TWI835316B - Operating device, installation device and installation method of electronic components - Google Patents
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- H—ELECTRICITY
- H01—ELECTRIC ELEMENTS
- H01L—SEMICONDUCTOR DEVICES NOT COVERED BY CLASS H10
- H01L21/00—Processes or apparatus adapted for the manufacture or treatment of semiconductor or solid state devices or of parts thereof
- H01L21/67—Apparatus specially adapted for handling semiconductor or electric solid state devices during manufacture or treatment thereof; Apparatus specially adapted for handling wafers during manufacture or treatment of semiconductor or electric solid state devices or components ; Apparatus not specifically provided for elsewhere
- H01L21/67005—Apparatus not specifically provided for elsewhere
- H01L21/67011—Apparatus for manufacture or treatment
- H01L21/67144—Apparatus for mounting on conductive members, e.g. leadframes or conductors on insulating substrates
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- H—ELECTRICITY
- H01—ELECTRIC ELEMENTS
- H01L—SEMICONDUCTOR DEVICES NOT COVERED BY CLASS H10
- H01L21/00—Processes or apparatus adapted for the manufacture or treatment of semiconductor or solid state devices or of parts thereof
- H01L21/02—Manufacture or treatment of semiconductor devices or of parts thereof
- H01L21/04—Manufacture or treatment of semiconductor devices or of parts thereof the devices having potential barriers, e.g. a PN junction, depletion layer or carrier concentration layer
- H01L21/50—Assembly of semiconductor devices using processes or apparatus not provided for in a single one of the subgroups H01L21/06 - H01L21/326, e.g. sealing of a cap to a base of a container
- H01L21/52—Mounting semiconductor bodies in containers
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- H—ELECTRICITY
- H01—ELECTRIC ELEMENTS
- H01L—SEMICONDUCTOR DEVICES NOT COVERED BY CLASS H10
- H01L21/00—Processes or apparatus adapted for the manufacture or treatment of semiconductor or solid state devices or of parts thereof
- H01L21/67—Apparatus specially adapted for handling semiconductor or electric solid state devices during manufacture or treatment thereof; Apparatus specially adapted for handling wafers during manufacture or treatment of semiconductor or electric solid state devices or components ; Apparatus not specifically provided for elsewhere
- H01L21/67005—Apparatus not specifically provided for elsewhere
- H01L21/67242—Apparatus for monitoring, sorting or marking
- H01L21/67259—Position monitoring, e.g. misposition detection or presence detection
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- H—ELECTRICITY
- H01—ELECTRIC ELEMENTS
- H01L—SEMICONDUCTOR DEVICES NOT COVERED BY CLASS H10
- H01L21/00—Processes or apparatus adapted for the manufacture or treatment of semiconductor or solid state devices or of parts thereof
- H01L21/67—Apparatus specially adapted for handling semiconductor or electric solid state devices during manufacture or treatment thereof; Apparatus specially adapted for handling wafers during manufacture or treatment of semiconductor or electric solid state devices or components ; Apparatus not specifically provided for elsewhere
- H01L21/67005—Apparatus not specifically provided for elsewhere
- H01L21/67242—Apparatus for monitoring, sorting or marking
- H01L21/67294—Apparatus for monitoring, sorting or marking using identification means, e.g. labels on substrates or labels on containers
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- H—ELECTRICITY
- H01—ELECTRIC ELEMENTS
- H01L—SEMICONDUCTOR DEVICES NOT COVERED BY CLASS H10
- H01L21/00—Processes or apparatus adapted for the manufacture or treatment of semiconductor or solid state devices or of parts thereof
- H01L21/67—Apparatus specially adapted for handling semiconductor or electric solid state devices during manufacture or treatment thereof; Apparatus specially adapted for handling wafers during manufacture or treatment of semiconductor or electric solid state devices or components ; Apparatus not specifically provided for elsewhere
- H01L21/677—Apparatus specially adapted for handling semiconductor or electric solid state devices during manufacture or treatment thereof; Apparatus specially adapted for handling wafers during manufacture or treatment of semiconductor or electric solid state devices or components ; Apparatus not specifically provided for elsewhere for conveying, e.g. between different workstations
- H01L21/67703—Apparatus specially adapted for handling semiconductor or electric solid state devices during manufacture or treatment thereof; Apparatus specially adapted for handling wafers during manufacture or treatment of semiconductor or electric solid state devices or components ; Apparatus not specifically provided for elsewhere for conveying, e.g. between different workstations between different workstations
- H01L21/67718—Changing orientation of the substrate, e.g. from a horizontal position to a vertical position
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- H—ELECTRICITY
- H01—ELECTRIC ELEMENTS
- H01L—SEMICONDUCTOR DEVICES NOT COVERED BY CLASS H10
- H01L21/00—Processes or apparatus adapted for the manufacture or treatment of semiconductor or solid state devices or of parts thereof
- H01L21/67—Apparatus specially adapted for handling semiconductor or electric solid state devices during manufacture or treatment thereof; Apparatus specially adapted for handling wafers during manufacture or treatment of semiconductor or electric solid state devices or components ; Apparatus not specifically provided for elsewhere
- H01L21/677—Apparatus specially adapted for handling semiconductor or electric solid state devices during manufacture or treatment thereof; Apparatus specially adapted for handling wafers during manufacture or treatment of semiconductor or electric solid state devices or components ; Apparatus not specifically provided for elsewhere for conveying, e.g. between different workstations
- H01L21/67703—Apparatus specially adapted for handling semiconductor or electric solid state devices during manufacture or treatment thereof; Apparatus specially adapted for handling wafers during manufacture or treatment of semiconductor or electric solid state devices or components ; Apparatus not specifically provided for elsewhere for conveying, e.g. between different workstations between different workstations
- H01L21/67721—Apparatus specially adapted for handling semiconductor or electric solid state devices during manufacture or treatment thereof; Apparatus specially adapted for handling wafers during manufacture or treatment of semiconductor or electric solid state devices or components ; Apparatus not specifically provided for elsewhere for conveying, e.g. between different workstations between different workstations the substrates to be conveyed not being semiconductor wafers or large planar substrates, e.g. chips, lead frames
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- H—ELECTRICITY
- H01—ELECTRIC ELEMENTS
- H01L—SEMICONDUCTOR DEVICES NOT COVERED BY CLASS H10
- H01L21/00—Processes or apparatus adapted for the manufacture or treatment of semiconductor or solid state devices or of parts thereof
- H01L21/67—Apparatus specially adapted for handling semiconductor or electric solid state devices during manufacture or treatment thereof; Apparatus specially adapted for handling wafers during manufacture or treatment of semiconductor or electric solid state devices or components ; Apparatus not specifically provided for elsewhere
- H01L21/68—Apparatus specially adapted for handling semiconductor or electric solid state devices during manufacture or treatment thereof; Apparatus specially adapted for handling wafers during manufacture or treatment of semiconductor or electric solid state devices or components ; Apparatus not specifically provided for elsewhere for positioning, orientation or alignment
- H01L21/681—Apparatus specially adapted for handling semiconductor or electric solid state devices during manufacture or treatment thereof; Apparatus specially adapted for handling wafers during manufacture or treatment of semiconductor or electric solid state devices or components ; Apparatus not specifically provided for elsewhere for positioning, orientation or alignment using optical controlling means
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- H—ELECTRICITY
- H01—ELECTRIC ELEMENTS
- H01L—SEMICONDUCTOR DEVICES NOT COVERED BY CLASS H10
- H01L21/00—Processes or apparatus adapted for the manufacture or treatment of semiconductor or solid state devices or of parts thereof
