TW201900342A - Mortar supply device - Google Patents

Mortar supply device Download PDF

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Publication number
TW201900342A
TW201900342A TW106132999A TW106132999A TW201900342A TW 201900342 A TW201900342 A TW 201900342A TW 106132999 A TW106132999 A TW 106132999A TW 106132999 A TW106132999 A TW 106132999A TW 201900342 A TW201900342 A TW 201900342A
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Taiwan
Prior art keywords
pipe
mortar
filter
supply device
filter screen
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TW106132999A
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Chinese (zh)
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TWI652138B (en
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汪燕
劉源
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上海新昇半導體科技有限公司
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    • 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
    • B28D5/04Fine working of gems, jewels, crystals, e.g. of semiconductor material; apparatus or devices therefor by tools other than rotary type, e.g. reciprocating tools
    • B28D5/045Fine working of gems, jewels, crystals, e.g. of semiconductor material; apparatus or devices therefor by tools other than rotary type, e.g. reciprocating tools by cutting with wires or closed-loop blades
    • BPERFORMING OPERATIONS; TRANSPORTING
    • B01PHYSICAL OR CHEMICAL PROCESSES OR APPARATUS IN GENERAL
    • B01DSEPARATION
    • B01D29/00Filters with filtering elements stationary during filtration, e.g. pressure or suction filters, not covered by groups B01D24/00 - B01D27/00; Filtering elements therefor
    • B01D29/50Filters with filtering elements stationary during filtration, e.g. pressure or suction filters, not covered by groups B01D24/00 - B01D27/00; Filtering elements therefor with multiple filtering elements, characterised by their mutual disposition
    • B01D29/56Filters with filtering elements stationary during filtration, e.g. pressure or suction filters, not covered by groups B01D24/00 - B01D27/00; Filtering elements therefor with multiple filtering elements, characterised by their mutual disposition in series connection
    • B01D29/58Filters with filtering elements stationary during filtration, e.g. pressure or suction filters, not covered by groups B01D24/00 - B01D27/00; Filtering elements therefor with multiple filtering elements, characterised by their mutual disposition in series connection arranged concentrically or coaxially
    • BPERFORMING OPERATIONS; TRANSPORTING
    • B01PHYSICAL OR CHEMICAL PROCESSES OR APPARATUS IN GENERAL
    • B01DSEPARATION
    • B01D29/00Filters with filtering elements stationary during filtration, e.g. pressure or suction filters, not covered by groups B01D24/00 - B01D27/00; Filtering elements therefor
    • B01D29/88Filters with filtering elements stationary during filtration, e.g. pressure or suction filters, not covered by groups B01D24/00 - B01D27/00; Filtering elements therefor having feed or discharge devices
    • B01D29/90Filters with filtering elements stationary during filtration, e.g. pressure or suction filters, not covered by groups B01D24/00 - B01D27/00; Filtering elements therefor having feed or discharge devices for feeding
    • 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
    • B28D5/0058Accessories specially adapted for use with machines for fine working of gems, jewels, crystals, e.g. of semiconductor material
    • B28D5/007Use, recovery or regeneration of abrasive mediums

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  • Chemical & Material Sciences (AREA)
  • Chemical Kinetics & Catalysis (AREA)
  • Engineering & Computer Science (AREA)
  • Mechanical Engineering (AREA)
  • Crystals, And After-Treatments Of Crystals (AREA)
  • Processing Of Stones Or Stones Resemblance Materials (AREA)

Abstract

A mortar supply apparatus is adapted for a wafer cutting system, and the mortar supply apparatus comprises a first carrier means, a first conduit, a first filter and a first agitator, wherein said first carrier means provides mortars to said first conduit, the first conduit provides mortars to steel wires in the wafer cutting system. The first filter is located in the first conduit and the mortars passing through the first filter can be filtrated, so that the particle size of the silicon carbide particles in the mortar does not exceed the standard value. The first agitator is located in the first conduit and contacts with the first filter, and the first agitator can rotate around the center axis of the first conduit to scrap or break the silicon carbide particles that do not pass through the first filter.

Description

砂漿供應裝置    Mortar supply device   

本發明涉及半導體技術領域,特別涉及一種砂漿供應裝置。 The present invention relates to the field of semiconductor technology, and in particular, to a mortar supply device.

在矽片製造過程中,需要將矽單晶晶棒切成具有精確厚度的薄片狀的晶圓,這製程往往決定了晶圓翹曲度的大小,同時也對後續製程的效率產生重要的影響。在早期的小尺寸晶圓切片製程上,內徑切割機是常用的加工機台,而隨著晶圓尺寸擴展至300mm,線切割機已取代內徑切割機,在晶圓切割製程上被廣泛應用。 During the wafer manufacturing process, silicon single crystal ingots need to be cut into thin wafers with a precise thickness. This process often determines the degree of wafer warpage, and also has an important impact on the efficiency of subsequent processes. . In the early small-size wafer slicing process, the inner diameter cutting machine was a commonly used processing machine. As the wafer size expanded to 300mm, the wire cutting machine has replaced the inner diameter cutting machine and has been widely used in wafer cutting processes. application.

如圖1所示,晶圓進給裝置40’將晶圓30’提供至鋼線10’處進行切割。晶圓切割系統需要符合以下幾個特點,才能滿足大尺寸晶圓30’的切割要求:對大尺寸晶棒的切片效率高;具有較低的切損;具有較好的表面粗糙度。目前採用的線切割設備由於採用了多條鋼線10’切割,切片效率相比於內徑切割已有了大幅提高。然而線切割作為一種高效的切削手段,需要砂漿供應裝置20’向鋼線10’上噴射砂漿,砂漿成分包括碳化矽(SiC)顆粒與有機溶劑,才能最好的達到300mm晶圓的切割需求。供給給線切割設備的砂漿需要粒徑統一,SiC顆粒間無團聚,同時砂漿供應要流量均勻,且溫度穩定。 As shown in FIG. 1, a wafer feeding device 40 'provides a wafer 30' to a steel wire 10 'for dicing. The wafer cutting system needs to meet the following characteristics in order to meet the cutting requirements of large-sized wafers 30 ′: high slicing efficiency for large-sized ingots; low cutting damage; and good surface roughness. The wire cutting equipment currently used, due to the use of multiple steel wire 10 'cuts, has greatly improved the slicing efficiency compared to internal diameter cutting. However, as an efficient cutting method, wire cutting requires a mortar supply device 20 'to spray mortar on the steel wire 10'. The mortar composition includes silicon carbide (SiC) particles and organic solvents in order to best meet the cutting requirements of 300mm wafers. The mortar supplied to the wire cutting equipment needs to have a uniform particle size, no agglomeration between SiC particles, and at the same time, the mortar supply must be uniform in flow and stable in temperature.

