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TWI605024B - Breaking method of brittle substrate - Google Patents

Breaking method of brittle substrate Download PDF

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Publication number
TWI605024B
TWI605024B TW105120169A TW105120169A TWI605024B TW I605024 B TWI605024 B TW I605024B TW 105120169 A TW105120169 A TW 105120169A TW 105120169 A TW105120169 A TW 105120169A TW I605024 B TWI605024 B TW I605024B
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TW
Taiwan
Prior art keywords
line
brittle substrate
substrate
blade
glass substrate
Prior art date
Application number
TW105120169A
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Chinese (zh)
Other versions
TW201708137A (en
Inventor
Yuma Iwatsubo
Hiroshi Soyama
Original Assignee
Mitsuboshi Diamond Ind Co Ltd
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Publication of TW201708137A publication Critical patent/TW201708137A/en
Application granted granted Critical
Publication of TWI605024B publication Critical patent/TWI605024B/en

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Classifications

    • CCHEMISTRY; METALLURGY
    • C03GLASS; MINERAL OR SLAG WOOL
    • C03BMANUFACTURE, SHAPING, OR SUPPLEMENTARY PROCESSES
    • C03B33/00Severing cooled glass
    • C03B33/02Cutting or splitting sheet glass or ribbons; Apparatus or machines therefor
    • C03B33/023Cutting or splitting sheet glass or ribbons; Apparatus or machines therefor the sheet or ribbon being in a horizontal position
    • C03B33/033Apparatus for opening score lines in glass sheets
    • BPERFORMING OPERATIONS; TRANSPORTING
    • B28WORKING CEMENT, CLAY, OR STONE
    • B28DWORKING STONE OR STONE-LIKE MATERIALS
    • B28D5/00Fine working of gems, jewels, crystals, e.g. of semiconductor material; apparatus or devices therefor
    • BPERFORMING OPERATIONS; TRANSPORTING
    • B28WORKING CEMENT, CLAY, OR STONE
    • B28DWORKING STONE OR STONE-LIKE MATERIALS
    • B28D5/00Fine working of gems, jewels, crystals, e.g. of semiconductor material; apparatus or devices therefor
    • B28D5/0005Fine working of gems, jewels, crystals, e.g. of semiconductor material; apparatus or devices therefor by breaking, e.g. dicing
    • B28D5/0011Fine working of gems, jewels, crystals, e.g. of semiconductor material; apparatus or devices therefor by breaking, e.g. dicing with preliminary treatment, e.g. weakening by scoring
    • CCHEMISTRY; METALLURGY
    • C03GLASS; MINERAL OR SLAG WOOL
    • C03BMANUFACTURE, SHAPING, OR SUPPLEMENTARY PROCESSES
    • C03B33/00Severing cooled glass
    • C03B33/02Cutting or splitting sheet glass or ribbons; Apparatus or machines therefor
    • C03B33/023Cutting or splitting sheet glass or ribbons; Apparatus or machines therefor the sheet or ribbon being in a horizontal position
    • YGENERAL 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
    • Y02TECHNOLOGIES OR APPLICATIONS FOR MITIGATION OR ADAPTATION AGAINST CLIMATE CHANGE
    • Y02PCLIMATE CHANGE MITIGATION TECHNOLOGIES IN THE PRODUCTION OR PROCESSING OF GOODS
    • Y02P40/00Technologies relating to the processing of minerals
    • Y02P40/50Glass production, e.g. reusing waste heat during processing or shaping
    • Y02P40/57Improving the yield, e-g- reduction of reject rates

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  • Engineering & Computer Science (AREA)
  • Chemical & Material Sciences (AREA)
  • Mechanical Engineering (AREA)
  • Materials Engineering (AREA)
  • Organic Chemistry (AREA)
  • Re-Forming, After-Treatment, Cutting And Transporting Of Glass Products (AREA)
  • Processing Of Stones Or Stones Resemblance Materials (AREA)
  • Dicing (AREA)
  • Perforating, Stamping-Out Or Severing By Means Other Than Cutting (AREA)

Description

脆性基板之分斷方法 Fragmentation method of brittle substrate

本發明係關於一種脆性基板之分斷方法。 The present invention relates to a method of breaking a brittle substrate.

在平面顯示器面板或太陽電池面板等電氣機器之製造中,屢屢必須將玻璃基板等脆性基板分斷。首先在基板上形成刻劃線,接著沿該刻劃線將基板分斷。刻劃線,係藉由使用刃前端對基板進行機械性加工而形成。藉由刃前端在基板上進行滑動或滾動,據以在基板上藉塑性變形形成溝槽的同時,在緊鄰該溝槽之下方形成垂直裂紋。之後,進行稱為裂斷步驟之應力施加。藉此使上述垂直裂紋於厚度方向完全進展,而將基板分斷。 In the manufacture of electrical equipment such as flat panel displays or solar panel panels, it is often necessary to break a brittle substrate such as a glass substrate. A scribe line is first formed on the substrate, and then the substrate is broken along the scribe line. The scribe line is formed by mechanically processing the substrate using the tip end of the blade. By sliding or rolling the front end of the blade on the substrate, a vertical crack is formed immediately below the groove while the groove is formed by plastic deformation on the substrate. Thereafter, a stress application called a cracking step is performed. Thereby, the above-mentioned vertical crack is completely progressed in the thickness direction, and the substrate is divided.

分斷基板之步驟,大多是在基板形成刻劃線之步驟後緊接著進行。然而,亦有在形成刻劃線之步驟與裂斷步驟之間進行加工基板之步驟。 The step of breaking the substrate is mostly performed immediately after the step of forming the scribe line on the substrate. However, there is also a step of processing the substrate between the step of forming the score line and the step of breaking.

例如根據國際公開第2002/104078號之技術,在有機EL顯示器之製造方法中,在安裝密封蓋之前,就每一成為有機EL顯示器之區域,在玻璃基板上形成刻劃線。因此,能夠避免在設置密封蓋後於玻璃基板上形成刻劃線時成為問題的密封蓋與玻璃刀具之接觸。 For example, according to the technique of the international publication No. 2002/104078, in the manufacturing method of the organic EL display, a scribe line is formed on the glass substrate for each region which becomes the organic EL display before the sealing cover is mounted. Therefore, it is possible to avoid contact between the sealing cover and the glass cutter which are problematic when the scribe line is formed on the glass substrate after the sealing cover is provided.

此外,例如根據國際公開第2003/006391號之技術,在液晶顯示器面板之製造方法中,將二片玻璃基板在形成有刻劃線後貼合。藉此, 能夠以一次的裂斷步驟同時使二片脆性基板裂斷。 Further, for example, according to the technique of International Publication No. 2003/006391, in the method of manufacturing a liquid crystal display panel, two glass substrates are bonded after being formed with a score line. With this, It is possible to simultaneously break the two brittle substrates in one breaking step.

專利文獻1:國際公開第2002/104078號 Patent Document 1: International Publication No. 2002/104078

專利文獻2:國際公開第2003/006391號 Patent Document 2: International Publication No. 2003/006391

根據上述習知技術,對脆性基板之加工是在形成刻劃線後進行,並藉由之後的應力施加進行裂斷步驟。此意味著在對脆性基板加工時,沿刻劃線整體已存在垂直裂紋。據此,過去在加工中無預期地產生此垂直裂紋於厚度方向進一步之伸展,導致在加工中應為一體之脆性基板分離的情形是會產生的。此外,在刻劃線形成步驟與基板裂斷步驟之間不進行基板之加工步驟的情形時,通常亦必須在刻劃線形成步驟之後且基板裂斷步驟之前進行基板之搬送或保管,此時亦有基板意外分斷的情形。 According to the above-described prior art, the processing of the brittle substrate is performed after the scribe line is formed, and the cracking step is performed by the subsequent stress application. This means that when processing a brittle substrate, vertical cracks already exist along the scribe line as a whole. Accordingly, in the past, unexpectedly, the vertical crack was further stretched in the thickness direction in the processing, resulting in a situation in which the brittle substrate which should be integrated during processing was separated. Further, in the case where the processing step of the substrate is not performed between the scribe line forming step and the substrate rupturing step, it is usually necessary to carry out the substrate transfer or storage after the scribe line forming step and before the substrate rupture step. There are also cases where the substrate is accidentally broken.

為了解決上述課題,本案發明者開發出獨有的分斷技術。根據該技術,作為規定將脆性基板分斷之位置的線,首先,形成在其緊鄰下方不具有裂紋的溝槽線。藉由形成溝槽線,規定將脆性基板分斷之位置。之後,若維持在溝槽線之緊鄰下方不存在裂紋的狀態,則不易產生沿溝槽線之分斷。藉由使用該狀態,能夠在預先規定脆性基板之分斷位置之同時,防止在應分斷之時間點前脆性基板意外的分斷。 In order to solve the above problems, the inventor of the present invention developed a unique breaking technique. According to this technique, as a line defining a position at which the brittle substrate is to be separated, first, a groove line having no crack immediately below it is formed. The position at which the brittle substrate is broken is defined by forming the groove lines. Thereafter, if the state in which no crack exists immediately below the groove line is maintained, the break along the groove line is less likely to occur. By using this state, it is possible to prevent the breaking of the brittle substrate before the time point to be broken, while predetermining the breaking position of the brittle substrate.