- H01L21/67—Apparatus specially adapted for handling semiconductor or electric solid state devices during manufacture or treatment thereof; Apparatus specially adapted for handling wafers during manufacture or treatment of semiconductor or electric solid state devices or components ; Apparatus not specifically provided for elsewhere
- H01L21/683—Apparatus specially adapted for handling semiconductor or electric solid state devices during manufacture or treatment thereof; Apparatus specially adapted for handling wafers during manufacture or treatment of semiconductor or electric solid state devices or components ; Apparatus not specifically provided for elsewhere for supporting or gripping
- H01L21/6838—Apparatus specially adapted for handling semiconductor or electric solid state devices during manufacture or treatment thereof; Apparatus specially adapted for handling wafers during manufacture or treatment of semiconductor or electric solid state devices or components ; Apparatus not specifically provided for elsewhere for supporting or gripping with gripping and holding devices using a vacuum; Bernoulli devices
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- H05K—PRINTED CIRCUITS; CASINGS OR CONSTRUCTIONAL DETAILS OF ELECTRIC APPARATUS; MANUFACTURE OF ASSEMBLAGES OF ELECTRICAL COMPONENTS
- H05K13/00—Apparatus or processes specially adapted for manufacturing or adjusting assemblages of electric components
- H05K13/04—Mounting of components, e.g. of leadless components
- H05K13/0404—Pick-and-place heads or apparatus, e.g. with jaws
- H05K13/0408—Incorporating a pick-up tool
- H05K13/0409—Sucking devices
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- H—ELECTRICITY
- H05—ELECTRIC TECHNIQUES NOT OTHERWISE PROVIDED FOR
- H05K—PRINTED CIRCUITS; CASINGS OR CONSTRUCTIONAL DETAILS OF ELECTRIC APPARATUS; MANUFACTURE OF ASSEMBLAGES OF ELECTRICAL COMPONENTS
- H05K13/00—Apparatus or processes specially adapted for manufacturing or adjusting assemblages of electric components
- H05K13/04—Mounting of components, e.g. of leadless components
- H05K13/0404—Pick-and-place heads or apparatus, e.g. with jaws
- H05K13/0413—Pick-and-place heads or apparatus, e.g. with jaws with orientation of the component while holding it; Drive mechanisms for gripping tools, e.g. lifting, lowering or turning of gripping tools
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Abstract
本發明提供一種以非接觸方式拾取電子零件、並且能夠進行安裝位置處的定位的電子零件的操作裝置、安裝裝置及安裝方法。實施方式的操作裝置包括:安裝頭,在安裝位置處將電子零件安裝於基板;拾取筒夾,包括多孔質構件與導引部,所述多孔質構件進行氣體的噴出,且通過抽吸孔的負壓以非接觸的方式保持電子零件,所述導引部對電子零件的移動進行限制,所述拾取筒夾從供給部拾取電子零件,並轉交給安裝頭;反轉驅動部,使拾取筒夾反轉;移送機構,將拾取筒夾移送至安裝頭;零件側拍攝部,拍攝反轉的電子零件的外形;及定位機構,基於所拍攝到的電子零件的外形,將安裝頭定位於電子零件,並將電子零件轉交給安裝頭後,將安裝頭定位於安裝位置。The present invention provides an operating device, an installation device, and an installation method for electronic parts that can pick up electronic parts in a non-contact manner and position the electronic parts at an installation position. The operation device of the embodiment includes: a mounting head for mounting electronic components on a substrate at a mounting position; and a pick-up collet including a porous member and a guide part. The porous member ejects gas and passes through the suction hole. The negative pressure holds the electronic parts in a non-contact manner, the guide part limits the movement of the electronic parts, the pick-up collet picks up the electronic parts from the supply part and transfers them to the mounting head; the reverse drive part makes the pick-up tube The clamp is reversed; the transfer mechanism transfers the pick-up collet to the mounting head; the component side imaging unit captures the appearance of the reversed electronic component; and the positioning mechanism positions the mounting head to the electronic component based on the captured appearance of the electronic component. parts, and after transferring the electronic parts to the mounting head, position the mounting head in the mounting position.
Description
本發明涉及一種電子零件的操作裝置、電子零件的安裝裝置及電子零件的安裝方法。The invention relates to an operating device for electronic parts, an installation device for electronic parts, and an installation method for electronic parts.
在將邏輯器件、記憶體、圖像感測器等作為半導體元件的電子零件安裝在基板上時,通過切斷形成有半導體元件的晶片而製成單片化的晶片。然後,通過移送裝置將所述晶片逐一拾取,移送至基板,並利用安裝機構進行安裝。作為將這種半導體安裝于基板時所使用的安裝裝置,提出了各種裝置。作為其中一種,已知有包括晶片等電子零件的操作裝置、供給部、基板支撐機構、及該些的控制裝置的裝置。而且,在操作裝置設置有安裝機構、基板側拍攝部、零件側拍攝部、移載裝置。移送裝置進行以下作業:從供給裝置拾取電子零件,並將所拾取的電子零件交接至安裝裝置。When electronic components, such as logic devices, memories, and image sensors, which are semiconductor elements, are mounted on a substrate, the wafer on which the semiconductor elements are formed is cut into individual wafers. Then, the wafers are picked up one by one by a transfer device, transferred to the substrate, and mounted using a mounting mechanism. Various devices have been proposed as mounting devices used when mounting such semiconductors on a substrate. As one of them, a device including an operating device for electronic components such as wafers, a supply unit, a substrate supporting mechanism, and a control device for these is known. Furthermore, the operating device is provided with a mounting mechanism, a substrate side imaging unit, a component side imaging unit, and a transfer device. The transfer device picks up electronic components from the supply device and delivers the picked-up electronic components to the mounting device.
作為晶片的其中一面的表面成為形成有微細的回路的功能面。在從晶片拾取所述晶片時,若拾取的構件與功能面直接接觸,則回路等有破損的擔心,因此有希望避免接觸的要求。One surface of the wafer becomes a functional surface on which fine circuits are formed. When the wafer is picked up from the wafer, if the picked-up member comes into direct contact with the functional surface, there is a risk of damage to the circuit, etc., so there is a demand to avoid contact.
而且,還使晶片的表面的連接端子與基板的連接端子相向地接合。此時,為了確保並提高連接端子彼此的接合性,有時對晶片的表面進行等離子體處理或表面活性化處理等表面處理。為了維持進行了這種處理的晶片的表面狀態,也有希望避免拾取的構件與晶片的表面直接接觸的要求。Furthermore, the connection terminals on the surface of the wafer and the connection terminals on the substrate are joined to face each other. At this time, in order to ensure and improve the bonding properties between the connection terminals, the surface of the wafer may be subjected to surface treatment such as plasma treatment or surface activation treatment. In order to maintain the surface condition of the wafer subjected to such processing, there is also a requirement to avoid direct contact between the picked-up member and the surface of the wafer.
為了應對使構件不與晶片的表面接觸的要求,以往在作為拾取晶片的構件的筒夾中,將保持晶片的面設為錐面,以並非晶片的表面而是僅周邊部與筒夾的錐面接觸的狀態從晶片的中央被抽吸保持(參照專利文獻1)。 [現有技術文獻] [專利文獻] In order to cope with the requirement that the member does not come into contact with the surface of the wafer, conventionally, in a collet as a member for picking up a wafer, the surface holding the wafer is made into a tapered surface, so that only the peripheral portion of the collet is tapered with the collet, not the surface of the wafer. The state of surface contact is sucked and maintained from the center of the wafer (see Patent Document 1). [Prior art documents] [Patent Document]
[專利文獻1] 日本專利實開昭63-124746號公報[Patent Document 1] Japanese Patent Application Publication No. Sho 63-124746
[發明所要解決的問題] 但是,在如所述那樣的現有技術中,僅在晶片的周邊部與筒夾接觸,從晶片的中央部進行抽吸。因此,晶片容易發生應變,有可能產生晶片的缺損、破裂。而且,筒夾與晶片周邊的邊緣部分接觸,利用所述接觸部分支撐被抽吸的晶片,因此應力集中於周邊部,而容易產生缺損、破裂。進而,由於在抽吸保持的狀態下晶片的保持位置被固定,故而於在抽吸保持時發生偏移或傾斜的情況下,在其後交接至安裝裝置時無法修正。 [Problem to be solved by the invention] However, in the conventional technology as described above, only the peripheral portion of the wafer comes into contact with the collet, and suction is performed from the center portion of the wafer. Therefore, the wafer is prone to strain, which may lead to chip defects or cracks. Furthermore, the collet is in contact with the peripheral edge portion of the wafer, and the contact portion is used to support the sucked wafer. Therefore, stress is concentrated on the peripheral portion, which easily causes defects and cracks. Furthermore, since the holding position of the wafer is fixed in the suction-holding state, if the wafer is shifted or tilted during the suction-holding, it cannot be corrected when it is later transferred to the mounting device.
本發明的實施方式是為了解決如上所述的課題而提出,其目的在於提供一種以非接觸方式拾取電子零件、並且能夠進行安裝位置處的定位的電子零件的操作裝置、電子零件的安裝裝置及電子零件的安裝方法。Embodiments of the present invention are proposed to solve the above-mentioned problems, and an object thereof is to provide an electronic component operating device, an electronic component mounting device, and an electronic component operating device that can pick up electronic components in a non-contact manner and position the mounting position. How to install electronic components.