現有的砂漿供應系統20’主要由砂漿承載裝置21’、過濾網22’、恒溫器23’、管道24’和砂漿噴嘴25’構成。現有技術主要存在的問題有: 過濾網22’容易被堵塞,造成砂漿供給流量變化;為了不使過濾網22’被堵塞,過濾網22’的孔徑往往較大,造成過濾後的碳化矽顆粒粒徑不均勻;砂漿在管路裡流動,無其他作用力,造成碳化矽顆粒在有機溶劑的作用下團聚,造成砂漿粘性增加,更易堵塞過濾網。 The existing mortar supply system 20 'is mainly composed of a mortar carrying device 21', a filter 22 ', a thermostat 23', a pipe 24 ', and a mortar nozzle 25'. The main problems in the prior art are: the filter screen 22 'is easily clogged, resulting in a change in the mortar supply flow; in order to prevent the filter screen 22' from being blocked, the diameter of the filter screen 22 'is often large, resulting in filtered silicon carbide particles. The diameter is not uniform; the mortar flows in the pipeline without other forces, causing the silicon carbide particles to agglomerate under the action of organic solvents, causing the mortar to increase viscosity, and it is more likely to block the filter.

因此,需要設計一種砂漿供應裝置以解決砂漿堵塞過濾網的問題。 Therefore, it is necessary to design a mortar supply device to solve the problem of mortar blocking the filter screen.

本發明的目的在於提供一種砂漿供應裝置,以解決現有的砂漿堵塞過濾網的問題。 The purpose of the present invention is to provide a mortar supply device to solve the problem that the existing mortar blocks the filter screen.

為解決上述技術問題,本發明提供一種砂漿供應裝置,所述砂漿供應裝置用於晶圓切割系統,所述砂漿供應裝置包括第一承載裝置、第一管道、第一過濾網和第一攪拌裝置,其中:所述第一承載裝置向所述第一管道提供砂漿,所述第一管道向所述晶圓切割系統中的鋼線提供砂漿;位於所述第一管道中的所述第一過濾網對通過所述第一管道的砂漿進行過濾;位於所述第一管道中的所述第一攪拌裝置接觸所述第一過濾網,所述第一攪拌裝置以第一管道中心線為軸轉動,以刮除或打碎未通過所述第一過濾網的碳化矽顆粒。 In order to solve the above technical problems, the present invention provides a mortar supply device for a wafer cutting system. The mortar supply device includes a first carrier device, a first pipe, a first filter screen, and a first stirring device. Wherein: the first bearing device provides mortar to the first pipe, and the first pipe provides mortar to a steel wire in the wafer cutting system; the first filter located in the first pipe The mesh filters the mortar passing through the first pipe; the first stirring device located in the first pipe contacts the first filtering screen, and the first stirring device rotates around the center line of the first pipe To scrape or break the silicon carbide particles that have not passed through the first filter.

可選的,在所述的砂漿供應裝置中,所述砂漿供應裝置還包括第二過濾網和第二攪拌裝置,其中:位於所述第一管道中的所述砂漿通過所述第一過濾網後,被提供至所述第二過濾網,所述第二過濾網對通過所述第一過濾網的砂漿進行再次過濾,以使砂漿中的碳化矽顆粒粒徑不超過標準值;所述第二攪拌裝置位於所述第一過濾網和所述第二過濾網之 間,並接觸所述第二過濾網,所述第二攪拌裝置以第一管道中心線為軸轉動,以刮除或打碎未通過所述第二過濾網的碳化矽顆粒。 Optionally, in the mortar supply device, the mortar supply device further includes a second filter screen and a second stirring device, wherein the mortar located in the first pipe passes through the first filter screen After that, it is provided to the second filter screen, and the second filter screen filters the mortar passing through the first filter screen again so that the particle diameter of the silicon carbide particles in the mortar does not exceed the standard value; Two stirring devices are located between the first filter screen and the second filter screen, and contact the second filter screen. The second stirring device rotates around the centerline of the first pipe to scrape or beat. The silicon carbide particles that have not passed through the second filter are crushed.

可選的,在所述的砂漿供應裝置中,所述第二攪拌裝置還接觸所述第一過濾網,以刮除附著在所述第一過濾網上的碳化矽顆粒。 Optionally, in the mortar supply device, the second stirring device further contacts the first filter screen to scrape off silicon carbide particles attached to the first filter screen.

可選的,在所述的砂漿供應裝置中,所述第二過濾網的孔徑小於所述第一過濾網的孔徑。 Optionally, in the mortar supply device, the aperture of the second filter screen is smaller than the aperture of the first filter screen.

可選的,在所述的砂漿供應裝置中,所述第一攪拌裝置具有2~6個葉片,所述第二攪拌裝置具有6~10個葉片。 Optionally, in the mortar supply device, the first stirring device has 2 to 6 blades, and the second stirring device has 6 to 10 blades.

可選的,在所述的砂漿供應裝置中,所述第一攪拌裝置和所述第二攪拌裝置的轉動速度為20~100轉/分鐘。 Optionally, in the mortar supply device, the rotation speed of the first stirring device and the second stirring device is 20 to 100 rpm.

可選的,在所述的砂漿供應裝置中,所述第一過濾網的目數為500目~1000目,所述第二過濾網的目數為1200目~1500目。 Optionally, in the mortar supply device, the mesh number of the first filter screen is 500 mesh to 1000 mesh, and the mesh number of the second filter screen is 1200 mesh to 1500 mesh.