如上所述的溝槽線,相較於一般的刻劃線,不易產生沿其之分斷。藉此雖能防止脆性基板意外的分斷,但另一方面卻存在沿溝槽線正確地進行脆性基板之分斷的難度變高的問題。 The groove line as described above is less likely to be broken along with the general scribe line. This prevents accidental breakage of the brittle substrate, but on the other hand, there is a problem that it is difficult to accurately perform the breaking of the brittle substrate along the groove line.

本發明係為了解決以上之課題而完成,其目的在提供一種脆性基板之分斷方法,能夠正確地進行沿著於其緊鄰下方不具有裂紋之溝槽 線的分斷。 The present invention has been made to solve the above problems, and an object thereof is to provide a method for breaking a brittle substrate, which can correctly perform a groove having no crack immediately below it The division of the line.

本發明之脆性基板之分斷方法,其具備:a)準備具有第1面與和第1面相反的第2面,且具有與第1面垂直之厚度方向之脆性基板的步驟;以及b)藉由一邊將刃前端往脆性基板之第1面上按壓、一邊使刃前端在第1面上移動而使脆性基板之第1面上產生塑性變形,藉此形成具有第1及第2部分之溝槽線的步驟,於形成溝槽線之步驟中,為了形成溝槽線之第2部分而對刃前端施加之負載,較為了形成溝槽線之第1部分而對刃前端施加之負載高,且形成溝槽線之步驟,係以可在溝槽線之緊鄰下方獲得脆性基板於與溝槽線交叉之方向連續性連結之狀態、亦即無裂紋狀態的方式進行;並進一步具有:c)僅沿溝槽線之第1及第2部分中的第2部分使裂紋產生的步驟;d)在步驟c)之後,以脆性基板之第1面與支承部對向之方式將脆性基板置於支承部上的步驟;e)在步驟d)之後,使應力施加構件一邊離開脆性基板之第2面中與溝槽線之第1部分對向之第3部分、一邊接觸於脆性基板之第2面中與溝槽線之第2部分對向之第4部分的步驟;以及f)在步驟e)之後,使應力施加構件接觸於脆性基板之第2面中之第3部分的步驟。 A method for breaking a brittle substrate according to the present invention, comprising: a) preparing a brittle substrate having a first surface opposite to the first surface and having a second surface opposite to the first surface, and having a thickness direction perpendicular to the first surface; and b) By pressing the tip end of the blade toward the first surface of the brittle substrate, the tip end of the blade is moved on the first surface to plastically deform the first surface of the brittle substrate, thereby forming the first and second portions. In the step of forming the groove line, in the step of forming the groove line, the load applied to the tip end of the blade in order to form the second portion of the groove line is higher than the load applied to the front end of the blade by forming the first portion of the groove line And the step of forming the trench line is performed in a state in which the brittle substrate is continuously connected in a direction intersecting the groove line, that is, in a non-crack state, immediately below the groove line; and further has: c a step of generating a crack only along the second portion of the first and second portions of the groove line; d) after step c), placing the brittle substrate such that the first surface of the brittle substrate faces the support portion a step on the support; e) after step d), applying stress The member is separated from the third portion of the second surface of the brittle substrate that faces the first portion of the trench line, and is in contact with the fourth portion of the second surface of the brittle substrate that faces the second portion of the trench line. And; f) the step of contacting the stress applying member to the third portion of the second surface of the brittle substrate after the step e).

根據本發明,以接觸於脆性基板之第2面中與溝槽線之第2部分對向之第4部分且離開與第1部分對向之第3部分的方式使應力施加構件接觸於脆性基板之第2面。亦即,使應力施加構件在接觸第3部分前, 先接觸於與已沿其產生裂紋之第2部分對向之第4部分。藉此,能穩定產生脆性基板沿第2部分之分離。之後,使應力施加構件接觸於與溝槽線之第1部分對向之第3部分。藉此,沿第1部分穩定產生脆性基板進一步的分離。如此,即能夠沿溝槽線之整體穩定地將脆性基板分斷。 According to the invention, the stress applying member is brought into contact with the brittle substrate so as to be in contact with the fourth portion facing the second portion of the trench line and away from the third portion facing the first portion of the second surface of the brittle substrate. The second side. That is, before the stress applying member is in contact with the third portion, First contact with the fourth part opposite to the second part along which the crack has been generated. Thereby, the separation of the brittle substrate along the second portion can be stably generated. Thereafter, the stress applying member is brought into contact with the third portion facing the first portion of the groove line. Thereby, further separation of the brittle substrate is stably generated along the first portion. In this way, the brittle substrate can be stably separated along the entire groove line.

AL‧‧‧輔助線 AL‧‧‧Auxiliary line

CL‧‧‧裂紋線 CL‧‧‧crack line

HR‧‧‧高負載區間(第2部分) HR‧‧‧High load range (Part 2)

LR‧‧‧低負載區間(第1部分) LR‧‧‧Low load range (Part 1)

SF1‧‧‧第1面 SF1‧‧‧ first side

SF2‧‧‧第2面 SF2‧‧‧2nd

SP3‧‧‧部分(第3部分) SP3‧‧‧ Part (Part 3)

SP4‧‧‧部分(第4部分) SP4‧‧‧ Part (Part 4)

TL‧‧‧溝槽線 TL‧‧‧ trench line

11‧‧‧玻璃基板(脆性基板) 11‧‧‧Glass substrate (brittle substrate)

50、50R、50v‧‧‧刻劃器具 50, 50R, 50v‧‧‧ sculpting apparatus

51、51v‧‧‧刃前端 51, 51v‧‧‧ blade front end

51R‧‧‧刻劃輪 51R‧‧‧scribed wheel

80‧‧‧承載刃(支承部) 80‧‧‧Loading blade (support)

85‧‧‧裂斷棒(應力施加構件) 85‧‧‧Cracking rod (stress applying member)

圖1,係概略地顯示本發明之實施形態1中的脆性基板之分斷方法的流程圖。 Fig. 1 is a flow chart schematically showing a method of dividing a brittle substrate in the first embodiment of the present invention.

圖2,係概略地顯示本發明之實施形態1中的脆性基板之分斷方法之一步驟的俯視圖。 Fig. 2 is a plan view schematically showing one step of the breaking method of the brittle substrate in the first embodiment of the present invention.

圖3,係沿圖2之線III-III的概略剖面圖。 Figure 3 is a schematic cross-sectional view taken along line III-III of Figure 2 .

圖4,係沿圖2之線IVA-IVA的概略剖面圖(A),及沿圖2之線IVB-IVB的概略剖面圖(B)。 4 is a schematic cross-sectional view (A) taken along line IVA-IVA of FIG. 2, and a schematic cross-sectional view (B) taken along line IVB-IVB of FIG.

圖5,係概略地顯示本發明之實施形態1中的脆性基板之分斷方法之一步驟的俯視圖。 Fig. 5 is a plan view schematically showing one step of the breaking method of the brittle substrate in the first embodiment of the present invention.

圖6,係沿圖5之線VI-VI的概略剖面圖。 Fig. 6 is a schematic cross-sectional view taken along line VI-VI of Fig. 5.

圖7,係沿圖5之線VII-VII的概略剖面圖。 Figure 7 is a schematic cross-sectional view taken along line VII-VII of Figure 5.

圖8,係概略地顯示本發明之實施形態1中的脆性基板之分斷方法之一步驟的俯視圖。 Fig. 8 is a plan view schematically showing one step of the breaking method of the brittle substrate in the first embodiment of the present invention.

圖9,係沿圖8之線IX-IX的概略剖面圖。 Figure 9 is a schematic cross-sectional view taken along line IX-IX of Figure 8.

圖10,係沿圖8之線X-X的概略剖面圖。 Figure 10 is a schematic cross-sectional view taken along line X-X of Figure 8.

圖11,係概略地顯示本發明之實施形態1中的脆性基板之分斷方法之 一步驟的俯視圖。 Figure 11 is a view schematically showing a method of breaking a brittle substrate in the first embodiment of the present invention. A top view of a step.

圖12,係概略地顯示本發明之實施形態1中的脆性基板之分斷方法之一步驟的剖面圖。 Fig. 12 is a cross-sectional view schematically showing a step of a method of dividing a brittle substrate in the first embodiment of the present invention.

圖13,係概略地顯示本發明之實施形態1中的脆性基板之分斷方法之一步驟的剖面圖。 Fig. 13 is a cross-sectional view schematically showing a step of a method of dividing a brittle substrate in the first embodiment of the present invention.