[解決問題的技術手段] 本發明實施方式的電子零件的操作裝置包括:安裝頭,在安裝位置處將電子零件安裝於基板;拾取筒夾,包括多孔質構件與導引部,所述多孔質構件從細孔噴出氣體,並且通過抽吸孔的負壓以非接觸的方式保持電子零件,所述導引部對以非接觸的方式保持的電子零件的移動進行限制,所述拾取筒夾從供給所述電子零件的供給部拾取所述電子零件,並轉交給所述安裝頭;反轉驅動部,使所述拾取筒夾從供給位置起反轉;移送機構,在所述供給部與所述安裝頭之間移送所述拾取筒夾;零件側拍攝部,拍攝由反轉的拾取筒夾所保持的所述電子零件的外形;及定位機構,基於由所述零件側拍攝部所拍攝到的所述電子零件的外形,將所述安裝頭定位於由所述拾取筒夾保持的所述電子零件,將所述電子零件從所述拾取筒夾交接至所述安裝頭後,將所述安裝頭定位於所述安裝位置。 [Technical means to solve problems] An electronic component operating device according to an embodiment of the present invention includes: a mounting head for mounting electronic components on a substrate at a mounting position; a pickup collet including a porous member that ejects gas from pores and a guide portion; And the electronic parts are held in a non-contact manner by the negative pressure of the suction hole, the guide portion restricts the movement of the electronic parts held in a non-contact manner, and the pickup collet is supplied from the supply of the electronic parts The electronic part is picked up by the part and transferred to the mounting head; the reversal drive part is used to reverse the pickup collet from the supply position; the transfer mechanism is used to transfer the electronic parts between the supply part and the mounting head. the pickup collet; a component-side imaging unit that photographs the appearance of the electronic component held by the inverted pickup collet; and a positioning mechanism based on the appearance of the electronic component photographed by the component-side imaging unit , position the mounting head on the electronic component held by the pickup collet, and after transferring the electronic component from the pickup collet to the mounting head, position the mounting head on the mounting Location.
本發明實施方式的電子零件的安裝裝置包括安裝機構,所述安裝機構包括所述電子零件的操作裝置,且將由所述定位機構所定位的所述電子零件在所述安裝位置處安裝於所述基板。An electronic component mounting device according to an embodiment of the present invention includes a mounting mechanism that includes an operating device for the electronic component, and the electronic component positioned by the positioning mechanism is mounted on the mounting position. substrate.
本發明實施方式的電子零件的安裝方法是一種將基板與電子零件定位並安裝的安裝方法,包括多孔質構件與導引部的拾取筒夾從所述電子零件的供給部拾取所述電子零件,所述多孔質構件從細孔噴出氣體,並且通過抽吸孔的負壓以非接觸的方式保持所述電子零件,所述導引部對所保持的所述電子零件的移動進行限制,反轉驅動部使拾取了所述電子零件的所述拾取筒夾反轉,移送機構將拾取了所述電子零件的所述拾取筒夾移送至用於將所述電子零件安裝於基板的安裝頭,零件側拍攝部拍攝由反轉的所述拾取筒夾保持的所述電子零件的外形,定位機構基於由所述零件側拍攝部所拍攝到的所述電子零件的外形,將所述安裝頭定位於由所述拾取筒夾保持的所述電子零件,通過所述拾取筒夾與所述安裝頭的相對移動,將所述電子零件從所述拾取筒夾交接至所述安裝頭,所述定位機構將被交接並保持有所述電子零件的所述安裝頭定位於用以將所述電子零件安裝於所述基板的安裝位置,在通過基板支撐機構使所述基板從所述安裝位置退避的狀態下,基板側拍攝部拍攝由所述安裝頭保持的所述電子零件的標記,所述零件側拍攝部拍攝通過所述基板支撐機構而定位於所述安裝位置的所述基板的標記的圖像,所述定位機構基於根據由所述零件側拍攝部及所述基板側拍攝部所拍攝到的標記的圖像求出的所述基板與所述電子零件的位置,進行所述基板與所述電子零件的定位。The mounting method of electronic components according to the embodiment of the present invention is an installation method for positioning and mounting a substrate and electronic components. A pick-up collet including a porous member and a guide portion picks up the electronic components from a supply portion of the electronic components, The porous member ejects gas from the pores and holds the electronic components in a non-contact manner through the negative pressure of the suction holes. The guide portion restricts the movement of the held electronic components and reverses the movement. The drive unit reverses the pickup collet that picked up the electronic component, and the transfer mechanism transfers the pickup collet that picked up the electronic component to a mounting head for mounting the electronic component on the substrate. The component The side imaging unit photographs the outer shape of the electronic component held by the inverted pickup collet, and the positioning mechanism positions the mounting head based on the outer shape of the electronic component photographed by the component side imaging unit. The electronic components held by the pickup collet are transferred from the pickup collet to the mounting head through the relative movement of the pickup collet and the mounting head. The positioning mechanism The mounting head with the electronic component delivered and held is positioned at a mounting position for mounting the electronic component on the substrate, and the substrate is retracted from the mounting position by the substrate support mechanism. Next, the substrate-side imaging unit captures an image of the mark of the electronic component held by the mounting head, and the component-side imaging unit captures an image of the mark of the substrate positioned at the mounting position by the substrate support mechanism. , the positioning mechanism performs the positioning of the substrate and the electronic component based on the positions of the substrate and the electronic component calculated from the image of the mark captured by the component-side imaging unit and the substrate-side imaging unit. Positioning of electronic parts.
[發明的效果] 本發明的實施方式可提供一種以非接觸方式拾取電子零件、並且能夠進行安裝位置處的定位的電子零件的操作裝置、電子零件的安裝裝置及電子零件的安裝方法。 [Effects of the invention] Embodiments of the present invention can provide an electronic component operating device, an electronic component mounting device, and an electronic component mounting method that can pick up electronic components in a non-contact manner and position the electronic components at a mounting position.
以下,參照圖式對本發明的實施方式進行說明。如圖1及圖2所示,本實施方式是將電子零件C安裝於基板S的安裝裝置1。圖1是表示安裝裝置1的概略結構的正面圖。圖2是表示電子零件C及基板S的平面圖。另外,圖式是示意圖,各部的尺寸(以下也稱為尺碼)、形狀、各部的相互尺寸的比率等有時不同于現實。Hereinafter, embodiments of the present invention will be described with reference to the drawings. As shown in FIGS. 1 and 2 , this embodiment is a mounting device 1 for mounting an electronic component C on a substrate S. FIG. 1 is a front view showing the schematic structure of the mounting device 1 . FIG. 2 is a plan view showing the electronic component C and the substrate S. FIG. In addition, the drawings are schematic diagrams, and the dimensions (hereinafter also referred to as sizes) and shapes of each part, the ratio of mutual dimensions of each part, etc. may differ from reality.
[電子零件] 首先,成為本實施方式的安裝物件的電子零件C例如可列舉積體電路(Integrated Circuit,IC)或大型積體電路(Large Scale Integration,LSI)等半導體元件。如圖2所示,本實施方式使用長方體形狀的半導體晶片作為半導體元件。半導體晶片是通過將半導體晶片切斷成小方塊狀的切晶而單片化的裸晶片。裸晶片在表背中的一面具有作為半導體元件發揮功能的功能面。在功能面側的表面設置有凸塊或無凸塊的電極,通過接合於基板S上的電極焊墊的倒裝晶片連接而安裝。 [Electronic parts] First, the electronic component C used as the mounting object in this embodiment may be a semiconductor element such as an integrated circuit (IC) or a large scale integrated circuit (LSI). As shown in FIG. 2 , this embodiment uses a rectangular parallelepiped-shaped semiconductor wafer as a semiconductor element. A semiconductor wafer is a bare wafer that is singulated by cutting the semiconductor wafer into small square dice. One side of the bare chip has a functional side that functions as a semiconductor element. Bumps or bumpless electrodes are provided on the functional surface side, and are mounted by flip-chip connection to electrode pads on the substrate S.
在電子零件C上設置有用於定位的多個標記m。在本實施方式中,以在成為矩形狀的電子零件C的對角的一對角部各一個的方式設置有兩個標記m。標記m設置於電子零件C的形成有電極的面、即面部(face)。本實施方式為用於將面部側朝向基板S安裝的面朝下安裝的裝置的一例。The electronic component C is provided with a plurality of marks m for positioning. In this embodiment, two marks m are provided, one each at a pair of opposite corner portions of the rectangular electronic component C. The mark m is provided on the surface of the electronic component C on which the electrode is formed, that is, the face. This embodiment is an example of a face-down mounting device for mounting the surface side toward the substrate S.
[基板] 在本實施方式中,如圖2所示,安裝如上所述的電子零件C的基板S為形成有印刷線路等的樹脂制等板狀構件、或形成有回路圖案的矽基板等。在基板S上設置有安裝基板S的區域即安裝區域B,在安裝區域B的外側設置有用於定位的多個標記M。在本實施方式中,兩個標記M設置於安裝區域B的外側且與電子零件C的標記m相對應的位置。 [Substrate] In this embodiment, as shown in FIG. 2 , the substrate S on which the electronic component C is mounted is a resin plate-shaped member on which printed wiring or the like is formed, or a silicon substrate on which a circuit pattern is formed. The substrate S is provided with a mounting area B, which is an area where the substrate S is mounted, and a plurality of marks M for positioning are provided outside the mounting area B. In this embodiment, two marks M are provided outside the mounting area B at positions corresponding to the marks m of the electronic component C.