可選的,在所述的砂漿供應裝置中,所述砂漿供應裝置還包括控溫器,所述控溫器位於所述第一管道靠近所述鋼線的第一管道出口處,所述控溫器使所述砂漿的溫度保持在20℃~40℃之間。 Optionally, in the mortar supply device, the mortar supply device further includes a temperature controller, the temperature controller is located at the first pipe exit of the first pipe near the steel wire, and the control unit The thermostat keeps the temperature of the mortar between 20 ° C and 40 ° C.

可選的,在所述的砂漿供應裝置中,所述砂漿供應裝置還包括第二承載裝置和第二管道,其中:所述第二承載裝置向所述第二管道提供清洗液體,所述第二管道與第一管道連接,所述第二管道向所述第一管道提供清洗液體;所述清洗液體經過所述第一攪拌裝置、第一過濾網、第二攪拌裝置和第二過濾網,並由所述第一管道靠近所述鋼線的第一管道出口處排出。 Optionally, in the mortar supply device, the mortar supply device further includes a second bearing device and a second pipe, wherein the second bearing device provides a cleaning liquid to the second pipe, and the first Two pipes are connected to the first pipe, and the second pipe provides a cleaning liquid to the first pipe; the cleaning liquid passes through the first stirring device, the first filtering screen, the second stirring device, and the second filtering screen, And it is discharged from the first pipe exit of the first pipe close to the steel wire.

可選的,在所述的砂漿供應裝置中,所述砂漿供應裝置還包 括第一閥門和第二閥門,其中:所述第一閥門控制所述第一承載裝置向所述第一管道的通道;所述第二閥門控制所述第二承載裝置向所述第二管道的通道。 Optionally, in the mortar supply device, the mortar supply device further includes a first valve and a second valve, wherein the first valve controls a passage of the first bearing device to the first pipe The second valve controls a passage of the second bearing device to the second pipe.

可選的,在所述的砂漿供應裝置中,所述砂漿供應裝置還包括第三管道、第四管道和第三承載裝置,其中:所述第三管道和第四管道連接所述第一管道側壁上,所述第三管道位於第一攪拌裝置處,所述第四管道位於所述第二攪拌裝置處;所述清洗液體經過第一攪拌裝置,由第三管道排到所述第三承載裝置;所述清洗液體經過第二攪拌裝置,由第四管道排到所述第三承載裝置。 Optionally, in the mortar supply device, the mortar supply device further includes a third pipeline, a fourth pipeline, and a third bearing device, wherein the third pipeline and the fourth pipeline are connected to the first pipeline On the side wall, the third pipe is located at the first stirring device and the fourth pipe is located at the second stirring device; the cleaning liquid passes through the first stirring device and is discharged from the third pipe to the third bearing The cleaning liquid passes through the second stirring device and is discharged from the fourth pipe to the third bearing device.

可選的,在所述的砂漿供應裝置中,所述砂漿供應裝置還包括第三閥門和第四閥門,其中:所述第三閥門控制所述第三管道向所述第三承載裝置的通道;所述第四閥門控制所述第四管道向所述第三承載裝置的通道。 Optionally, in the mortar supply device, the mortar supply device further includes a third valve and a fourth valve, wherein the third valve controls the passage of the third pipeline to the third bearing device The fourth valve controls a passage of the fourth pipeline to the third bearing device.

在本發明提供的砂漿供應裝置中,通過位於所述第一管道中的所述第一攪拌裝置接觸所述第一過濾網,所述第一攪拌裝置以第一管道中心線為軸轉動,以刮除或打碎未通過所述第一過濾網的碳化矽顆粒,防止粒徑較大的碳化矽顆粒堵塞濾網,以及碳化矽顆粒在有機溶劑的作用下團聚,造成砂漿粘性增加而堵塞濾網。 In the mortar supply device provided by the present invention, the first filtering device is contacted by the first stirring device located in the first pipe, and the first stirring device rotates around a center line of the first pipe to Scrape or break silicon carbide particles that have not passed through the first filter screen, to prevent larger diameter silicon carbide particles from blocking the filter screen, and to prevent the agglomeration of silicon carbide particles under the action of organic solvents, resulting in increased viscosity of the mortar and blocking the filter network.

本發明位於所述第一管道中的所述砂漿通過所述第一過濾網後,被提供至所述第二過濾網,通過所述第二過濾網對通過所述第一過濾網的砂漿進行再次過濾,以使砂漿中的碳化矽顆粒粒徑不超過標準值,實現第一級過濾和第二級過濾,第二級濾網的孔徑小於第一級濾網,這種 雙層濾網用於更有效的將較大顆粒的碳化矽顆粒過濾出來。 After the mortar in the first pipe of the present invention passes through the first filter, it is provided to the second filter, and the mortar passing through the first filter is processed by the second filter. Filter again so that the particle size of the silicon carbide particles in the mortar does not exceed the standard value, to achieve the first-stage filtration and the second-stage filtration. For more effective filtration of larger particles of silicon carbide particles.

通過在所述第一過濾網和所述第二過濾網之間設置所述第二攪拌裝置,增加攪拌,第二攪拌裝置設有8個葉片。第二攪拌裝置同時接觸第一過濾網和所述第二過濾網,可以避免第一過濾網和所述第二過濾網相對的面發生堵塞。 The second stirring device is provided between the first filter screen and the second filter screen to increase stirring, and the second stirring device is provided with eight blades. The second stirring device contacts the first filter screen and the second filter screen at the same time, which can prevent the opposing sides of the first filter screen and the second filter screen from being blocked.

第一攪拌裝置和第二攪拌裝置的葉片還可以作為刮刀,用於將附著在第一過濾網的前後兩側以及第二過濾網前側的碳化矽顆粒刮除,也可以作為攪拌裝置,提高第一管道內砂漿的均勻性。 The blades of the first stirring device and the second stirring device can also be used as scrapers to scrape off the silicon carbide particles attached to the front and back sides of the first filter and the front side of the second filter. They can also be used as stirring devices to improve the first Uniformity of mortar in a pipe.

在整個砂漿供應裝置的第一管道出口處設置有控溫器,用於砂漿的溫度控制,調節範圍為20~40℃,保證切割時晶圓翹曲符合規定值。 A temperature controller is set at the outlet of the first pipe of the entire mortar supply device for temperature control of the mortar, and the adjustment range is 20 ~ 40 ° C to ensure that the wafer warpage meets the specified value during dicing.