圖14,係沿圖13之線XIV-XIV的概略部分剖面圖。 Figure 14 is a schematic partial cross-sectional view taken along line XIV-XIV of Figure 13 .

圖15,係概略地顯示本發明之實施形態1中的脆性基板之分斷方法之一步驟的剖面圖。 Fig. 15 is a cross-sectional view schematically showing a step of a method of dividing a brittle substrate in the first embodiment of the present invention.

圖16,係概略地顯示本發明之實施形態1中的脆性基板之分斷方法之一步驟的剖面圖。 Fig. 16 is a cross-sectional view schematically showing one step of the breaking method of the brittle substrate in the first embodiment of the present invention.

圖17,係概略地顯示本發明之實施形態1中的脆性基板之分斷方法中所使用之刻劃器具之構成的側視圖(A),及對應圖17(A)之箭頭XVII之視野的刃前端的俯視圖(B)。 Fig. 17 is a side view (A) schematically showing the configuration of the scribing device used in the breaking method of the brittle substrate in the first embodiment of the present invention, and the field of view corresponding to the arrow XVII of Fig. 17(A). Top view of the front end of the blade (B).

圖18,係概略地顯示本發明之實施形態1之第1變形例中的脆性基板之分斷方法之一步驟的俯視圖。 FIG. 18 is a plan view schematically showing one step of the breaking method of the brittle substrate in the first modification of the first embodiment of the present invention.

圖19,係概略地顯示本發明之實施形態1之第2變形例中的脆性基板之分斷方法之一步驟的俯視圖。 FIG. 19 is a plan view schematically showing one step of the breaking method of the brittle substrate in the second modification of the first embodiment of the present invention.

圖20,係概略地顯示本發明之實施形態1之第3變形例中的脆性基板之分斷方法之一步驟的俯視圖。 FIG. 20 is a plan view schematically showing one step of the breaking method of the brittle substrate in the third modification of the first embodiment of the present invention.

圖21,係概略地顯示本發明之實施形態1之第4變形例中的脆性基板之分斷方法中所使用之刻劃器具之構成的側視圖(A),及對應圖21(A)之箭頭XXI之視野的刃前端的俯視圖(B)。 FIG. 21 is a side view (A) schematically showing the configuration of the scribing device used in the breaking method of the brittle substrate in the fourth modification of the first embodiment of the present invention, and FIG. 21(A) A top view (B) of the tip end of the arrow XXI.

圖22,係概略地顯示本發明之實施形態2中的脆性基板之分斷方法之一步驟的俯視圖。 Fig. 22 is a plan view schematically showing one step of the breaking method of the brittle substrate in the second embodiment of the present invention.

圖23,係概略地顯示本發明之實施形態2中的脆性基板之分斷方法之一步驟的俯視圖。 Fig. 23 is a plan view schematically showing one step of the breaking method of the brittle substrate in the second embodiment of the present invention.

圖24,係概略地顯示本發明之實施形態2中的脆性基板之分斷方法之一步驟的俯視圖。 Fig. 24 is a plan view schematically showing one step of the breaking method of the brittle substrate in the second embodiment of the present invention.

圖25,係概略地顯示本發明之實施形態2之第1變形例中的脆性基板之分斷方法之一步驟的俯視圖。 Fig. 25 is a plan view schematically showing a step of a method of dividing a brittle substrate in a first modification of the second embodiment of the present invention.

圖26,係概略地顯示本發明之實施形態2之第1變形例中的脆性基板之分斷方法之一步驟的俯視圖。 FIG. 26 is a plan view schematically showing one step of the breaking method of the brittle substrate in the first modification of the second embodiment of the present invention.

圖27,係概略地顯示本發明之實施形態2之第2變形例中的脆性基板之分斷方法之一步驟的俯視圖。 Fig. 27 is a plan view schematically showing a step of a method of dividing a brittle substrate in a second modification of the second embodiment of the present invention.

圖28,係概略地顯示本發明之實施形態2之第3變形例中的脆性基板之分斷方法之一步驟的俯視圖。 FIG. 28 is a plan view schematically showing a step of a method of dividing a brittle substrate in a third modification of the second embodiment of the present invention.

圖29,係概略地顯示本發明之實施形態2中的脆性基板之分斷方法中所使用之刻劃器具之構成的側視圖。 Fig. 29 is a side view schematically showing the configuration of a scribing device used in the breaking method of the brittle substrate in the second embodiment of the present invention.

圖30,係概略地顯示圖29中的刻劃輪及銷之構成的前視圖(A),及圖30(A)之部分放大圖(B)。 Fig. 30 is a front view (A) schematically showing the configuration of the scoring wheel and the pin of Fig. 29, and a partially enlarged view (B) of Fig. 30 (A).

以下,根據圖式針對本發明之各實施形態中的脆性基板之分斷方法進行說明。另外,在以下之圖式中對相同或相當之部分標記相同的參照符號且不重複說明。 Hereinafter, a method of dividing a brittle substrate in each embodiment of the present invention will be described with reference to the drawings. In the following drawings, the same or corresponding components are denoted by the same reference numerals and the description is not repeated.

(實施形態1) (Embodiment 1)

針對本實施形態之玻璃基板11(脆性基板)之分斷方法,一邊參照圖1之流程圖,一邊說明如下。 The method of dividing the glass substrate 11 (brittle substrate) of the present embodiment will be described below with reference to the flowchart of Fig. 1 .

參照圖2~圖4,首先準備玻璃基板11(圖1:步驟S110)。玻璃基板11,具有第1面SF1、及與其相反之第2面SF2。此外,玻璃基板11,具有與第1面SF1垂直之厚度方向DT。 Referring to Fig. 2 to Fig. 4, first, a glass substrate 11 is prepared (Fig. 1: step S110). The glass substrate 11 has a first surface SF1 and a second surface SF2 opposite thereto. Further, the glass substrate 11 has a thickness direction DT perpendicular to the first surface SF1.

此外,準備具有刃前端之刻劃器具。關於刻劃器具之細節留待後敘。 In addition, a scoring device having a blade tip is prepared. The details of the sculpting apparatus are left to be described later.

接下來,一邊將刃前端按壓於玻璃基板11之第1面SF1上,一邊於第1面SF1上使刃前端51從起始點N1經由中途點N2移動至終點N3。藉此使玻璃基板11之第1面SF1上產生塑性變形。藉此在第1面SF1上,形成從起始點N1經由中途點N2延伸至終點N3的溝槽線TL(圖1:步驟S120)。圖2中,藉由刃前端往方向DA之移動,形成三條溝槽線TL。 Then, while the tip end of the blade is pressed against the first surface SF1 of the glass substrate 11, the blade tip end 51 is moved from the starting point N1 to the end point N3 from the starting point N1 on the first surface SF1. Thereby, plastic deformation is caused in the first surface SF1 of the glass substrate 11. Thereby, the groove line TL extending from the starting point N1 to the end point N3 via the intermediate point N2 is formed on the first surface SF1 (FIG. 1: Step S120). In Fig. 2, three groove lines TL are formed by the movement of the blade leading end in the direction DA.

形成溝槽線TL之步驟,包含作為溝槽線TL之一部分而形成低負載區間LR(第1部分)的步驟(圖1:步驟S120L)、及作為溝槽線TL之一部分而形成高負載區間HR(第2部分)的步驟(圖1:步驟S120H)。圖2中,從起始點N1起至中途點N2為止形成低負載區間,從中途點N2起至終點N3為止形成高負載區間。在形成高負載區間HR之步驟中對刃前端51施加之負載,較形成低負載區間LR之步驟中使用之負載高。反過來說,在形成低負載區間LR之步驟中對刃前端51施加之負載,較形成高負載區間HR之步驟中使用之負載低,例如係高負載區間HR之負載的30~50%左右。因 此,高負載區間HR之寬度,大於低負載區間LR之寬度。例如,高負載區間HR具有10μm之寬度,低負載區間LR具有5μm之寬度。此外,高負載區間HR之深度,大於低負載區間LR之深度。溝槽線TL之剖面,例如,具有角度為150°左右之V字形狀。 The step of forming the trench line TL includes a step of forming a low load section LR (first part) as a part of the trench line TL (FIG. 1: step S120L), and forming a high load section as a part of the trench line TL Step of HR (Part 2) (Figure 1: Step S120H). In FIG. 2, a low load section is formed from the start point N1 to the midway point N2, and a high load section is formed from the midpoint N2 to the end point N3. The load applied to the blade tip end 51 in the step of forming the high load section HR is higher than the load used in the step of forming the low load section LR. Conversely, the load applied to the blade tip end 51 in the step of forming the low load section LR is lower than the load used in the step of forming the high load section HR, for example, about 30 to 50% of the load of the high load section HR. because Therefore, the width of the high load interval HR is greater than the width of the low load interval LR. For example, the high load interval HR has a width of 10 μm, and the low load interval LR has a width of 5 μm. In addition, the depth of the high load interval HR is greater than the depth of the low load interval LR. The cross section of the groove line TL has, for example, a V shape having an angle of about 150°.

