02 株式会社東芝 vacuum chuck device

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