另外,為了保證長期使用時第一過濾網和所述第二過濾網不堵塞,需要定期對第一過濾網和所述第二過濾網進行清洗。本發明可進行第一過濾網和所述第二過濾網的線上清洗,即不需要拆除第一過濾網和所述第二過濾網便可實現清洗。具體方法為在第一攪拌裝置和第二攪拌裝置區域設置有第三管道和第四管道通往第三承載裝置,即砂漿廢料桶。需要清洗時,關閉第一閥門,打開第二閥門,利用清洗液體沖刷各個管道,同時打開第三閥門和第四閥門,將無法通過濾網的砂漿殘留沖刷至砂漿廢料桶。 In addition, in order to ensure that the first filter screen and the second filter screen are not blocked during long-term use, the first filter screen and the second filter screen need to be periodically cleaned. The present invention can perform online cleaning of the first filter screen and the second filter screen, that is, cleaning can be achieved without removing the first filter screen and the second filter screen. The specific method is that a third pipeline and a fourth pipeline are provided in the area of the first stirring device and the second stirring device to the third bearing device, that is, a mortar waste bucket. When cleaning is required, the first valve is closed, the second valve is opened, and each pipe is flushed with the cleaning liquid. The third valve and the fourth valve are opened at the same time, and the mortar residue that cannot pass through the filter is flushed to the mortar waste bucket.

總之,本發明通過多級的過濾網分級兩步過濾砂漿,第二級濾網的孔徑小於第一級濾網,這種雙層濾網用於更有效的將較大顆粒的SiC過濾出來。為了防止粒徑較大的SiC以及團聚後的SiC堵塞濾網,在第一過濾網前端、第一過濾網和第二過濾網之間設置有第一攪拌裝置和第二攪拌 裝置,用於將附著在濾網上的SiC刮除。通過管路設計實現不需要拆除濾網便可對濾網進行清洗。 In short, the present invention uses a multi-stage filter to classify two-step filtering mortar. The pore size of the second-stage filter is smaller than the first-stage filter. This double-layer filter is used to more effectively filter out larger particles of SiC. In order to prevent the SiC with a larger particle size and the agglomerated SiC from blocking the filter, a first stirring device and a second stirring device are provided between the front end of the first filter, the first filter, and the second filter, for SiC adhering to the screen is scraped off. Through the design of the pipeline, the filter can be cleaned without removing the filter.

10’‧‧‧鋼線 10’‧‧‧steel wire

20’‧‧‧砂漿供應裝置 20’‧‧‧Mortar supply device

21’‧‧‧砂漿承載裝置 21’‧‧‧ Mortar bearing device

22’‧‧‧過濾網 22’‧‧‧filter

23’‧‧‧恒溫器 23’‧‧‧ thermostat

24’‧‧‧管道 24’‧‧‧pipe

25’‧‧‧砂漿噴嘴 25’‧‧‧ Mortar nozzle

30’‧‧‧晶圓 30’‧‧‧ wafer

40’‧‧‧晶圓進給裝置 40’‧‧‧ wafer feeding device

11‧‧‧第一承載裝置 11‧‧‧ the first bearing device

12‧‧‧第二承載裝置 12‧‧‧Second loading device

13‧‧‧第三承載裝置 13‧‧‧Third loading device

21‧‧‧第一管道 21‧‧‧ the first pipeline

22‧‧‧第二管道 22‧‧‧Second Channel

23‧‧‧第三管道 23‧‧‧ Third Channel

24‧‧‧第四管道 24‧‧‧ Fourth Channel

31‧‧‧第一過濾網 31‧‧‧The first filter

32‧‧‧第二過濾網 32‧‧‧Second filter

41‧‧‧第一攪拌裝置 41‧‧‧The first mixing device

42‧‧‧第二攪拌裝置 42‧‧‧Second mixing device

51‧‧‧第一閥門 51‧‧‧The first valve

52‧‧‧第二閥門 52‧‧‧Second valve

53‧‧‧第三閥門 53‧‧‧Third valve

54‧‧‧第四閥門 54‧‧‧Fourth valve

60‧‧‧控溫器 60‧‧‧ Thermostat

圖1是現有的晶圓切割系統中的砂漿供應裝置示意圖。 FIG. 1 is a schematic diagram of a mortar supply device in a conventional wafer dicing system.

圖2是本發明砂漿供應裝置中的第一管道內部示意圖。 FIG. 2 is a schematic diagram of the inside of the first pipe in the mortar supply device of the present invention.

圖3是本發明砂漿供應裝置之整體結構示意圖。 FIG. 3 is a schematic diagram of the overall structure of the mortar supply device of the present invention.

圖4是本發明砂漿供應裝置之第一管道與第三承載裝置連接示意圖。 FIG. 4 is a schematic diagram of the connection between the first pipeline and the third bearing device of the mortar supply device of the present invention.

以下結合附圖和具體實施例對本發明提出的砂漿供應裝置作進一步詳細說明。根據下面說明和請求項書,本發明的優點和特徵將更清楚。需說明的是,附圖均採用非常簡化的形式且均使用非精准的比例,僅用以方便、明晰地輔助說明本發明實施例的目的。 The mortar supply device provided by the present invention is further described in detail below with reference to the drawings and specific embodiments. The advantages and features of the present invention will become clearer from the following description and claims. It should be noted that the drawings are in a very simplified form and all use inaccurate proportions, which are only used to facilitate and clearly assist the description of the embodiments of the present invention.

本發明的核心思想在於提供一種砂漿供應裝置,以解決現有的砂漿堵塞過濾網的問題。 The core idea of the present invention is to provide a mortar supply device to solve the problem that the existing mortar blocks the filter screen.