[安裝裝置]
本實施方式的安裝裝置1是高精度、例如能夠實現±0.2 μm以下的安裝精度的安裝的安裝裝置1,如圖1、圖3的(A)及圖3的(B)所示,具有基板支撐機構2、安裝機構3、基板側拍攝部4、零件側拍攝部5、供給部6、移送裝置7、控制裝置8。操作裝置用於這種安裝裝置1,包括安裝機構3、基板側拍攝部4、零件側拍攝部5、移送裝置7的一部分或全部。圖3的(A)是安裝裝置1的平面圖,圖3的(B)是表示透射下文所述的安裝頭31的標記M的平面圖。
[install device]
The mounting device 1 of this embodiment is a mounting device 1 that can achieve high-precision mounting, for example, a mounting accuracy of ±0.2 μm or less. As shown in FIGS. 1 , 3(A) and 3(B) , it has a substrate. Support mechanism 2 , mounting mechanism 3 , substrate
另外,在以下說明中,將安裝機構3為了將電子零件C安裝於基板S而使其移動的方向設為Z軸,將與其正交的平面中彼此正交的兩軸設為X軸及Y軸。在本實施方式中,Z軸豎直,將順著重力的方向設為下方,將與重力相抗的方向設為上方,將Z軸上的位置稱為高度。而且,X軸及Y軸處於水平面上,從圖1的正面側觀察,X軸為左右方向,Y軸為深度方向。但,本發明不限定於所述設置方向。不論設置方向如何,以基板S或基板支撐機構2為基準,將安裝電子零件C一側稱為上側,將其相反側稱為下側。In addition, in the following description, the direction in which the mounting mechanism 3 moves in order to mount the electronic component C on the substrate S is referred to as the Z axis, and two axes orthogonal to each other in a plane orthogonal thereto are referred to as the X axis and the Y axis. axis. In this embodiment, the Z-axis is vertical, the direction along the gravity is called downward, the direction against gravity is called upward, and the position on the Z-axis is called height. Moreover, the X-axis and the Y-axis are on a horizontal plane. When viewed from the front side of FIG. 1 , the X-axis is in the left-right direction and the Y-axis is in the depth direction. However, the present invention is not limited to the installation direction. Regardless of the installation direction, with the substrate S or the substrate support mechanism 2 as a reference, the side on which the electronic component C is mounted is called the upper side, and the opposite side is called the lower side.
基板支撐機構2是支撐安裝電子零件C的基板S的機構,為所謂的基板載台。安裝機構3是將電子零件C安裝於基板S的機構。安裝機構3具有安裝頭31。安裝頭31具有透射部,所述透射部能夠在保持電子零件C的狀態下,透射並識別與電子零件C相向的基板S的標記M。The substrate support mechanism 2 is a mechanism that supports the substrate S on which the electronic component C is mounted, and is a so-called substrate stage. The mounting mechanism 3 is a mechanism for mounting the electronic component C on the substrate S. The mounting mechanism 3 has a mounting
基板側拍攝部4配置於安裝頭31將電子零件C安裝於基板S的安裝位置OA中基板支撐機構2的下側處,在通過基板支撐機構2使基板S從安裝位置OA退避的狀態下,從與電子零件C相向的位置、即下方拍攝由安裝頭31保持的電子零件C的標記m。安裝位置OA是將電子零件C安裝於基板S的位置,圖中以沿著穿過所安裝的電子零件C的區域內的XY座標上的點(例如中心點)的Z軸的方向的單點劃線表示。如下文所述,安裝位置OA與基板側拍攝部4、零件側拍攝部5的照相機的光軸一致。The substrate-
零件側拍攝部5配置於安裝位置OA中安裝頭31的上側處,經過安裝頭31的透射部而拍攝基板S的標記M(以下將這種情況稱為“隔著安裝頭31進行拍攝”)。基於以所述方式拍攝到的圖像,可進行標記m、標記M的檢測即標記m、標記M的識別。而且,零件側拍攝部5隔著安裝頭31拍攝由下文所述的移送頭71的拾取筒夾700保持的電子零件C的外形。The component-
另外,基板支撐機構2、安裝機構3分別具有定位機構。定位機構基於零件側拍攝部5所拍攝到的電子零件C的外形,進行相對於由拾取筒夾700保持的電子零件C的安裝頭31的定位。而且,定位機構基於根據基板側拍攝部4、零件側拍攝部5所拍攝到的標記m、標記M的圖像所求出的基板S與電子零件C的位置,進行基板S與由安裝頭31保持的電子零件C的定位。如以上的安裝裝置1的各部搭載于設置於設置面的支撐台11。支撐台11的頂面成為水平面。In addition, the substrate support mechanism 2 and the mounting mechanism 3 each have a positioning mechanism. The positioning mechanism positions the mounting
供給部6供給電子零件C。移送裝置7將電子零件C從供給部6移送至安裝位置OA。移送裝置7具有移送頭71、移送機構73。移送頭71從供給部6拾取電子零件C,使其反轉並轉交給安裝頭31。移送機構73在通過基板支撐機構2使基板S從安裝位置OA退避所形成的空間中使移送頭71移動而定位於安裝位置OA。The supply unit 6 supplies electronic components C. The transfer device 7 transfers the electronic component C from the supply unit 6 to the mounting position OA. The transfer device 7 has a transfer head 71 and a transfer mechanism 73 . The transfer head 71 picks up the electronic component C from the supply unit 6 , reverses it, and transfers it to the mounting
控制裝置8控制安裝裝置1的動作。所述控制裝置8例如包括電子回路或以規定的程式運行的電腦等。即,控制裝置8是由可程式設計邏輯控制器(programmable logic controller,PLC)或中央處理器(central processing unit,CPU)等處理裝置從存儲裝置中讀取程式及資料等來執行安裝裝置1的控制。以下,對各部進行詳細說明。The control device 8 controls the operation of the mounting device 1 . The control device 8 includes, for example, an electronic circuit or a computer running a predetermined program. That is, the control device 8 uses a processing device such as a programmable logic controller (PLC) or a central processing unit (CPU) to read programs and data from the storage device to execute the installation device 1 control. Each part is explained in detail below.
(基板支撐機構)
如圖1及圖3的(A)所示,基板支撐機構2配置於支撐台11,具有載台21、驅動機構22。載台21是載置基板S的板狀的構件。驅動機構22是雙軸移動機構,例如具有X軸方向的導軌22a、Y軸方向的導軌22b,以未圖示的馬達作為驅動源,通過傳送帶或滾珠絲杠使載台21在水平面內移動。所述驅動機構22作為定位基板S的定位機構發揮功能。另外,雖然省略了圖示,但驅動機構22包括使載台21在水平面內旋轉移動的θ驅動機構。
(Substrate support mechanism)
As shown in (A) of FIG. 1 and FIG. 3 , the substrate supporting mechanism 2 is arranged on the supporting table 11 and has a
驅動機構22包括沿著導軌22b在Y軸方向上移動的移動板23而構成。在所述移動板23上形成有貫穿孔23a,以使基板側拍攝部4能夠拍攝電子零件C。The drive mechanism 22 includes a moving plate 23 that moves in the Y-axis direction along the guide rail 22b. A through hole 23 a is formed in the movable plate 23 so that the substrate
另外,雖未圖示,但在基板支撐機構2的載台21的X軸方向上的其中一移動端(具體而言為圖示右側的移動端)設置有將基板S供給/存放於載台21的裝載器/卸載器。因此,基板支撐機構2在使載台21移動至所述移動端的狀態下,接收從裝載器供給基板S或將基板S轉交給卸載器。In addition, although not shown in the figure, one of the moving ends in the X-axis direction of the
(安裝機構)
安裝機構3具有安裝頭31、驅動機構32。安裝頭31大致為長方體形狀,具有作為透射部的中空部31a及保持部31b。中空部31a是以Z軸方向為軸所形成的圓柱形狀的貫穿孔。保持部31b是用於拍攝的光能夠透射的板狀構件,以堵塞中空部31a中朝向基板S一側的開口的方式安裝。例如,使用透明的玻璃板作為保持部31b。保持部31b是所謂的安裝工具,保持電子零件C。
(installation mechanism)