形成溝槽線TL之步驟,係以可獲得在溝槽線TL之緊鄰下方玻璃基板11於與溝槽線TL交叉之方向DC(圖4(A)及(B))連續性地連結之狀態、即無裂紋狀態之方式進行。因此,對刃前端施加之負載,大至可使玻璃基板11之塑性變形產生的程度,且小至不會產生以該塑性變形部為起點之裂紋的程度。 The step of forming the trench line TL is such that the glass substrate 11 immediately below the trench line TL can be continuously connected in the direction DC (Figs. 4(A) and (B)) intersecting the trench line TL. That is, in a manner that does not have a crack state. Therefore, the load applied to the tip end of the blade is so large that the plastic deformation of the glass substrate 11 occurs, and the degree of cracking from the plastic deformation portion is not generated.

接著,以下述方式形成裂紋線(圖1:步驟S130)。 Next, a crack line is formed in the following manner (FIG. 1: Step S130).

參照圖5~圖7,首先,在玻璃基板11之第1面SF1上形成與高負載區間HR交叉之輔助線AL。輔助線AL,伴隨往玻璃基板11之厚度方向浸透之裂紋。輔助線AL,可利用一般的刻劃方法來形成。 Referring to FIGS. 5 to 7 , first, an auxiliary line AL intersecting the high load section HR is formed on the first surface SF1 of the glass substrate 11 . The auxiliary line AL is accompanied by a crack that penetrates in the thickness direction of the glass substrate 11. The auxiliary line AL can be formed by a general scribing method.

接著,沿輔助線AL將玻璃基板11分離。該分離,可藉由一般的裂斷步驟進行。以該分離為起始,於厚度方向之玻璃基板11之裂紋,僅沿溝槽線TL之低負載區間LR及高負載區間HR中的高負載區間HR伸展。 Next, the glass substrate 11 is separated along the auxiliary line AL. This separation can be carried out by a general cracking step. Starting from this separation, the crack of the glass substrate 11 in the thickness direction extends only along the low load section LR of the trench line TL and the high load section HR in the high load section HR.

參照圖8及圖9,藉由以上方式,僅沿溝槽線TL之低負載區間LR及高負載區間HR中之高負載區間HR使裂紋產生。具體而言,高負載區間HR之中,在藉由分離而新生成之邊、與中途點N2之間的部分,形成裂紋線CL。裂紋線CL形成之方向,與溝槽線TL形成之方向DA(圖2)相反。另外,在藉由分離而新生成之邊與終點N3之間的部分難以形成裂 紋線CL。此方向依存性,係起因於高負載區間HR之形成時的刃前端之狀態,將於以下詳細說明。 Referring to FIGS. 8 and 9, in the above manner, cracks are generated only in the low load section LR of the groove line TL and the high load section HR in the high load section HR. Specifically, among the high load sections HR, a crack line CL is formed in a portion between the newly generated side by separation and the midway point N2. The direction in which the crack line CL is formed is opposite to the direction DA (Fig. 2) in which the groove line TL is formed. In addition, it is difficult to form a crack between the newly formed side and the end point N3 by separation. Thread CL. This direction dependency is due to the state of the blade tip at the time of formation of the high load section HR, and will be described in detail below.

參照圖10,藉由裂紋線CL而在溝槽線TL之高負載區間HR之緊鄰下方,玻璃基板11於與溝槽線TL之延伸方向交叉之方向DC的連續性的連結斷開。此處所謂的「連續性的連結」,換言之,係未被裂紋遮斷之連結。另外,如上所述在斷開連續性的連結之狀態中,亦可透過裂紋線CL之裂紋使玻璃基板11之部分彼此接觸。 Referring to Fig. 10, the continuity of the glass substrate 11 in the direction intersecting the direction in which the groove line TL extends is broken by the crack line CL immediately below the high load interval HR of the groove line TL. Here, the "continuous connection", in other words, is not blocked by a crack. Further, as described above, in a state in which the continuous connection is disconnected, the portions of the glass substrate 11 can be brought into contact with each other through the crack of the crack line CL.

接著,進行沿溝槽線TL將玻璃基板11分斷之裂斷步驟。此時,藉由對玻璃基板11施加應力而以裂紋線CL為起點沿著低負載區間LR使裂紋伸展。裂紋伸展之方向(圖11中的箭頭PR),係與形成溝槽線TL之方向DA(圖2)相反。 Next, a cracking step of breaking the glass substrate 11 along the groove line TL is performed. At this time, by applying stress to the glass substrate 11, the crack is stretched along the low load section LR with the crack line CL as a starting point. The direction in which the crack extends (arrow PR in Fig. 11) is opposite to the direction DA (Fig. 2) in which the groove line TL is formed.

接下來針對上述裂斷步驟之細節,於以下進行說明。 Next, the details of the above-described cracking step will be described below.

參照圖12,準備承載刃80(支承部)。承載刃80,具有設有溝GP(參照圖14並於以下說明)之平坦的表面。然後,以玻璃基板11之第1面SF1與承載刃80對向之方式,將形成有裂紋線CL之玻璃基板11(圖9)置於承載刃80上(圖1:步驟S140)。 Referring to Fig. 12, a bearing blade 80 (support portion) is prepared. The load bearing blade 80 has a flat surface provided with a groove GP (refer to FIG. 14 and described below). Then, the glass substrate 11 (FIG. 9) on which the crack line CL is formed is placed on the carrier blade 80 such that the first surface SF1 of the glass substrate 11 faces the carrier blade 80 (FIG. 1: Step S140).

參照圖13及圖14,準備裂斷棒85(應力施加構件)。裂斷棒85,如圖14所示,較佳為具有可局部按壓玻璃基板11表面之突出的形狀,在圖14中具有大致V字狀之形狀。如圖13所示,該突出部分呈直線狀延伸。此外,在承載刃80之表面中、與裂斷棒85之上述突出部分對向之部分,設有溝GP。 Referring to Fig. 13 and Fig. 14, a split rod 85 (stress applying member) is prepared. As shown in FIG. 14, the split rod 85 preferably has a shape that can partially press the surface of the glass substrate 11, and has a substantially V-shape in FIG. As shown in Fig. 13, the protruding portion extends linearly. Further, a groove GP is provided in a portion of the surface of the load bearing blade 80 opposed to the above-mentioned protruding portion of the split rod 85.

然後,以與玻璃基板11之第2面SF2隔著間隔之方式使裂 斷棒85與第2面SF2對向。此處,第2面SF2,具有於厚度方向與溝槽線TL之低負載區間LR對向之部分SP3(第3部分)、及於厚度方向與溝槽線TL之高負載區間HR對向之部分SP4(第4部分)。裂斷棒85,以裂斷棒85與部分SP4之間的距離小於裂斷棒85與部分SP3之間的距離之方式,與第2面SF2對向。 Then, the crack is formed at a distance from the second surface SF2 of the glass substrate 11 The broken bar 85 faces the second surface SF2. Here, the second surface SF2 has a portion SP3 (third portion) opposed to the low load region LR of the groove line TL in the thickness direction, and a high load region HR in the thickness direction and the groove line TL. Part SP4 (Part 4). The split rod 85 is opposed to the second surface SF2 such that the distance between the split rod 85 and the portion SP4 is smaller than the distance between the split rod 85 and the portion SP3.

具體而言,準備具有沿直線延伸之突出部分(圖13中的下邊)的裂斷棒85,以上述直線相對於第2面SF2傾斜之方式配置裂斷棒85。例如,在承載刃80之表面(圖13中的上面)為水平面時,以上述直線相對於水平面傾斜之方式配置裂斷棒85。相反地,在上述直線係沿著水平面時,承載刃80之表面相對於水平面傾斜。以包含第2面SF2之平面為基準面,在將從該基準面起至部分SP3側之裂斷棒85之端(圖13中的左端)為止的距離設為距離L3,將從該基準面起至部分SP4側之裂斷棒85之端(圖13中的右端)為止的距離設為距離L4時,為了獲得上述傾斜,只要設定距離L3>距離L4即可。距離L3與距離L4之差異,例如為200μm左右,較佳為300μm以下。若距離之差過大,則在裂斷棒85與承載刃80藉由直線移動而相對地接近時,裂斷棒85之中、部分SP3側之部分(圖13中的左部分)接觸玻璃基板11之前,部分SP4側之裂斷棒85之端(圖13中的右端)接觸承載刃80。該情形將使裂斷棒85之左部分無法發揮其功能。 Specifically, the split bar 85 having the protruding portion (the lower side in FIG. 13) extending in a straight line is prepared, and the split bar 85 is disposed such that the straight line is inclined with respect to the second surface SF2. For example, when the surface (the upper surface in Fig. 13) of the load bearing blade 80 is a horizontal plane, the split bar 85 is disposed such that the straight line is inclined with respect to the horizontal plane. Conversely, when the straight line is along a horizontal plane, the surface of the load bearing edge 80 is inclined with respect to the horizontal plane. The distance from the reference surface to the end (the left end in FIG. 13) of the splitting bar 85 on the side of the portion SP3 is defined as the distance L3 from the reference surface including the plane including the second surface SF2. When the distance from the end of the split bar 85 on the SP4 side (the right end in FIG. 13) is the distance L4, in order to obtain the above inclination, the distance L3 > the distance L4 may be set. The difference between the distance L3 and the distance L4 is, for example, about 200 μm, preferably 300 μm or less. If the difference between the distances is too large, when the split rod 85 and the load-bearing blade 80 are relatively close by linear movement, the portion (the left portion in FIG. 13) of the split rod 85 on the portion SP3 side contacts the glass substrate 11 Previously, the end of the split bar 85 on the side of the SP4 (the right end in Fig. 13) contacts the load bearing edge 80. This situation will prevent the left portion of the split rod 85 from functioning.