為實現上述思想,本發明提供了一種砂漿供應裝置,所述砂漿供應裝置用於晶圓切割系統,所述砂漿供應裝置包括第一承載裝置、第一管道、第一過濾網和第一攪拌裝置,其中:所述第一承載裝置向所述第一管道提供砂漿,所述第一管道向所述晶圓切割系統中的鋼線提供砂漿;位於所述第一管道中的所述第一過濾網對通過所述第一管道的砂漿進行過濾,以使砂漿中的碳化矽顆粒粒徑不超過標準值;位於所述第一管道中的所述第一攪拌裝置接觸所述第一過濾網,所述第一攪拌裝置以第一管道中 心線為軸轉動,以刮除或打碎未通過所述第一過濾網的碳化矽顆粒。 In order to realize the above idea, the present invention provides a mortar supply device for a wafer cutting system. The mortar supply device includes a first carrier device, a first pipe, a first filter screen, and a first stirring device. Wherein: the first bearing device provides mortar to the first pipe, and the first pipe provides mortar to a steel wire in the wafer cutting system; the first filter located in the first pipe The mesh filters the mortar passing through the first pipe so that the particle size of the silicon carbide particles in the mortar does not exceed a standard value; the first stirring device located in the first pipe contacts the first filter screen, The first stirring device rotates around the centerline of the first pipe to scrape or break the silicon carbide particles that have not passed through the first filter screen.

如圖2~3所示,本發明具體實施方式提供一種砂漿供應裝置,所述砂漿供應裝置用於晶圓切割系統,所述砂漿供應裝置包括第一承載裝置11、第一管道21、第一過濾網31和第一攪拌裝置41,其中:所述第一承載裝置11向所述第一管道21提供砂漿,所述第一管道21向所述晶圓切割系統中的鋼線提供砂漿;位於所述第一管道21中的所述第一過濾網31對通過所述第一管道21的砂漿進行過濾;位於所述第一管道21中的所述第一攪拌裝置41接觸所述第一過濾網31,所述第一攪拌裝置41以第一管道21的中心線為軸轉動,以刮除或打碎未通過所述第一過濾網31的碳化矽顆粒。 As shown in FIGS. 2 to 3, a specific embodiment of the present invention provides a mortar supply device for a wafer cutting system. The mortar supply device includes a first carrier device 11, a first pipe 21, and a first The filter 31 and the first stirring device 41, wherein: the first carrying device 11 provides mortar to the first pipe 21, and the first pipe 21 provides mortar to a steel wire in the wafer cutting system; The first filter screen 31 in the first pipe 21 filters the mortar passing through the first pipe 21; the first stirring device 41 in the first pipe 21 contacts the first filter Net 31, the first stirring device 41 rotates around the centerline of the first pipe 21 to scrape or break silicon carbide particles that have not passed through the first filter 31.

在本發明提供的砂漿供應裝置中,通過位於所述第一管道21中的所述第一攪拌裝置41接觸所述第一過濾網31,所述第一攪拌裝置41以第一管道21中心線為軸轉動,以刮除或打碎未通過所述第一過濾網31的碳化矽顆粒,防止粒徑較大的碳化矽顆粒堵塞濾網,以及碳化矽顆粒在有機溶劑的作用下團聚,造成砂漿粘性增加而堵塞第一過濾網31的濾網。 In the mortar supply device provided by the present invention, the first filtering device 31 is contacted by the first stirring device 41 located in the first pipe 21, and the first stirring device 41 is centered on the first pipe 21 It rotates as an axis to scrape or break silicon carbide particles that have not passed through the first filter screen 31, to prevent large-sized silicon carbide particles from clogging the filter screen, and the agglomeration of silicon carbide particles under the action of organic solvents, resulting in The viscosity of the mortar increases and the screen of the first screen 31 is blocked.

具體的,在所述的砂漿供應裝置中,所述砂漿供應裝置還包括第二過濾網32和第二攪拌裝置42,其中:位於所述第一管道21中的所述砂漿通過所述第一過濾網31後,被提供至所述第二過濾網32,所述第二過濾網32對通過所述第一過濾網31的砂漿進行再次過濾,以使砂漿中的碳化矽顆粒粒徑不超過標準值;所述第二攪拌裝置42位於所述第一過濾網31和所述第二過濾網32之間,並接觸所述第一過濾網31和所述第二過濾網32,所述第二攪拌裝置42以第一管道21中心線為軸轉動,以刮除或打碎未通過所述第二過濾網32的碳化矽顆粒。所述第一攪拌裝置41具有4個葉片,所述 第二攪拌裝置42具有8個葉片。所述砂漿供應裝置還包括第一閥門51,所述第一閥門51控制所述第一承載裝置11向所述第一管道21的通道,在第一閥門51打開後,抽泵開始工作,砂漿在第一管道21中流動,這時第一攪拌裝置41和第二攪拌裝置42同時開始轉動,混合與攪拌附近的砂漿,所述第一攪拌裝置41和所述第二攪拌裝置42的轉動速度為20~100轉/分鐘。 Specifically, in the mortar supply device, the mortar supply device further includes a second filter screen 32 and a second stirring device 42, wherein the mortar in the first pipe 21 passes through the first After the filter 31 is provided to the second filter 32, the second filter 32 filters the mortar passing through the first filter 31 again so that the particle size of the silicon carbide particles in the mortar does not exceed Standard value; the second stirring device 42 is located between the first filter screen 31 and the second filter screen 32, and contacts the first filter screen 31 and the second filter screen 32, and the first The two stirring devices 42 rotate around the center line of the first pipe 21 to scrape or break the silicon carbide particles that have not passed through the second filter screen 32. The first stirring device 41 has four blades, and the second stirring device 42 has eight blades. The mortar supply device further includes a first valve 51, which controls the passage of the first bearing device 11 to the first pipe 21. After the first valve 51 is opened, the pump starts to work and the mortar Flowing in the first pipe 21, at this time, the first stirring device 41 and the second stirring device 42 start to rotate at the same time, and the mortar in the vicinity is mixed and stirred. The rotation speed of the first stirring device 41 and the second stirring device 42 is 20 ~ 100 rpm.