The mounting mechanism 3 has a mounting
如圖3的(B)所示,在保持部31b的中央設置有用來吸附保持電子零件C的吸附區域D。圖中以雙點劃線表示吸附區域D及其中心線。所述吸附區域D是利用保持部31b保持電子零件C的位置。雖未圖示,但在吸附區域D形成有吸附孔。在保持部31b的內部形成有用來將吸附孔連通於負壓源的流路,以通過使吸附孔產生負壓而能夠吸附保持電子零件C的方式設置。保持部31b的吸附區域D及其周圍成為能夠透射拍攝由拾取筒夾700保持的電子零件C的透射區域T。而且,即使在吸附區域D吸附電子零件C的情況下,通過吸附區域D的周圍的透射區域T也能夠透射拍攝基板S的標記M。即,安裝頭31具有透明的部分,以能夠通過零件側拍攝部5拍攝電子零件C的外形、基板S的標記M。另外,將保持部31b的保持電子零件C的保持面(吸附面)稱為下端面。As shown in FIG. 3(B) , an adsorption area D for adsorbing and holding the electronic component C is provided in the center of the holding
驅動機構32包括移動體33、移動體34、移動體35而構成,為驅動安裝頭31的機構。移動體33以能夠沿著設置於支撐台11的Y軸方向的導軌33a移動的方式設置。移動體34以能夠沿著設置於移動體33的頂面的X軸方向的導軌34a移動的方式設置。移動體35以能夠沿著設置於移動體34的正面的Z軸方向的導軌35a移動的方式設置。移動體35在俯視下大致呈凹形狀地形成。該些移動體33、移動體34、移動體35是由以馬達作為驅動源的滾珠絲杠或線性馬達、或者壓缸等所驅動。The driving mechanism 32 is composed of a moving body 33 , a moving body 34 , and a moving body 35 , and is a mechanism that drives the mounting
安裝頭31設置於沿著Z軸方向移動的移動體35的下部。因此,移動體35進行用來將由安裝頭31的保持部31b保持的電子零件C安裝於基板S的動作。而且,設置有安裝頭31的移動體35通過移動體33、移動體34的移動而沿著X軸方向、Y軸方向移動。因此,驅動機構32作為定位安裝頭31所保持的電子零件C的定位機構發揮功能。另外,雖然省略了圖示,但驅動機構32包括使安裝頭31在水平面內旋轉移動的θ驅動機構。The mounting
另外,在本實施方式中,就防止移動誤差的觀點而言,優選將利用驅動機構32產生的X軸方向、Y軸方向及Z軸方向的移動量設定為儘量短。例如,將移動體33、移動體34的X軸方向、Y軸方向的移動量分別設定為幾毫米~十幾毫米。而且,也將移動體35的Z軸方向的移動量設定為幾毫米~十幾毫米左右。即,安裝頭31在相對於載置於載台21的基板S的上表面而保持部31b的下端面成為幾毫米、例如1 mm~2 mm的相向間隔(上下方向的分離距離)的高度位置處進行電子零件C的接收或所接收到的電子零件C的標記m的拍攝。因此,關於移動體35的Z軸方向的移動量,可確保至少從所述高度位置能夠以規定的加壓力加壓而將由保持部31b保持的電子零件C安裝於基板S的移動量即可。In addition, in this embodiment, from the viewpoint of preventing movement errors, it is preferable to set the movement amounts in the X-axis direction, Y-axis direction, and Z-axis direction by the drive mechanism 32 to be as short as possible. For example, the movement amounts of the moving body 33 and the moving body 34 in the X-axis direction and the Y-axis direction are respectively set to several millimeters to more than ten millimeters. Furthermore, the amount of movement of the moving body 35 in the Z-axis direction is also set to about several millimeters to about ten millimeters. That is, the mounting
(基板側拍攝部)
基板側拍攝部4具有照相機、透鏡、鏡筒、光源等,固定於支撐台11上所設置的收容孔11a。基板側拍攝部4將照相機的光軸配置在能夠拍攝由安裝頭31保持的電子零件C的標記m的方向上。具體而言,以光軸成為垂直方向的方式進行配置。在本實施方式中,基板側拍攝部4在使照相機的光軸與安裝位置OA一致的狀態下朝上配置于作為基板支撐機構2的下側的位置的支撐台11的收容孔11a內。基板側拍攝部4在為了使拾取筒夾700轉交電子零件C而與安裝頭31相向的情況下,以電子零件C落入拍攝視野的方式固定於支撐台11。而且,基板側拍攝部4以拍攝由安裝頭31保持的電子零件C的標記m並識別其位置的精度成為所需的精度的方式設置拍攝的倍率。當然,具有能夠拍攝到標記m的程度的視野範圍。而且,所述視野範圍是也考慮了由安裝頭31保持電子零件C的位置的不均、即保持位置精度而設定。進而,在拍攝多個標記m並識別由安裝頭31保持的電子零件C的位置的情況下,也可以設為如能夠同時拍攝多個標記m那樣的視野範圍。這種倍率或視野範圍可基於所需的定位精度而適當決定。
(Substrate side imaging unit)
The substrate-
(零件側拍攝部)
零件側拍攝部5具有照相機、透鏡、鏡筒、光源等,在支撐台11的上方、更具體而言為安裝頭31的上方的位置處由未圖示的框架等支撐。零件側拍攝部5將照相機的光軸配置在能夠透射安裝頭31的保持部31b而拍攝基板S的安裝區域B的周圍的標記M的方向上。即,在本實施方式中,零件側拍攝部5在使照相機的光軸與安裝位置OA一致的狀態下朝下配置於安裝頭31的正上方的位置。零件側拍攝部5以拍攝對載置於載台21的基板S的安裝區域B標注的標記M並識別其位置的精度成為所需的精度的方式設置拍攝的倍率。而且,與此同時,零件側拍攝部5的拍攝視野以相對於基板S的安裝區域B而包括標注於其對角的兩個標記M的方式設定。進而,所述拍攝視野的範圍也考慮了將基板S載置於載台21的位置的不均、即載置位置精度而設定。
(Parts side photography department)
The component-
而且,零件側拍攝部5在拾取筒夾700為了轉交電子零件C而與安裝頭31相向的狀態下可拍攝電子零件C的外形。因此,零件側拍攝部5的拍攝視野也考慮了保持於拾取筒夾700的狀態的電子零件C可最大限度地移動的範圍而設定。此時,相較於電子零件C的外形尺寸,相對於基板S的安裝區域B而標注於其對角的兩個標記M所形成的區域更大,因此榮光利用相同的零件側拍攝部5拍攝兩個標記M與電子零件C的外形。但是,在相對於基板S所需的識別精度的拍攝倍率與拍攝視野和相對於電子零件C的外形的識別精度的拍攝倍率與拍攝視野大不相同的情況下,例如可使用變焦透鏡適當決定倍率與拍攝視野。而且,若為必要,也可以通過設置透鏡移動機構或鏡筒移動機構等調焦機構,來調整伴隨倍率變更而移動的焦點位置。另外,在零件側拍攝部5拍攝電子零件C的外形時,優選將電子零件C的表面的高度位置設為與存在標記M的基板S的表面的高度位置相同。由此,在拍攝電子零件C的外形時,無需調整焦點位置。Furthermore, the component-
(供給部) 供給部6具有支撐機構61、驅動機構62。支撐機構61是支撐貼附有電子零件C的晶圓片WS的裝置。驅動機構62使支撐機構61沿著X軸方向及Y軸方向移動。將供給部6中搭載有電子零件C的面(區域)稱為載置面F。在本實施方式中,電子零件C是將貼附於晶圓片WS的晶片通過切晶而分割成單片而成的。因此,晶圓片WS的貼附有電子零件C的面(晶片的面)為載置面F。晶圓片WS貼附於未圖示的貼片環(wafer ring)。支撐機構61具有裝設貼片環的環保持器61a。即,也可以認為支撐機構61中支撐晶圓片WS的面是載置面F。 (Supply Department) The supply part 6 has a support mechanism 61 and a drive mechanism 62 . The support mechanism 61 is a device that supports the wafer WS on which the electronic component C is attached. The driving mechanism 62 moves the support mechanism 61 along the X-axis direction and the Y-axis direction. The surface (region) in the supply part 6 on which the electronic component C is mounted is called a mounting surface F. In this embodiment, the electronic component C is obtained by dividing a wafer attached to the wafer WS into individual pieces by dicing. Therefore, the surface of the wafer WS on which the electronic component C is attached (wafer surface) is the mounting surface F. The wafer WS is attached to a wafer ring (not shown). The support mechanism 61 has a ring holder 61a to which a patch ring is mounted. That is, the surface of the support mechanism 61 that supports the wafer WS can also be considered as the mounting surface F.
另外,雖未圖示,但在支撐機構61的Y軸方向上的其中一移動端(具體而言為圖示正面側的移動端)設置有將貼片環供給/存放於環保持器61a的裝載器/卸載器。支撐機構61在移動至所述移動端的狀態下,接收從裝載器供給貼片環或將貼片環轉交給卸載器。In addition, although not shown in the figure, one of the moving ends in the Y-axis direction of the support mechanism 61 (specifically, the moving end on the front side in the figure) is provided with a device for supplying/storing patch rings to the ring holder 61a. Loader/Unloader. The support mechanism 61 receives the patch ring supplied from the loader or transfers the patch ring to the unloader in a state of moving to the moving end.