參照圖15,接下來,使裂斷棒85相對於承載刃80往方向DR(一方向)相對地直線移動。藉此,裂斷棒85一邊與玻璃基板11之第2面SF2中的部分SP3分開、一邊接觸部分SP4(圖1:步驟S150)。方向DR,只要以裂斷棒85接近承載刃80之方式選擇即可,例如,係與承載刃80之 表面(圖中的上面)垂直之方向。 Referring to Fig. 15, next, the split rod 85 is relatively linearly moved in the direction DR (one direction) with respect to the bearing blade 80. Thereby, the split rod 85 is separated from the portion SP3 in the second surface SF2 of the glass substrate 11 and is in contact with the portion SP4 (FIG. 1: Step S150). The direction DR may be selected in such a manner that the breaking bar 85 approaches the bearing edge 80, for example, the carrier and the carrier blade 80 The vertical direction of the surface (top of the figure).

藉由裂斷棒85接觸部分SP4、並沿方向DR壓入部分SP4上,對部分SP4施加應力。據此,裂紋從與部分SP4對向之沿高負載區間HR設置的裂紋線CL(圖13)擴張。其結果為,沿高負載區間HR將玻璃基板11分離。 The portion SP4 is pressed by the split bar 85 and pressed into the portion SP4 in the direction DR to apply stress to the portion SP4. According to this, the crack is expanded from the crack line CL (FIG. 13) which is disposed along the portion SP4 along the high load section HR. As a result, the glass substrate 11 is separated along the high load section HR.

參照圖16,接下來,將裂斷棒85相對於承載刃80往方向DR(一方向)進一步相對地直線移動。藉此,裂斷棒85一邊從第2面SF2之部分SP4上往玻璃基板11中進一步侵入、一邊接觸部分SP3(圖1:步驟S160)。 Referring to Fig. 16, next, the split rod 85 is further moved linearly relative to the bearing blade 80 in the direction DR (one direction). As a result, the split rod 85 further enters the glass substrate 11 from the portion SP4 of the second surface SF2 and contacts the portion SP3 (FIG. 1: Step S160).

裂斷棒85接觸部分SP3、並沿方向DR壓入部分SP3上,藉此對部分SP3施加應力。據此,裂紋從高負載區間HR側(圖中右側)如箭頭PR所示般沿與部分SP3對向之低負載區間LR擴張。其結果為,沿低負載區間LR將玻璃基板11分離。 The split rod 85 contacts the portion SP3 and is pressed into the portion SP3 in the direction DR, thereby applying stress to the portion SP3. According to this, the crack is expanded from the high load section HR side (the right side in the drawing) along the low load section LR opposed to the portion SP3 as indicated by the arrow PR. As a result, the glass substrate 11 is separated along the low load section LR.

藉由以上方式,沿高負載區間HR及低負載區間LR兩方將玻璃基板11分離。藉此進行如圖11所示之將玻璃基板11分斷之裂斷步驟。 In the above manner, the glass substrate 11 is separated along both the high load section HR and the low load section LR. Thereby, the cracking step of breaking the glass substrate 11 as shown in FIG. 11 is performed.

又,雖於上述具體地說明了關於使用裂斷棒85(應力施加構件)的裂斷步驟,但裂斷步驟亦可使用其他方法進行。為了進行裂斷步驟,只要將應力施加構件首先一邊與玻璃基板11之第2面SF2的部分SP3分開、一邊接觸部分SP4,接著接觸於玻璃基板11之第2面SF2的部分SP3即可。為了對玻璃基板11施加應力,亦可取代裂斷棒,而使用在第2面SF2上滾動之輥子。於上述之情形時,應力施加構件由於係從部分SP4上往部分SP3上移動,因此在與部分SP3接觸時並不一定要與部分SP4接觸。此外,應力施加構件相對於承載刃80(更一般的講法為支承部)之相對移動,並 不限定於僅為沿一方向之直線移動,亦可伴隨更複雜之移動。此外,應力施加構件具有複數個部分,該等亦可個別地移動。 Further, although the cracking step using the split rod 85 (stress applying member) is specifically described above, the cracking step may be carried out by other methods. In order to perform the severing step, the stress applying member may be brought into contact with the portion SP3 of the second surface SF2 of the glass substrate 11 to contact the portion SP4, and then contact the portion SP3 of the second surface SF2 of the glass substrate 11. In order to apply stress to the glass substrate 11, a roller that rolls on the second surface SF2 may be used instead of the split rod. In the above case, since the stress applying member moves from the portion SP4 to the portion SP3, it is not necessarily required to come into contact with the portion SP4 when it comes into contact with the portion SP3. Moreover, the relative movement of the stress applying member relative to the load bearing edge 80 (more generally, the support portion), and It is not limited to moving only in a straight line in one direction, but may be accompanied by more complicated movement. Further, the stress applying member has a plurality of portions which can also be individually moved.

參照圖17(A)及(B),針對適用於上述溝槽線TL之形成的刻劃器具50進行說明。刻劃器具50,藉由安裝於刻劃頭(未圖示)而可相對於玻璃基板11相對移動,藉此進行對玻璃基板11之刻劃。刻劃器具50具有刃前端51及柄52。刃前端51,被保持於柄52。 The scribing tool 50 applied to the formation of the above-described groove line TL will be described with reference to FIGS. 17(A) and (B). The scribing tool 50 is relatively movable with respect to the glass substrate 11 by being attached to a scribing head (not shown), thereby scribing the glass substrate 11. The scoring device 50 has a blade front end 51 and a shank 52. The blade leading end 51 is held by the shank 52.

在刃前端51,設置有頂面SD1(第1面)、及圍繞頂面SD1之複數個面。此等複數個面包含側面SD2(第2面)及側面SD3(第3面)。頂面SD1、側面SD2及SD3,彼此朝向不同之方向,且彼此相鄰。刃前端51,具有頂面SD1、側面SD2及SD3相交之頂點,藉由該頂點構成刃前端51之突起部PP。此外,側面SD2及SD3,形成構成刃前端51之側部PS的稜線。側部PS從突起部PP起呈線狀延伸。此外,側部PS,如上所述為稜線,因此具有呈線狀延伸之凸形狀。 The blade front end 51 is provided with a top surface SD1 (first surface) and a plurality of surfaces surrounding the top surface SD1. These plurality of faces include a side surface SD2 (second surface) and a side surface SD3 (third surface). The top surface SD1, the side surfaces SD2, and SD3 face each other in different directions and are adjacent to each other. The blade tip end 51 has a vertex where the top surface SD1, the side surfaces SD2, and SD3 intersect, and the vertex constitutes the protrusion portion PP of the blade tip end 51. Further, the side faces SD2 and SD3 form a ridge line constituting the side portion PS of the blade tip end 51. The side portion PS extends linearly from the protrusion portion PP. Further, the side portion PS is a ridge line as described above, and thus has a convex shape extending in a line shape.

刃前端51較佳為鑽石尖點。亦即,刃前端51較佳為由鑽石製成。此時,能容易地提高硬度、降低表面粗糙度。更佳為刃前端51由單結晶鑽石製成。再更佳為以結晶學而言,頂面SD1為{001}面,各個側面SD2及SD3為{111}面。此時,側面SD2及SD3,雖具有不同的朝向,但在結晶學上,彼此為等價之結晶面。 The blade front end 51 is preferably a diamond cusp. That is, the blade leading end 51 is preferably made of diamond. At this time, the hardness can be easily increased and the surface roughness can be lowered. More preferably, the blade front end 51 is made of a single crystal diamond. More preferably, in terms of crystallography, the top surface SD1 is a {001} plane, and each side surface SD2 and SD3 is a {111} plane. At this time, the side faces SD2 and SD3 have different orientations, but are crystallographically equivalent to each other.