本發明通過在所述第一過濾網31和所述第二過濾網32之間設置所述第二攪拌裝置42,增加攪拌,第二攪拌裝置42設有8個葉片。第二攪拌裝置42同時接觸第一過濾網31和所述第二過濾網32,可以避免第一過濾網31和所述第二過濾網32相對的面發生堵塞。第一攪拌裝置41和第二攪拌裝置42的葉片可以作為刮刀,用於將附著在第一過濾網31的前後兩側以及第二過濾網32前側的碳化矽顆粒刮除,通過高速轉動也可以作為攪拌裝置,提高第一管道21內砂漿的均勻性;第一攪拌裝置41將碳化矽顆粒打碎,以提高砂漿通過濾網的概率,提高砂漿的利用率,第二攪拌裝置42進一步將碳化矽顆粒打碎,以使碳化矽顆粒通過第二過濾網32,而不會堆積在第一過濾網31和第二過濾網32之間,造成堵塞。 In the present invention, the second stirring device 42 is provided between the first filter screen 31 and the second filter screen 32 to increase stirring. The second stirring device 42 is provided with eight blades. The second stirring device 42 contacts the first filter screen 31 and the second filter screen 32 at the same time, which can prevent the opposing sides of the first filter screen 31 and the second filter screen 32 from being blocked. The blades of the first stirring device 41 and the second stirring device 42 can be used as scrapers to scrape off the silicon carbide particles attached to the front and rear sides of the first filter 31 and the front of the second filter 32, and can also be rotated at high speed. As a stirring device, the uniformity of the mortar in the first pipe 21 is improved; the first stirring device 41 breaks the silicon carbide particles to increase the probability of the mortar passing through the screen and the utilization rate of the mortar; the second stirring device 42 further carbonizes The silicon particles are shattered so that the silicon carbide particles pass through the second filter screen 32 without being accumulated between the first filter screen 31 and the second filter screen 32, causing blockage.

進一步的,碳化矽顆粒的粒徑為100奈米~2000奈米之間,第一過濾網31和第二過濾網32的每個網孔的孔徑由碳化矽顆粒的粒徑決定。所述第二過濾網32的孔徑小於所述第一過濾網31的孔徑。所述第一過濾網的目數為500目~1000目,所述第二過濾網的目數為1200目~1500目,過濾網的目數是指每平方英寸的面積上的網格數,對應著過濾網的過濾精度,即能過濾的物體的尺寸大小,第一過濾網31和第二過濾網32的目數與碳化矽顆粒的粒徑相關。本發明位於所述第一管道21中的所述砂漿通過所 述第一過濾網31後,被提供至所述第二過濾網32,通過所述第二過濾網32對通過所述第一過濾網31的砂漿進行再次過濾,以使砂漿中的碳化矽顆粒粒徑不超過標準值,實現第一級過濾和第二級過濾,第二級濾網的孔徑小於第一級濾網,這種雙層濾網用於更有效的將較大顆粒的碳化矽顆粒過濾出來。 Further, the particle diameter of the silicon carbide particles is between 100 nanometers and 2000 nanometers, and the pore diameter of each mesh of the first filter 31 and the second filter 32 is determined by the particle diameter of the silicon carbide particles. The aperture of the second filter screen 32 is smaller than the aperture of the first filter screen 31. The mesh number of the first filter is 500 mesh to 1000 mesh, and the mesh number of the second filter is 1200 mesh to 1500 mesh. The mesh number of the filter mesh refers to the number of meshes per square inch of area, Corresponding to the filtering accuracy of the filter, that is, the size of the objects that can be filtered, the mesh numbers of the first filter 31 and the second filter 32 are related to the particle diameter of the silicon carbide particles. The mortar in the first pipe 21 of the present invention is provided to the second filter 32 after passing through the first filter 31, and the second filter 32 passes through the first filter The mortar of the mesh 31 is filtered again so that the particle size of the silicon carbide particles in the mortar does not exceed the standard value, and the first-stage filtration and the second-stage filtration are realized. The pore diameter of the second-stage screen is smaller than that of the first-stage screen. Double-layer filters are used to more effectively filter out larger particles of silicon carbide particles.

另外,在所述的砂漿供應裝置中,所述砂漿供應裝置還包括控溫器60,所述控溫器60位於所述第一管道21靠近所述鋼線的第一管道出口處,所述控溫器60使所述砂漿的溫度保持在20℃~40℃之間。在整個砂漿供應裝置的第一管道出口處設置有控溫器,用於砂漿的溫度控制,調節範圍為20~40℃,保證切割時晶圓翹曲符合規定值。 In addition, in the mortar supply device, the mortar supply device further includes a temperature controller 60, which is located at the first pipe exit of the first pipe 21 close to the steel wire. The temperature controller 60 keeps the temperature of the mortar between 20 ° C and 40 ° C. A temperature controller is set at the outlet of the first pipe of the entire mortar supply device for temperature control of the mortar, and the adjustment range is 20 ~ 40 ° C to ensure that the wafer warpage meets the specified value during dicing.

如圖3~4所示,為了保證長期使用時第一過濾網31和所述第二過濾網32不堵塞,需要定期對第一過濾網31和所述第二過濾網32進行清洗。為了簡化清洗流程,提高清洗效率,本發明提供了一種對濾網進行線上清洗的方法。 As shown in FIGS. 3 to 4, in order to ensure that the first filter screen 31 and the second filter screen 32 are not blocked during long-term use, the first filter screen 31 and the second filter screen 32 need to be cleaned periodically. In order to simplify the cleaning process and improve the cleaning efficiency, the present invention provides a method for online cleaning the filter screen.