而且,雖未圖示,但支撐機構61具有通過拉伸晶圓片WS而在電子零件C之間空出間隙的擴張機構、通過夾住經拉伸的晶圓片WS將電子零件C個別上推而分離的上推機構。進而,支撐機構61包括使環保持器61a在水平面內旋轉移動的θ驅動機構。另外,上推機構固定配置於支撐台11上,在所述位置(供給位置)利用移送裝置7從供給部6接收電子零件C、即進行拾取。Furthermore, although not shown in the figure, the support mechanism 61 has an expansion mechanism that creates a gap between the electronic components C by stretching the wafer WS, and clamps the stretched wafer WS to individually mount the electronic components C. A push-up mechanism that pushes and separates. Furthermore, the support mechanism 61 includes a θ drive mechanism that rotates the ring holder 61a in a horizontal plane. In addition, the push-up mechanism is fixedly arranged on the support base 11 , and the electronic component C is received, that is, picked up, from the supply unit 6 by the transfer device 7 at the above-mentioned position (supply position).
驅動機構62使支撐機構61沿著規定的方向移動。例如,驅動機構62具有X軸方向的導軌62a及Y軸方向的導軌62b,以未圖示的馬達作為驅動源,通過傳送帶或滾珠絲杠使支撐機構61在水平面內沿著X軸、Y軸方向移動。所述驅動機構62作為相對於移送頭71而定位電子零件C的定位機構發揮功能。另外,驅動機構62配置於比載置面F的高度位置L(參照圖5)更低的位置。The drive mechanism 62 moves the support mechanism 61 in a predetermined direction. For example, the driving mechanism 62 has a guide rail 62a in the X-axis direction and a guide rail 62b in the Y-axis direction, and uses a motor (not shown) as a driving source to move the support mechanism 61 along the X-axis and Y-axis in the horizontal plane through a conveyor belt or a ball screw. direction movement. The drive mechanism 62 functions as a positioning mechanism for positioning the electronic component C with respect to the transfer head 71 . In addition, the drive mechanism 62 is arranged at a lower position than the height position L of the mounting surface F (see FIG. 5 ).
(移送裝置)
移送裝置7將電子零件C移送至安裝裝置1。移送裝置7具有移送頭71、臂部72、移送機構73。如圖3的(A)所示,移送頭71具有拾取筒夾700、反轉驅動部710。如圖4的(A)~圖6所示,拾取筒夾700是抽吸保持電子零件C並且解除抽吸保持而釋放電子零件C的構件。拾取筒夾700具有多孔質構件701、基座702、導引部703。在本實施方式中,通過移送裝置7,使拾取筒夾700移動並將電子零件C交接至安裝頭31。但,用於交接的移動為相對移動即可,拾取筒夾700及安裝頭31的任意一者或兩者均可移動。
(transfer device)
The transfer device 7 transfers the electronic component C to the mounting device 1 . The transfer device 7 has a transfer head 71 , an
多孔質構件701是具有通氣性且經由與電子零件C相向的相向面701a的細孔供給被供給至內部的氣體的構件(另外,在以下說明中,對向電子零件C供給的氣體標注符號G進行圖示)。本實施方式的多孔質構件701為長方體的板形狀,整體上緻密且大致均一地形成有連通的微細的空間。多孔質構件701通過所述結構而具有通氣性,但其流導率非常小。多孔質構件701的任一面成為相向面701a,若從與相向面701a相反側的背面701b向內部供給氣體,則會從相向面701a的緻密且均等地存在的細孔中噴出氣體。所述噴出成為向噴出的相向面701a的整個面擴展的實質上為面狀的噴出。所述噴出極為緩慢,可以說是滲出來的感覺,是靠近手指稍微感覺到氣流的程度。另外,相向面701a與背面701b以外的面的細孔也可以堵塞。The porous member 701 is a member that has air permeability and supplies gas supplied to the inside through the pores of the opposing surface 701 a facing the electronic component C (in addition, in the following description, the gas supplied to the electronic component C is denoted by the symbol G (illustrated). The porous member 701 of this embodiment has a rectangular parallelepiped plate shape, and is densely and substantially uniformly formed with interconnected fine spaces as a whole. The porous member 701 has air permeability due to the above-mentioned structure, but its flow conductivity is very small. Either surface of the porous member 701 serves as the opposing surface 701a. If gas is supplied into the interior from the back surface 701b opposite to the opposing surface 701a, the gas will be ejected from the dense and uniform pores on the opposing surface 701a. The discharge is a substantially planar discharge that spreads over the entire surface of the facing surface 701 a of the discharge. The ejection is extremely slow, and it can be said to be an oozing feeling, to the extent that you can feel the airflow slightly when you get close to your finger. In addition, pores on surfaces other than the opposing surface 701a and the back surface 701b may be clogged.
多孔質構件701是如上所述作為內部的微細空間的細孔彼此連通且氣體能夠通過細孔間的連續結構體。作為這種多孔質構件701,可使用燒結金屬、陶瓷、樹脂等。就內部的粒子難以分離流出的觀點而言,優選設為燒結金屬。The porous member 701 is a continuous structure in which pores serving as internal microspaces are connected to each other and gas can pass between the pores as described above. As this porous member 701, sintered metal, ceramics, resin, etc. can be used. From the viewpoint that the particles inside are difficult to separate and flow out, it is preferable to use sintered metal.
進而,如圖4的(A)、圖4的(B)及圖5所示,在多孔質構件701設置有抽吸孔701c,所述抽吸孔701c是在相向面701a具有開口701d且通過負壓抽吸電子零件C的貫穿孔。本實施方式的抽吸孔701c從背面701b的中央直線狀地貫穿至相向面701a的中央。Furthermore, as shown in FIGS. 4(A), 4(B), and 5, the porous member 701 is provided with a suction hole 701c having an opening 701d on the opposing surface 701a and passing through it. The through hole of the electronic component C is sucked by negative pressure. The suction hole 701c of this embodiment linearly penetrates from the center of the back surface 701b to the center of the opposing surface 701a.
基座702是覆蓋相向面701a以外的多孔質構件701的面的構件。本實施方式的基座702是下方開口的長方體形狀的箱。多孔質構件701從基座702的開口以底面成為相向面701a而露出的方式插入,組裝至基座702內並被固定。The base 702 is a member that covers the surfaces of the porous member 701 other than the facing surface 701a. The base 702 of this embodiment is a rectangular parallelepiped box with an open bottom. The porous member 701 is inserted from the opening of the base 702 so that the bottom surface becomes the facing surface 701a and is exposed, and is assembled into the base 702 and fixed.
如圖4的(A)、圖4的(B)及圖6所示,在基座702的頂面上設置有供氣孔702a、排氣孔702b、安裝孔702c。供氣孔702a是用於向多孔質構件701供氣的貫穿孔。供氣孔702a因與供氣孔702a連接的配管而形成於靠近基座702的外緣的位置。排氣孔702b是用於經由抽吸孔701c使開口701d產生負壓的貫穿孔。排氣孔702b向下方延伸,以與多孔質構件701的抽吸孔701c一致的方式形成。在排氣孔702b的周圍的基座702的內表面與多孔質構件701之間形成有氣體滯留的空間。另外,排氣孔702b也可以貫穿抽吸孔701c而到達相向面701a。在所述情況下,多孔質構件701的抽吸孔701c、開口701d以與到達多孔質構件701的相向面701a的排氣孔702b的外側密接的方式設置。安裝孔702c是在與後述的裝卸部704連接時用來防止偏移的一對凹陷孔。As shown in FIG. 4(A), FIG. 4(B), and FIG. 6, an air supply hole 702a, an exhaust hole 702b, and a mounting hole 702c are provided on the top surface of the base 702. The air supply hole 702a is a through hole for supplying air to the porous member 701. The air supply hole 702a is formed close to the outer edge of the base 702 by a pipe connected to the air supply hole 702a. The exhaust hole 702b is a through hole for generating negative pressure in the opening 701d via the suction hole 701c. The exhaust hole 702b extends downward and is formed to coincide with the suction hole 701c of the porous member 701. A space in which gas accumulates is formed between the inner surface of the base 702 and the porous member 701 around the exhaust hole 702b. In addition, the exhaust hole 702b may penetrate the suction hole 701c and reach the opposing surface 701a. In this case, the suction hole 701c and the opening 701d of the porous member 701 are provided in close contact with the outside of the exhaust hole 702b reaching the facing surface 701a of the porous member 701. The mounting hole 702c is a pair of recessed holes for preventing deviation when connecting to the attachment and detachment portion 704 described below.
供氣孔702a經由未圖示的配管連接於氣體的供給回路。供給回路包括氣體的供給源、泵、閥等而構成。此處,經由供氣孔702a供給至多孔質構件701的氣體設為惰性氣體。排氣孔702b經由未圖示的配管而與包括真空泵、閥等的負壓產生回路連通。The gas supply hole 702a is connected to a gas supply circuit via a pipe (not shown). The supply circuit is composed of a gas supply source, a pump, a valve, etc. Here, the gas supplied to the porous member 701 via the gas supply hole 702a is an inert gas. The exhaust hole 702b is connected to a negative pressure generating circuit including a vacuum pump, a valve, and the like via piping (not shown).