又,亦可使用非單結晶之鑽石,例如,亦可使用以CVD(Chemical Vapor Deposition)法所合成的多結晶體鑽石。或者,亦可使用由微粒之石墨或非石墨狀碳,以不含鐵族元素等結合材之方式燒結而成之多結晶體鑽石、或者使鑽石粒子藉由鐵族元素等結合材結合而成之燒結鑽 石。 Further, a non-single crystal diamond may be used. For example, a polycrystalline diamond synthesized by a CVD (Chemical Vapor Deposition) method may also be used. Alternatively, a polycrystalline diamond obtained by sintering fine particles of graphite or non-graphite carbon, a bonding material such as an iron-free element, or a combination of a diamond particle and a bonding material such as an iron group element may be used. Sintered drill stone.

柄52沿軸方向AX延伸。刃前端51,較佳為以頂面SD1之法線方向大致沿軸方向AX之方式安裝於柄52。 The shank 52 extends in the axial direction AX. The blade tip end 51 is preferably attached to the shank 52 so as to be substantially along the axial direction AX in the normal direction of the top surface SD1.

在使用刻劃器具50形成溝槽線TL中,首先將刃前端51按壓於玻璃基板11之第1面SF1。具體而言,將刃前端51之突起部PP及側部PS,往玻璃基板11具有之厚度方向DT按壓。 In forming the groove line TL using the scribing tool 50, the blade tip end 51 is first pressed against the first surface SF1 of the glass substrate 11. Specifically, the protrusion portion PP and the side portion PS of the blade tip end 51 are pressed in the thickness direction DT of the glass substrate 11.

接下來,將按壓之刃前端51在第1面SF1上往方向DA滑動。方向DA,係將從突起部PP沿側部PS延伸之方向投影在第1面SF1上而成,且大致上對應於將軸方向AX投影在第1面SF1上而成之方向。於滑動時,刃前端51藉由柄52而於第1面SF1上滑動。藉由此滑動,在玻璃基板11之第1面SF1上產生塑性變形。藉由此塑性變形形成溝槽線TL。 Next, the pressing blade tip end 51 is slid in the direction DA on the first surface SF1. The direction DA is formed by projecting the projection portion PP in the direction in which the side portion PS extends on the first surface SF1, and substantially corresponds to a direction in which the axial direction AX is projected on the first surface SF1. When sliding, the blade leading end 51 slides on the first surface SF1 by the shank 52. By this sliding, plastic deformation occurs on the first surface SF1 of the glass substrate 11. The groove line TL is formed by plastic deformation thereby.

又,本實施形態中從起始點N1往終點N3形成溝槽線TL中,若將刃前端51往方向DB移動,換言之,若以刃前端51之移動方向為基準而刃前端51之姿勢往相反方向傾斜時,圖9所示之裂紋線CL之形成、及圖16所示之裂紋之進展,與使用方向DA之情形相較,難以產生。更簡單而言,在藉由刃前端51往方向DA移動而形成之溝槽線TL中,裂紋易往與方向DA相反方向伸展。另一方面,在藉由刃前端51往方向DB移動而形成之溝槽線TL中,裂紋易往與方向DB相同方向伸展。上述方向依存性,推測係與起因於溝槽線TL之形成時產生之塑性變形而於玻璃基板11內產生之應力分布有關。 Further, in the present embodiment, the groove line TL is formed from the starting point N1 to the end point N3, and when the blade tip end 51 is moved in the direction DB, in other words, the posture of the blade tip end 51 is based on the moving direction of the blade tip end 51. When the opposite direction is inclined, the formation of the crack line CL shown in Fig. 9 and the progress of the crack shown in Fig. 16 are less likely to occur than in the case of using the direction DA. More simply, in the groove line TL formed by the blade tip end 51 moving in the direction DA, the crack easily extends in the opposite direction to the direction DA. On the other hand, in the groove line TL formed by the blade tip end 51 moving in the direction DB, the crack easily extends in the same direction as the direction DB. The above-described direction dependence is presumed to be related to the stress distribution generated in the glass substrate 11 due to plastic deformation generated when the groove line TL is formed.

根據本實施形態,如圖15所示,以接觸玻璃基板11之第2面SF2之部分SP4且與部分SP3分開之方式,使裂斷棒85接觸第2面SF2。 亦即,使裂斷棒85,在接觸部分SP3前,先接觸與已沿其產生裂紋之高負載區間HR對向之部分SP4。藉此,能安定產生玻璃基板11沿與部分SP4對向之高負載區間HR之分離。之後,如圖16所示,使裂斷棒85接觸部分SP3。藉此,沿低負載區間LR穩定地產生玻璃基板11進一步之分離。據此,能夠沿溝槽線TL之整體穩定地將玻璃基板11分斷。 According to the present embodiment, as shown in FIG. 15, the split rod 85 is brought into contact with the second surface SF2 so as to contact the portion SP4 of the second surface SF2 of the glass substrate 11 and to be separated from the portion SP3. That is, the split rod 85 is brought into contact with the portion SP4 opposed to the high load section HR along which the crack has occurred before the contact portion SP3. Thereby, the separation of the glass substrate 11 along the high load section HR opposed to the portion SP4 can be stably achieved. Thereafter, as shown in Fig. 16, the split rod 85 is brought into contact with the portion SP3. Thereby, the glass substrate 11 is stably separated further along the low load section LR. According to this, the glass substrate 11 can be stably separated along the entire groove line TL.

另外,與本實施形態不同的,假設使裂斷棒85在接觸部分SP4前先接觸部分SP3的情形時,在沿著與部分SP4對向之高負載區間HR之分離產生前,會促進以與部分SP3對向之低負載區間LR為起點之分離。但是,由於在低負載區間LR並未設置可成為分離之起點的裂紋,因此難以穩定地產生沿低負載區間LR之分離。因此,很有可能使玻璃基板11在偏離低負載區間LR之部位產生破裂。亦即,難以穩定地將玻璃基板11沿溝槽線TL加以分斷。 Further, unlike the present embodiment, when the split bar 85 is brought into contact with the portion SP3 before the contact portion SP4, it is promoted before the separation of the high load portion HR opposed to the portion SP4. Part of SP3's low load interval LR is the separation of the starting point. However, since the crack which is the starting point of the separation is not provided in the low load section LR, it is difficult to stably generate the separation along the low load section LR. Therefore, it is highly probable that the glass substrate 11 is broken at a portion deviated from the low load interval LR. That is, it is difficult to stably divide the glass substrate 11 along the groove line TL.

較佳為:裂斷棒85往玻璃基板11之第2面SF2的接觸,係以使裂斷棒85相對於承載刃80沿方向DR直線移動而進行。藉此,能夠無需裂斷棒85或承載刃80之複雜動作,便可進行裂斷。 It is preferable that the contact of the split bar 85 with the second surface SF2 of the glass substrate 11 is performed such that the split bar 85 linearly moves in the direction DR with respect to the bearing blade 80. Thereby, the breakage can be performed without the complicated operation of the split bar 85 or the load bearing blade 80.

此外,在形成用於規定分斷玻璃基板11之位置的溝槽線TL(圖2及圖3)時,相較於高負載區間HR,減少在低負載區間LR對刃前端51(圖17(A))施加之負載。藉此能夠減少對刃前端51的破壞。 Further, when the groove line TL (Figs. 2 and 3) for defining the position at which the glass substrate 11 is cut is formed, the front end 51 of the blade edge is reduced in the low load section LR as compared with the high load section HR (Fig. 17 (Fig. 17) A)) The applied load. Thereby, the damage to the tip end 51 of the blade can be reduced.

此外,在低負載區間LR及高負載區間HR中的低負載區間LR為無裂紋狀態的情形時(圖8及圖9),作為供分斷玻璃基板11之起點的裂紋不存在於低負載區間LR。因此,在此狀態下對玻璃基板11進行任意之處理時,即使對低負載區間LR施加不經意的應力,亦不易產生玻璃基板 11意外的分斷。據此,能夠穩定地進行上述處理。 Further, when the low load section LR in the low load section LR and the high load section HR is in a crack-free state ( FIGS. 8 and 9 ), the crack as the starting point of the split glass substrate 11 does not exist in the low load section. LR. Therefore, when the glass substrate 11 is subjected to an arbitrary treatment in this state, even if an unintentional stress is applied to the low load region LR, the glass substrate is less likely to be generated. 11 unexpected breaks. According to this, the above processing can be performed stably.

此外,在低負載區間LR及高負載區間HR兩方為無裂紋狀態的情形時(圖2及圖3),作為供分斷玻璃基板11之起點的裂紋不存在於溝槽線TL。因此,在此狀態下對玻璃基板11進行任意之處理時,即使對溝槽線TL施加不經意的應力,亦不易產生玻璃基板11意外的分斷。據此,能夠穩定地進行上述處理。 Further, when both the low load section LR and the high load section HR are in a crack-free state ( FIGS. 2 and 3 ), cracks which are the starting points of the split glass substrate 11 do not exist in the trench line TL. Therefore, when the glass substrate 11 is subjected to an arbitrary treatment in this state, even if an unintentional stress is applied to the groove line TL, the glass substrate 11 is unlikely to be accidentally broken. According to this, the above processing can be performed stably.