具體的,在所述的砂漿供應裝置中,所述砂漿供應裝置還包括第二承載裝置12和第二管道22,其中:所述第二承載裝置12向所述第二管道22提供清洗液體,所述第二管道22與第一管道21連接,所述第二管道22向所述第一管道21提供清洗液體;所述清洗液體為去離子水,所述清洗液體經過所述第一攪拌裝置41、第一過濾網31、第二攪拌裝置42和第二過濾網32,並由所述第一管道21靠近所述鋼線的第一管道出口處排出。所述砂漿供應裝置還包括第二閥門52,其中:所述第二閥門52控制所述第二承載裝置12向所述第二管道22的通道。所述砂漿供應裝置還包括第三管道23、 第四管道24和第三承載裝置13,其中:所述第三管道23和第四管道24連接所述第一管道21側壁上,所述第三管道23位於第一攪拌裝置41處,所述第四管道24位於所述第二攪拌裝置42處;所述清洗液體經過第一攪拌裝置41,由第三管道23排到所述第三承載裝置13;所述清洗液體經過第二攪拌裝置42,由第四管道24排到所述第三承載裝置13。所述砂漿供應裝置還包括第三閥門53和第四閥門54,其中:所述第三閥門53控制所述第三管道23向所述第三承載裝置13的通道;所述第四閥門54控制所述第四管道24向所述第三承載裝置13的通道。 Specifically, in the mortar supply device, the mortar supply device further includes a second bearing device 12 and a second pipe 22, wherein the second bearing device 12 provides a cleaning liquid to the second pipe 22, The second pipe 22 is connected to the first pipe 21, and the second pipe 22 provides a cleaning liquid to the first pipe 21; the cleaning liquid is deionized water, and the cleaning liquid passes through the first stirring device 41. The first filter screen 31, the second stirring device 42 and the second filter screen 32 are discharged from the first pipe 21 near the first pipe outlet of the steel wire. The mortar supply device further includes a second valve 52, wherein the second valve 52 controls a passage of the second carrier device 12 to the second pipe 22. The mortar supply device further includes a third pipe 23, a fourth pipe 24, and a third bearing device 13, wherein the third pipe 23 and the fourth pipe 24 are connected to the side wall of the first pipe 21, and the third pipe The pipe 23 is located at the first stirring device 41, and the fourth pipe 24 is located at the second stirring device 42; the cleaning liquid passes through the first stirring device 41 and is discharged from the third pipe 23 to the third bearing device 13; The cleaning liquid passes through the second stirring device 42 and is discharged from the fourth pipe 24 to the third carrying device 13. The mortar supply device further includes a third valve 53 and a fourth valve 54, wherein: the third valve 53 controls the passage of the third pipe 23 to the third bearing device 13; the fourth valve 54 controls The passage of the fourth pipe 24 to the third bearing device 13.

本發明可進行第一過濾網31和所述第二過濾網32的線上清洗,即不需要拆除第一過濾網31和所述第二過濾網32便可實現清洗。具體方法為在第一攪拌裝置41和第二攪拌裝置42區域設置有第三管道23和第四管道24通往第三承載裝置13,即砂漿廢料桶。需要清洗時,關閉第一閥門51,打開第二閥門52,利用清洗液體沖刷各個管道,同時打開第三閥門53和第四閥門54,將無法通過濾網的砂漿殘留沖刷至砂漿廢料桶。 The present invention can perform online cleaning of the first filter screen 31 and the second filter screen 32, that is, cleaning can be achieved without removing the first filter screen 31 and the second filter screen 32. The specific method is that a third pipe 23 and a fourth pipe 24 are provided in the area of the first stirring device 41 and the second stirring device 42 to lead to the third bearing device 13, that is, a mortar waste bucket. When cleaning is required, the first valve 51 is closed, the second valve 52 is opened, and each pipe is flushed with the cleaning liquid, and the third valve 53 and the fourth valve 54 are opened at the same time, and the mortar residue that cannot pass through the screen is washed to the mortar waste bucket.

總之,本發明通過多級的過濾網分級兩步過濾砂漿,第二級濾網的孔徑小於第一級濾網,這種雙層濾網用於更有效的將較大顆粒的SiC過濾出來。為了防止粒徑較大的SiC以及團聚後的SiC堵塞濾網,在第一過濾網前端、第一過濾網和第二過濾網之間設置有第一攪拌裝置和第二攪拌裝置,用於將附著在濾網上的SiC刮除。通過管路設計實現不需要拆除濾網便可對濾網進行清洗。 In short, the present invention uses a multi-stage filter to classify two-step filtering mortar. The pore size of the second-stage filter is smaller than that of the first-stage filter. This double-layer filter is used to more effectively filter out larger particles of SiC. In order to prevent the SiC with a larger particle size and the agglomerated SiC from clogging the filter, a first stirring device and a second stirring device are provided between the front end of the first filter, the first filter, and the second filter. SiC adhering to the screen is scraped off. Through the design of the pipeline, the filter can be cleaned without removing the filter.

綜上,上述實施例對砂漿供應裝置的不同質性進行了詳細說明,當然,本發明包括但不局限於上述實施中所列舉的構型,任何在上述 實施例提供的構型基礎上進行變換的內容,均屬於本發明所保護的範圍。本領域技術人員可以根據上述實施例的內容舉一反三。 In summary, the above embodiments have described in detail the different qualities of the mortar supply device. Of course, the present invention includes, but is not limited to, the configurations listed in the above implementations, and any transformation based on the configurations provided in the above embodiments The contents belong to the scope protected by the present invention. Those skilled in the art can learn from the content of the above embodiments.

本說明書中各個實施例採用遞進的方式描述,每個實施例重點說明的都是與其他實施例的不同之處,各個實施例之間相同相似部分互相參見即可。上述描述僅是對本發明較佳實施例的描述,並非對本發明範圍的任何限定,本發明領域的普通技術人員根據上述揭示內容做的任何變更、修飾,均屬於申請專利範圍的保護範圍。 The embodiments in this specification are described in a progressive manner. Each embodiment focuses on the differences from other embodiments. For the same and similar parts between the embodiments, refer to each other. The above description is only a description of the preferred embodiments of the present invention, and does not limit the scope of the present invention in any way. Any changes and modifications made by those skilled in the art in accordance with the above disclosure are within the protection scope of the patent application.