導引部703是以沿著電子零件C的外緣的方式沿著矩形基座702的側面的四條邊配置且對由相向面701a保持的電子零件C的移動進行限制的構件。例如如圖4的(A)、圖4的(B)、圖5及圖6所示,導引部703是沿著基座702的四個側面、即矩形的相向面701a的四條邊設置的多個板狀體。本實施方式的導引部703在相向面701a的各邊各設置有一個,但不限定於此。而且,由基座702構成的拾取筒夾700的外緣不限定於矩形。導引部703只要以能夠限制電子零件C的移動的方式而例如配置於沿著電子零件C的外緣的方向上即可,並不限定於沿著基座702的側面配置的形態。The
各導引部703具有比相向面701a突出的突出部分。導引部703從相向面701a突出的距離(突出量)只要能夠限制隔著氣體層由相向面701a保持的電子零件C的移動即可,為至少從相向面701a至隔著氣體層保持的電子零件C的程度以上即可。但,在成為所述導引部703的突出部分超過隔著氣體層由相向面701a保持的電子零件C而突出的距離的情況下,在從晶片拾取時,需要考慮到避免與所拾取的電子零件C的周圍的電子零件C接觸。因此,導引部703的突出部分從相向面701a突出的距離優選設為隔著氣體層由相向面701a保持的電子零件C的側面內。但,在為了拾取而拾取筒夾700接近晶圓片WS之前,通過所述上推機構經由晶圓片WS將電子零件C個別上推,由此能夠應對各種突出量而避免與周圍的電子零件C接觸。Each
另外,在以下說明中,將其中一正交的導引部703設為703K、703L,將另一正交的導引部703設為703M、703N,在不區分該些的情況下,以導引部703的形式進行說明。此處所謂的正交,包括相鄰的邊的兩個導引部703接觸或連續而形成直角的情況,也包括在一條邊上有多個導引部703且該些導引部703分離而兩者所沿著的直線(平面)正交的情況(參照圖14的(A)及圖14的(B))。In addition, in the following description, one of the
如圖7的(A)、圖7的(B)所示,反轉驅動部710使拾取筒夾700所吸附的電子零件C沿著上下方向反轉。即,拾取筒夾700以通過反轉驅動部710而能夠在朝向晶圓片WS的方向與朝向安裝頭31的方向之間轉動的方式設置。反轉驅動部710例如可使用旋轉馬達。As shown in FIGS. 7(A) and 7(B) , the reversal drive unit 710 reverses the electronic component C adsorbed by the
拾取筒夾700隔著旋轉體720、裝卸部704安裝於反轉驅動部710。旋轉體720連接於反轉驅動部710,以能夠以Y方向的軸為中心而旋轉的方式設置。裝卸部704安裝於旋轉體720,以能夠與旋轉體720一起旋轉的方式設置。裝卸部704在內部包括磁鐵,通過磁鐵的抽吸力吸附保持拾取筒夾700的基座702。如圖5及圖6所示,在裝卸部704的與基座702的接觸面設置有一對銷704a。通過將銷704a嵌入設置於基座702的安裝孔702c中,而防止拾取筒夾700相對於裝卸部704的偏移。另外,雖未圖示,但與排氣孔702b連接的配管通過裝卸部704內,與供氣孔702a連接的配管由裝卸部704支撐。The pick-up
而且,雖未圖示,但移送頭71具有緩衝構件,所述緩衝構件沿著上下方向驅動拾取筒夾700,並且在拾取筒夾700的前端與電子零件C接觸時,施加合適的荷重,並吸收過大的荷重。作為緩衝構件,例如可使用彈簧、橡膠等彈性構件、磁鐵、氣缸、阻尼器、音圈馬達等。Furthermore, although not shown in the figure, the transfer head 71 has a buffer member that drives the
臂部72是在一端設置有移送頭71的構件。如圖3的(A)所示,臂部72具有延伸部72a、基體部72b。延伸部72a是由沿著朝向正面的Y軸方向呈直線狀延伸的長方體形狀的構件與沿著朝向安裝機構3的X軸方向呈直線狀延伸的長方體形狀的構件形成為L字形的構件。反轉驅動部710以轉動軸成為Y軸方向的方式設置於延伸部72a的朝向安裝機構3的一端。通過將拾取筒夾700安裝於反轉驅動部710的轉動軸,而將拾取筒夾700設置為能夠轉動。基體部72b是與X軸方向平行的板狀體,固定於延伸部72a的另一端(參照圖8的(A)~圖8的(D))。The
連接於拾取筒夾700的用來供給負壓的管、連接於反轉驅動部710、緩衝構件的用於電性連接的線纜內置於臂部72。所謂內置是指通過被臂部72的外包裝覆蓋而不露出至外部。在本實施方式中,將管及線纜插入形成於臂部72的內部的中空部。A tube for supplying negative pressure connected to the
移送機構73通過驅動臂部72而使移送頭71在供給部6與安裝位置OA之間移動。移送機構73具有設置於俯視下不與載置面F重疊的位置的滑動部SL。換言之,移送機構73的滑動部SL設置於支撐機構61的移動範圍的外側。移送機構73隨著滑動部SL的滑動而驅動臂部72。此處所謂的滑動部SL是指構件彼此一邊接觸一邊移動的結構部。這種滑動部SL成為灰塵的產生源。如圖5所示,本實施方式的滑動部SL包括下文所述的第一滑動部732b、第二滑動部734b而構成。第一滑動部732b、第二滑動部734b設置於比載置面F的高度位置L更低的位置(下方)。The transfer mechanism 73 drives the
如圖8的(A)~圖8的(D)所示,移送機構73具有固定體731、第一驅動部732、移動體733、第二驅動部734。固定體731是固定於支撐台11(參照圖3的(A))且沿著X軸方向延伸的長方體形狀的構件。固定體731的位置相對於安裝位置OA而固定。As shown in FIGS. 8(A) to 8(D) , the transfer mechanism 73 has a fixed body 731 , a first driving part 732 , a moving body 733 , and a second driving part 734 . The fixed body 731 is a rectangular parallelepiped-shaped member that is fixed to the support base 11 (see FIG. 3(A) ) and extends along the X-axis direction. The position of the fixed body 731 is fixed relative to the installation position OA.
第一驅動部732沿著X軸方向驅動臂部72。第一驅動部732具有第一驅動源732a、第一滑動部732b。第一驅動源732a為沿著X軸方向延伸的線性馬達,沿著固定體731的上表面(平行於XY平面的面)設置。第一滑動部732b為沿著X軸方向延伸的線性引導件,設置於固定體731的正面(平行於XZ平面的面)。另外,線性馬達以轉子不與定子接觸的方式移動,因此第一驅動源732a不具有滑動部SL。The first driving part 732 drives the
移動體733是長方體形狀的塊體,設置為通過安裝第一驅動源732a的轉子,並且安裝第一滑動部732b的滑動器,而能夠隨著第一驅動源732a的運行而沿著X軸方向滑動移動。The moving body 733 is a rectangular parallelepiped-shaped block, and is configured to move along the X-axis direction along with the operation of the first driving source 732a by mounting the rotor of the first driving source 732a and mounting the slider of the first sliding portion 732b. Slide to move.