此外,溝槽線TL係在形成輔助線AL之前形成。藉此,能夠避免在形成溝槽線TL時輔助線AL造成影響。尤其是能夠避免為了形成溝槽線TL而在刃前端51通過輔助線AL上後異常之形成。 Further, the groove line TL is formed before the auxiliary line AL is formed. Thereby, it is possible to avoid the influence of the auxiliary line AL when the groove line TL is formed. In particular, it is possible to avoid the formation of an abnormality after the blade tip end 51 passes through the auxiliary line AL in order to form the groove line TL.

接下來於以下說明實施形態1之變形例。 Next, a modification of the first embodiment will be described below.

參照圖18,亦可以輔助線AL與溝槽線TL交叉為契機而形成裂紋線CL。在形成輔助線AL時對玻璃基板11施加之應力較大時,可能產生上述情形。 Referring to Fig. 18, the auxiliary line AL and the groove line TL may be crossed to form a crack line CL. The above situation may occur when the stress applied to the glass substrate 11 when the auxiliary line AL is formed is large.

參照圖19,亦可在玻璃基板11之第1面SF1,首先形成輔助線AL,之後形成溝槽線TL(圖19中未圖示)。 Referring to Fig. 19, an auxiliary line AL may be formed first on the first surface SF1 of the glass substrate 11, and then a groove line TL (not shown in Fig. 19) may be formed.

參照圖20,輔助線AL,亦可以在平面配置(layout)中與高負載區間HR交叉之方式,形成在玻璃基板11之第2面SF2上。藉此,可將輔助線AL及溝槽線TL兩方,在不相互產生影響之下形成。 Referring to Fig. 20, the auxiliary line AL may be formed on the second surface SF2 of the glass substrate 11 so as to intersect the high load section HR in a plane layout. Thereby, both the auxiliary line AL and the groove line TL can be formed without affecting each other.

參照圖21(A)及(B),亦可取代刻劃器具50(圖17(A)及(B)),而使用刻劃器具50v。刃前端51v具有圓錐形狀,該圓錐形狀具有頂點、與圓錐面SC。刃前端51v之突起部PPv係以頂點構成。刃前端之側部PSv係沿從頂點起於圓錐面SC上延伸之假想線(圖21(B)中的虛線)構成。藉此,側 部PSv具有呈線狀延伸之凸形狀。 Referring to Figs. 21(A) and (B), instead of the scribing device 50 (Figs. 17(A) and (B)), the scribing device 50v may be used. The blade leading end 51v has a conical shape having a vertex and a conical surface SC. The protrusion PPv of the blade tip end 51v is constituted by a vertex. The side portion PSv of the tip end of the blade is formed along an imaginary line (broken line in Fig. 21(B)) extending from the vertex on the conical surface SC. By this side The portion PSv has a convex shape extending in a line shape.

(實施形態2) (Embodiment 2)

參照圖22,首先準備玻璃基板11。此外,準備具有刃前端之刻劃器具。關於刻劃器具之細節將於以下說明。 Referring to Fig. 22, first, the glass substrate 11 is prepared. In addition, a scoring device having a blade tip is prepared. Details regarding the scoring apparatus will be explained below.

接下來,藉由刃前端在玻璃基板11之第1面SF1上往方向DB之移動,在第1面SF1上形成輔助線AL,該輔助線AL與下述之高負載區間HR(圖23)交叉。 Next, by the movement of the tip end on the first surface SF1 of the glass substrate 11 in the direction DB, the auxiliary line AL is formed on the first surface SF1, and the auxiliary line AL and the high load section HR described below (FIG. 23) cross.

參照圖23,藉由刃前端往方向DB之移動,在玻璃基板11之第1面SF1上形成從起始點Q1起經由中途點Q2及Q3至終點Q4之溝槽線TL。從起始點Q1至中途點Q2、以及從中途點Q3至終點Q4之溝槽線TL係形成為低負載區間LR。從中途點Q2至中途點Q3之溝槽線TL則形成為高負載區間LR。 Referring to Fig. 23, a groove line TL passing through the intermediate points Q2 and Q3 to the end point Q4 from the starting point Q1 is formed on the first surface SF1 of the glass substrate 11 by the movement of the blade tip end in the direction DB. The groove line TL from the starting point Q1 to the halfway point Q2 and from the intermediate point Q3 to the end point Q4 is formed as the low load section LR. The groove line TL from the halfway point Q2 to the halfway point Q3 is formed as the high load section LR.

接下來,沿輔助線AL將玻璃基板11分離。此分離可以一般的裂斷步驟進行。以此分離為契機,玻璃基板11於厚度方向之裂紋沿溝槽線TL、僅於溝槽線TL中的高負載區間HR伸展。 Next, the glass substrate 11 is separated along the auxiliary line AL. This separation can be carried out in a general cracking step. By this separation, the crack of the glass substrate 11 in the thickness direction extends along the groove line TL and only in the high load section HR in the groove line TL.

參照圖24,藉由上述裂紋的伸展,沿溝槽線TL之一部分形成裂紋線CL。具體而言,在高負載區間HR中、藉由分離而新產生之邊與中途點Q3之間的部分,形成裂紋線CL。形成裂紋線CL之方向,與形成溝槽線TL之方向DB(圖23)相同。另外,在藉由分離而新產生之邊與中途點Q2之間的部分,難以形成裂紋線CL。此方向依存性,係起因於形成高負載區間HR時的刃前端之狀態,將於下面詳細說明。 Referring to Fig. 24, a crack line CL is formed along a portion of the groove line TL by the extension of the above crack. Specifically, in the high load section HR, a crack line CL is formed in a portion between the newly generated side and the intermediate point Q3 by separation. The direction in which the crack line CL is formed is the same as the direction DB (FIG. 23) in which the groove line TL is formed. Further, it is difficult to form the crack line CL in the portion between the side newly formed by the separation and the halfway point Q2. This direction dependency is due to the state of the tip end when the high load section HR is formed, and will be described in detail below.

接下來,藉由與實施形態1同樣之裂斷步驟(圖12~圖16),以裂紋線CL為起點沿溝槽線TL從中途點Q3起朝向終點Q4進行使裂紋伸展之裂斷步驟。藉此,使玻璃基板11分斷。 Then, in the same cracking step (Figs. 12 to 16) as in the first embodiment, the cracking step of stretching the crack is performed toward the end point Q4 from the intermediate point Q3 along the groove line TL with the crack line CL as a starting point. Thereby, the glass substrate 11 is cut.

參照圖25及圖26,作為第1變形例,亦可首先形成溝槽線TL,之後形成輔助線AL。參照圖27,作為第2變形例,亦可以輔助線AL之形成為契機,形成裂紋線CL。參照圖28,輔助線AL,亦可以在平面配置中與高負載區間HR交叉之方式,形成於玻璃基板11之第2面SF2上。此外,本實施形態中,雖然高負載區間HR從中途點Q2起形成至中途點Q3,但高負載區間HR只要形成在與輔助線AL交叉之部分即可,例如亦可從起始點Q1起形成至中途點Q3。 Referring to FIGS. 25 and 26, as a first modification, the groove line TL may be formed first, and then the auxiliary line AL may be formed. Referring to Fig. 27, as a second modification, the formation of the auxiliary line AL may be used to form the crack line CL. Referring to Fig. 28, the auxiliary line AL may be formed on the second surface SF2 of the glass substrate 11 so as to intersect the high load section HR in the planar arrangement. Further, in the present embodiment, the high load section HR is formed from the intermediate point Q2 to the intermediate point Q3, but the high load section HR may be formed in a portion intersecting the auxiliary line AL, for example, from the starting point Q1. Formed to the midway point Q3.

參照圖29,接下來針對適合本實施形態中的溝槽線TL之形成的刻劃器具50R進行說明。刻劃器具50R,具有刻劃輪51R、保持具52R及銷53。刻劃輪51R,具有大致圓盤狀之形狀,其直徑典型上為數mm程度。刻劃輪51R,透過銷53以可繞旋轉軸RX旋轉之方式被保持於保持具52R。 Referring to Fig. 29, a scribing tool 50R suitable for the formation of the groove line TL in the present embodiment will be described next. The scribing device 50R has a scoring wheel 51R, a holder 52R, and a pin 53. The scoring wheel 51R has a substantially disk-like shape, and its diameter is typically about several mm. The scribing wheel 51R is held by the holder 52R via the pin 53 so as to be rotatable about the rotation axis RX.