Claims (12)

一種砂漿供應裝置,所述砂漿供應裝置用於晶圓切割系統,所述砂漿供應裝置包括:第一承載裝置、第一管道、第一過濾網和第一攪拌裝置;所述第一承載裝置向所述第一管道提供砂漿,所述第一管道向所述晶圓切割系統中的鋼線提供砂漿;位於所述第一管道中的所述第一過濾網對通過所述第一管道的砂漿進行過濾;位於所述第一管道中的所述第一攪拌裝置接觸所述第一過濾網,所述第一攪拌裝置以所述第一管道之中心線為軸轉動,以刮除或打碎未通過所述第一過濾網的碳化矽顆粒。     A mortar supply device for a wafer cutting system. The mortar supply device includes: a first bearing device, a first pipe, a first filter screen, and a first stirring device; The first pipe provides mortar, and the first pipe provides mortar to a steel wire in the wafer cutting system; the first filter pair located in the first pipe passes through the mortar of the first pipe Filtering; the first stirring device in the first pipe contacts the first filter screen, and the first stirring device rotates around the center line of the first pipe to scrape or break Silicon carbide particles that have not passed through the first filter.     如請求項1所述的砂漿供應裝置,其中所述砂漿供應裝置還包括第二過濾網和第二攪拌裝置,位於所述第一管道中的所述砂漿通過所述第一過濾網後被提供至所述第二過濾網,所述第二過濾網對通過所述第一過濾網的砂漿進行再次過濾,以使砂漿中的碳化矽顆粒粒徑不超過標準值;所述第二攪拌裝置位於所述第一過濾網和所述第二過濾網之間,並接觸所述第二過濾網,所述第二攪拌裝置以所述第一管道之中心線為軸轉動,以刮除或打碎未通過所述第二過濾網的碳化矽顆粒。     The mortar supply device according to claim 1, wherein the mortar supply device further includes a second filter screen and a second stirring device, and the mortar located in the first pipe is provided after passing through the first filter screen. To the second filter, the second filter filters the mortar passing through the first filter again, so that the particle size of the silicon carbide particles in the mortar does not exceed the standard value; the second stirring device is located at Between the first filter screen and the second filter screen and in contact with the second filter screen, the second stirring device rotates around the center line of the first pipe to scrape or break Silicon carbide particles that have not passed through the second filter.     如請求項2所述的砂漿供應裝置,其中所述第二攪拌裝置還接觸所述第一過濾網,以刮除附著在所述第一過濾網上的碳化矽顆粒。     The mortar supply device according to claim 2, wherein the second stirring device further contacts the first filter screen to scrape off silicon carbide particles attached to the first filter screen.     如請求項2所述的砂漿供應裝置,其中所述第二過濾網的孔徑小於所述第一過濾網的孔徑。     The mortar supply device according to claim 2, wherein a diameter of the second filter is smaller than a diameter of the first filter.     如請求項2所述的砂漿供應裝置,其中所述第一攪拌裝置具有2~6個葉片,所述第二攪拌裝置具有6~10個葉片。     The mortar supply device according to claim 2, wherein the first stirring device has 2 to 6 blades, and the second stirring device has 6 to 10 blades.     如請求項2所述的砂漿供應裝置,其中所述第一攪拌裝置和所述第二攪拌裝置的轉動速度為20~100轉/分鐘。     The mortar supply device according to claim 2, wherein the rotation speed of the first stirring device and the second stirring device is 20 to 100 rpm.     如請求項2所述的砂漿供應裝置,其中所述第一過濾網的目數為500目~1000目,所述第二過濾網的目數為1200目~1500目。     The mortar supply device according to claim 2, wherein the mesh number of the first filter is 500 mesh to 1000 mesh, and the mesh number of the second filter is 1200 mesh to 1500 mesh.     如請求項1所述的砂漿供應裝置,其中所述砂漿供應裝置還包括控溫器,所述控溫器位於所述第一管道靠近所述鋼線的第一管道出口處,所述控溫器使所述砂漿的溫度保持在20℃~40℃之間。     The mortar supply device according to claim 1, wherein the mortar supply device further comprises a temperature controller, the temperature controller is located at the first pipe exit of the first pipe close to the steel wire, and the temperature control The device keeps the temperature of the mortar between 20 ° C and 40 ° C.     如請求項2所述的砂漿供應裝置,其中所述砂漿供應裝置還包括第二承載裝置和第二管道,所述第二承載裝置向所述第二管道提供清洗液體,所述第二管道與所述第一管道連接,所述第二管道向所述第一管道提供清洗液體;所述清洗液體經過所述第一攪拌裝置、所述第一過濾網、所述第二攪拌裝置和所述第二過濾網,並由所述第一管道靠近所述鋼線的第一管道出口處排出。     The mortar supply device according to claim 2, wherein the mortar supply device further includes a second carrier device and a second pipe, the second carrier device supplies cleaning liquid to the second pipe, and the second pipe and The first pipe is connected, and the second pipe provides a cleaning liquid to the first pipe; the cleaning liquid passes through the first stirring device, the first filter screen, the second stirring device, and the The second filter screen is discharged from the first pipe near the first pipe outlet of the steel wire.     如請求項9所述的砂漿供應裝置,其中所述砂漿供應裝置還包括第一閥門和第二閥門,所述第一閥門控制所述第一承載裝置向所述第一管道的通道;所述第二閥門控制所述第二承載裝置向所述第二管道的通道。     The mortar supply device according to claim 9, wherein the mortar supply device further includes a first valve and a second valve, and the first valve controls a passage of the first bearing device to the first pipe; the A second valve controls a passage of the second bearing device to the second pipe.     如請求項9所述的砂漿供應裝置,其中所述砂漿供應裝置還包括第三管道、第四管道和第三承載裝置,所述第三管道和所述第四管道連接所述第一管道之側壁上,所述第三管道位於所述第一攪拌裝置,所述第四管道位於所述第二攪拌裝置;所述清洗液體經過所述第一攪拌裝置由所述第三管道排到所述第三承載裝置;所述清洗液體經過所述第二攪拌裝置由所述第四管道排到所述第三承載裝置。     The mortar supply device according to claim 9, wherein the mortar supply device further includes a third pipe, a fourth pipe, and a third bearing device, and the third pipe and the fourth pipe are connected to the first pipe. On the side wall, the third pipe is located in the first stirring device, and the fourth pipe is located in the second stirring device; the cleaning liquid is discharged from the third pipe to the third stirring device through the first stirring device. A third bearing device; the cleaning liquid is discharged from the fourth pipe to the third bearing device through the second stirring device.     如請求項11所述的砂漿供應裝置,其中所述砂漿供應裝置還包括第三閥門和第四閥門,所述第三閥門控制所述第三管道向所述第三承載裝置的通道;所述第四閥門控制所述第四管道向所述第三承載裝置的通道。     The mortar supply device according to claim 11, wherein the mortar supply device further includes a third valve and a fourth valve, and the third valve controls a passage of the third pipe to the third bearing device; the A fourth valve controls a passage of the fourth pipeline to the third bearing device.    
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