刻劃輪51R,具有設有刃前端之外周部PF。外周部PF,繞旋轉軸RX呈圓環狀延伸。外周部PF,如圖30(A)所示,在目視程度下切削而呈稜線狀,據此構成由稜線與傾斜面形成之刃前端。另一方面,在顯微鏡程度下,如圖30(B)所示,因刻劃輪51R侵入第1面SF1內而使得在實際作用之部分(較圖30(B)之二點鏈線下方),外周部PF之稜線具有微細的表面形狀MS。表面形狀MS,較佳為在前視觀察(圖30(B))下具有曲線形狀,該曲線形狀具有有限的曲率半徑。刻劃輪51R,係使用超硬合金、燒結鑽石、 多結晶鑽石或單結晶鑽石等之硬質材料形成。在降低上述稜線及傾斜面之表面粗糙度的觀點上,亦可由單結晶鑽石作成刻劃輪51R整體。 The scribing wheel 51R has a peripheral portion PF provided with a tip end. The outer peripheral portion PF extends in an annular shape around the rotation axis RX. As shown in Fig. 30(A), the outer peripheral portion PF is cut to have a ridge shape in a visual degree, thereby forming a tip end formed by a ridge line and an inclined surface. On the other hand, as shown in Fig. 30(B), as shown in Fig. 30(B), the scribing wheel 51R is invaded into the first surface SF1 so as to be in the actual action portion (below the chain line of the two points of Fig. 30(B)). The ridgeline of the outer peripheral portion PF has a fine surface shape MS. The surface shape MS, preferably having a curved shape under front view (Fig. 30(B)), has a finite radius of curvature. The scoring wheel 51R uses superhard alloy, sintered diamond, A hard material such as a polycrystalline diamond or a single crystal diamond is formed. From the viewpoint of reducing the surface roughness of the ridge line and the inclined surface, the single crystallization diamond can also be used to form the entire scribe wheel 51R.

使用刻劃器具50R之溝槽線TL之形成,係藉由使刻劃輪51R於玻璃基板11之第1面SF1上滾動(圖29:箭頭RT),使刻劃輪51R於第1面SF1上往方向DB行進據以進行。此滾動之行進,係一邊藉由對刻劃輪51R施加負載F以將刻劃輪51R之外周部PF往玻璃基板11之第1面SF1上按壓一邊進行。藉此使玻璃基板11之第1面SF1上產生塑性變形,以形成具有槽形狀之溝槽線TL。負載F,具有與玻璃基板11之厚度方向DT平行的垂直成分Fp、及與第1面SF1平行的面內成分Fi。方向DB與面內成分Fi之方向相同。 By forming the groove line TL of the scribing tool 50R, the scribing wheel 51R is rolled on the first surface SF1 of the glass substrate 11 (FIG. 29: arrow RT), so that the scribing wheel 51R is on the first surface SF1. The upward direction DB travels accordingly. This rolling is performed by applying a load F to the scribing wheel 51R to press the outer peripheral portion PF of the scribing wheel 51R onto the first surface SF1 of the glass substrate 11. Thereby, the first surface SF1 of the glass substrate 11 is plastically deformed to form a groove line TL having a groove shape. The load F has a vertical component Fp parallel to the thickness direction DT of the glass substrate 11 and an in-plane component Fi parallel to the first surface SF1. The direction DB is the same as the in-plane component Fi.

另外,溝槽線TL之形成,亦可取代往方向DB移動之刻劃器具50R,而使用往方向DB移動之刻劃器具50(圖17(A)及(B))或50v(圖21(A)及(B))。 In addition, the groove line TL may be formed instead of the scribe device 50R moving in the direction DB, and the scribe device 50 (Fig. 17(A) and (B)) or 50v (Fig. 21 (Fig. 17) may be used to move in the direction DB. A) and (B)).

又,關於上述以外之構成,由於與上述實施形態1之構成大致相同,因此對相同或相對應之要素標記相同符號,且不再重複其說明。 The components other than the above are substantially the same as those of the above-described first embodiment, and the same or corresponding elements are designated by the same reference numerals and the description thereof will not be repeated.

藉由本實施形態,亦能獲得與實施形態1大致相同的效果。此外,本實施形態中,由於可不使用固定的刃前端而使用旋轉的刃前端來形成溝槽線TL,因此能夠延長刃前端的壽命。 According to this embodiment, substantially the same effects as those of the first embodiment can be obtained. Further, in the present embodiment, since the groove line TL can be formed using the tip end of the blade without using the fixed tip end, the life of the blade tip can be extended.

上述各實施形態之脆性基板之分斷方法,雖然特別適合玻璃基板,但脆性基板亦可由玻璃以外的材料製作成。例如,作為玻璃以外之材料,可使用陶瓷、矽、化合物半導體、藍寶石、或石英。 The breaking method of the brittle substrate of each of the above embodiments is particularly suitable for a glass substrate, but the brittle substrate may be made of a material other than glass. For example, as a material other than glass, ceramic, tantalum, compound semiconductor, sapphire, or quartz can be used.

CL‧‧‧裂紋線 CL‧‧‧crack line

HR‧‧‧高負載區間(第2部分) HR‧‧‧High load range (Part 2)

LR‧‧‧低負載區間(第1部分) LR‧‧‧Low load range (Part 1)

SF1‧‧‧第1面 SF1‧‧‧ first side

SF2‧‧‧第2面 SF2‧‧‧2nd

SP3‧‧‧部分(第3部分) SP3‧‧‧ Part (Part 3)

SP4‧‧‧部分(第4部分) SP4‧‧‧ Part (Part 4)

TL‧‧‧溝槽線 TL‧‧‧ trench line

11‧‧‧玻璃基板(脆性基板) 11‧‧‧Glass substrate (brittle substrate)

80‧‧‧承載刃(支承部) 80‧‧‧Loading blade (support)

85‧‧‧裂斷棒(應力施加構件) 85‧‧‧Cracking rod (stress applying member)

DR‧‧‧方向 DR‧‧‧ direction

Claims (2)

一種脆性基板之分斷方法,其具備:a)準備具有第1面與和第1面相反的第2面,且具有與該第1面垂直之厚度方向之脆性基板的步驟;以及b)藉由一邊將刃前端往該脆性基板之第1面上按壓、一邊使該刃前端在該第1面上移動而使該脆性基板之該第1面上產生塑性變形,藉此形成具有第1及第2部分之溝槽線的步驟,於形成該溝槽線之步驟中,為了形成該溝槽線之該第2部分而對該刃前端施加之負載,較為了形成該溝槽線之該第1部分而對該刃前端施加之負載高,且形成該溝槽線之步驟,係以可在該溝槽線之緊鄰下方獲得該脆性基板在與該溝槽線交叉之方向連續性連結之狀態、亦即無裂紋狀態的方式進行;並進一步具有:c)僅沿該溝槽線之該第1及第2部分中的該第2部分使裂紋產生的步驟;d)在該步驟c)之後,以該脆性基板之該第1面與支承部對向之方式將該脆性基板置於該支承部上的步驟;e)在該步驟d)之後,使應力施加構件一邊離開該脆性基板之該第2面中與該溝槽線之該第1部分對向之第3部分、一邊接觸於該脆性基板之該第2面中與該溝槽線之該第2部分對向之第4部分的步驟;以及f)在該步驟e)之後,使該應力施加構件接觸於該脆性基板之該第2面中之該第3部分的步驟。 A method for breaking a brittle substrate, comprising: a) preparing a brittle substrate having a first surface opposite to a first surface opposite to the first surface and having a thickness direction perpendicular to the first surface; and b) borrowing When the tip end of the blade is pressed against the first surface of the brittle substrate, the tip end of the blade is moved on the first surface to plastically deform the first surface of the brittle substrate, thereby forming the first and In the step of forming the trench line in the second portion, in the step of forming the trench line, the load applied to the front end of the blade in order to form the second portion of the trench line is formed by forming the groove line The portion is applied with a high load applied to the front end of the blade, and the step of forming the trench line is such that the brittle substrate is continuously connected in a direction crossing the groove line immediately below the groove line. And in a non-cracked state; and further comprising: c) a step of generating a crack only along the second portion of the first and second portions of the trench line; d) after the step c) The brittle substrate is oriented such that the first surface of the brittle substrate faces the support portion a step of placing the support portion; e) after the step d), moving the stress applying member away from the third portion of the second surface of the brittle substrate opposite the first portion of the trench line; a step of contacting the fourth portion of the second surface of the brittle substrate opposite the second portion of the trench line; and f) contacting the stress applying member to the brittleness after the step e) a step of the third portion of the second surface of the substrate. 如申請專利範圍第1項之脆性基板之分斷方法,其進一步具備: g)在該步驟e)之前,使該應力施加構件以與該脆性基板之該第2面隔有間隔之方式與該第2面對向的步驟,使該應力施加構件對向之步驟,係以該應力施加構件與該第4部分之間的距離小於該應力施加構件與該第3部分之間的距離之方式進行;該步驟e)及該步驟f),係在該步驟g)之後,使該應力施加構件相對該支承部往一方向直線移動據以進行。 For example, the method for breaking a brittle substrate according to claim 1 of the patent scope further comprises: g) before the step e), the step of causing the stress applying member to face the second surface of the brittle substrate and the second facing surface to face the stress applying member The distance between the stress applying member and the fourth portion is smaller than the distance between the stress applying member and the third portion; the step e) and the step f) are after the step g) The stress applying member is moved linearly in one direction with respect to the support portion.
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