第二驅動部734沿著Z軸方向驅動臂部72。第二驅動部734具有第二驅動源734a、第二滑動部734b。第二驅動源734a為沿著Z軸方向延伸的線性馬達,設置於移動體733。第二滑動部734b為沿著Z軸方向延伸的線性引導件,設置於移動體733。The second driving part 734 drives the
臂部72的基體部72b設置為通過安裝第二驅動源734a的轉子,並且安裝第二滑動部734b的滑動器,而能夠沿著Z軸方向滑動移動。這樣,本實施方式的滑動部SL具有沿著正交的兩軸以直線狀滑動移動的第一滑動部732b及第二滑動部734b。並且,第一滑動部732b及第二滑動部734b以在高度方向上重疊的位置關係配置於在共通的移動體733的表背處相向的兩個側面。即,正交的兩軸的位置成為接近的位置。而且,優選移動體733的兩個側面的距離短、即移動體733薄。The base portion 72b of the
(載臺上的基板及安裝頭的相向間隔與移送頭的尺碼的關係)
在本實施方式中,如圖1所示,為了使移送頭71移動至安裝位置OA,需要基板S退避,為此設定處於安裝位置OA的基板S與安裝頭31的相向間隔。換言之,為了使移送頭71移動至安裝位置OA,需要基板S退避,因此接近由基板支撐機構2支撐的基板S的上表面的高度位置來設定安裝位置OA處接收電子零件C時的安裝頭31的高度位置。更具體而言,在處於安裝位置OA的基板支撐機構2的載台21上載置的基板S的上表面的高度位置與接收電子零件C時的安裝頭31的下端面相向時的間隔h小於臂部72的前端的移送頭71的高度方向的尺碼H(h<H)。此處,如上所述,保持部31b的下端面至基板S的上表面的高度位置的距離例如為幾毫米。
(Relationship between the distance between the substrate on the stage and the mounting head and the size of the transfer head)
In this embodiment, as shown in FIG. 1 , in order to move the transfer head 71 to the mounting position OA, the substrate S needs to be retracted. For this purpose, the opposing distance between the substrate S and the mounting
(臂部的尺碼)
如圖1、圖3的(A)、圖7的(A)所示,臂部72的延伸部72a的沿著Y軸方向以直線狀延伸的構件的寬度w、沿著X軸方向以直線狀延伸的構件的寬度d均長於Z軸方向的厚度t(w>t、d>t)。由此,可抑制臂部72的高度方向的尺碼的擴大,並且確保相對較長的臂部72的剛性,而使由移送頭71移送的電子零件C的位置穩定。通過抑制臂部72的高度方向的尺碼的擴大,而無需增高安裝頭31的接收位置。
(Arm size)
As shown in FIGS. 1 , 3(A) and 7(A) , the width w of the member extending linearly along the Y-axis direction of the
(控制裝置)
控制裝置8以將吸附區域D定位於由零件側拍攝部5所拍攝到的電子零件C的外形的位置的方式控制定位機構。而且,控制裝置8以將保持於吸附區域D的電子零件C定位於安裝位置OA的方式控制定位機構。進而,控制裝置8以基於由基板側拍攝部4及零件側拍攝部5所拍攝到的標記m、標記M定位基板S與電子零件C的方式控制定位機構。即,在控制裝置8中,對應于應準確地安裝電子零件C的位置,設計上的電子零件C的外形的位置(對應於安裝頭31處於安裝位置OA的情況下的吸附區域D、即保持位置)、設計上的電子零件C的標記m的XY座標上的位置、設計上的基板S的標記M的XY座標上的位置作為各自的基準位置而存儲於存儲裝置中。
(control device)
The control device 8 controls the positioning mechanism so that the adsorption area D is positioned at the position of the outer shape of the electronic component C photographed by the component-
所述基準位置也可以不為設計上的位置,而是設為預先試行電子零件C在基板S上的安裝的結果為準確地安裝的情況下的電子零件C的外形的位置、標記m、標記M的位置。控制裝置8求出由零件側拍攝部5所拍攝到的電子零件C的外形的位置與基準位置的偏移,以按照修正偏移的方向與移動量使安裝頭31移動的方式控制定位機構(驅動機構32)。而且,控制裝置8求出由基板側拍攝部4所拍攝到的標記m、由零件側拍攝部5所拍攝到的標記M與基準位置的偏移,以按照修正偏移的方向與移動量使電子零件C及基板S移動的方式控制定位機構(驅動機構22及驅動機構32)。The reference position may not be a designed position, but may be the position of the outer shape of the electronic component C, the mark m, and the mark when the electronic component C is mounted accurately as a result of a previous trial mounting of the electronic component C on the substrate S. M's position. The control device 8 determines the deviation between the position of the outer shape of the electronic component C captured by the component-
而且,控制裝置8基於表示晶圓片WS上的電子零件C的位置座標的映射資訊,控制移送裝置7的移送機構73、供給部6的驅動機構62,由此將成為拾取物件的電子零件C依次定位於供給位置。另外,此處所謂的拾取是指使電子零件C脫離載置有電子零件C的構件、例如晶圓片WS並接收。進而,控制裝置8控制利用移送頭71的拾取筒夾700的電子零件C的保持、利用反轉驅動部710的拾取筒夾700的反轉、利用移送機構73的移送頭71向安裝頭31待機的安裝位置OA的移動、電子零件C從拾取筒夾700向安裝頭31的交接等。Furthermore, the control device 8 controls the transfer mechanism 73 of the transfer device 7 and the drive mechanism 62 of the supply unit 6 based on the mapping information indicating the position coordinates of the electronic component C on the wafer WS, thereby picking up the electronic component C. Positioned in the supply position in turn. In addition, the term "picking up" here refers to removing the electronic component C from a member on which the electronic component C is mounted, such as the wafer WS, and receiving it. Furthermore, the control device 8 controls the holding of the electronic component C by the
[利用拾取筒夾進行的抽吸保持的原理]
接著,對通過如上所述的拾取筒夾700可抽吸保持電子零件C的原理進行說明。如圖4的(A)所示,從供氣孔702a供給的氣體從相向面701a的細孔呈面狀噴出,由此在與電子零件C之間形成氣體的層。所述層例如成為2 μm~10 μm。然後,在通過負壓產生回路使負壓作用于抽吸孔701c的狀態下,使相向面701a接近電子零件C,由此抽吸保持電子零件C。此時,由於在相向面701a與電子零件C之間形成有氣體的層,故而相向面701a與電子零件C維持不接觸的狀態。而且,通過解除由負壓產生回路產生的負壓,負壓不再作用于抽吸孔701c,因此從拾取筒夾700釋放電子零件C。
[Principle of suction holding using pick-up collet]
Next, the principle of sucking and holding the electronic component C by the
[動作]
除了參照所述圖1~圖6以外,還參照圖7的(A)~圖11的(C)的說明圖、圖12及圖13的流程圖對如以上的本實施方式的動作進行說明。另外,在初始狀態下,將基板S從裝載器轉交給基板支撐機構2的載台21,但從與安裝頭31相向的位置、即安裝位置OA與載台21一起退避。
[action]
The operation of the present embodiment as described above will be described with reference to the explanatory diagrams of FIGS. 7(A) to 11(C) and the flowcharts of FIGS. 12 and 13 in addition to the above-mentioned FIGS. 1 to 6 . In addition, in the initial state, the substrate S is transferred from the loader to the
[電子零件的移送] 參照圖7的(A)~圖9的(E)的說明圖、圖12的流程圖對電子零件C的移送動作進行說明。通過自動裝載器將貼附有晶圓片WS的貼片環裝設於供給部6中的支撐機構61的環保持器61a(參照圖3的(A)及圖3的(B))。在所述晶圓片WS貼附有通過切晶而被分割成單片的電子零件C。另外,在圖8的(A)~圖8的(D)中,省略了所拾取的電子零件C以外的圖示。 [Transfer of electronic parts] The transfer operation of the electronic component C will be described with reference to the explanatory diagrams of FIGS. 7(A) to 9(E) and the flowchart of FIG. 12 . The chip ring with the wafer WS attached is mounted on the ring holder 61 a of the support mechanism 61 in the supply unit 6 using an automatic loader (see FIGS. 3(A) and 3(B) ). Electronic components C divided into individual pieces by dicing are attached to the wafer WS. In addition, in FIGS. 8(A) to 8(D) , illustrations other than the picked-up electronic components C are omitted.
首先,如圖8的(A)、圖3的(A)所示,支撐機構61沿著X軸、Y軸方向移動,使成為安裝物件的電子零件C來到供給位置。而且,使臂部72沿著X軸方向移動,由此將移送頭71的拾取筒夾700的前端定位于成為安裝物件的電子零件C的正上方、即供給位置(步驟S101)。First, as shown in FIG. 8(A) and FIG. 3(A) , the support mechanism 61 moves along the X-axis and Y-axis directions to bring the electronic component C to be the mounting object to the supply position. Then, the
此時的晶圓片WS的X軸、Y軸方向的移動是通過供給部6的驅動機構62而進行。臂部72的X軸方向的移動是通過第一驅動部732的第一驅動源732a運行,使得移動體733沿著第一滑動部732b移動而進行。At this time, the movement of the wafer WS in the X-axis and Y-axis directions is performed by the drive mechanism 62 of the supply unit 6 . The movement of the
如圖8的(B)所示,上推機構(未圖示)將成為安裝物件的電子零件C上推。然後,移送頭71的拾取筒夾700拾取電子零件C(步驟S102)。此時,經由供氣孔702a向拾取筒夾700的多孔質構件701供給經加壓的氣體,從相向面701a吹出氣體。而且,不從排氣孔702b排氣,不從開口701d進行抽吸。這樣,從相向面701a被供給氣體的拾取筒夾700下降,而接近電子零件C。當拾取筒夾700接近電子零件C時,相向面701a的氣體被相向面701a與電子零件C所夾持,形成氣體層。認為此時被夾持的氣體層成為粘性流層。然後,拾取筒夾700通過未進一步壓縮的氣體層,停止相對於電子零件C的下降。這樣,在經由氣體層而拾取筒夾700停止的狀態下,通過從排氣孔702b排氣而開始利用抽吸孔701c的抽吸,因此可將電子零件C吸附保持于相向面701a。As shown in (B) of FIG. 8 , a push-up mechanism (not shown) pushes up the electronic component C that becomes the mounting object. Then, the
如上所述,臂部72沿著接近晶圓片WS的方向移動,拾取筒夾700吸附保持電子零件C後,沿著與晶圓片WS分離的方向移動,由此如圖8的(C)所示,使電子零件C脫離晶圓片WS。As described above, the
此時的臂部72的移動是通過第二驅動部734的第二驅動源734a運行,使得基體部72b沿著第二滑動部734b移動而進行。然後,如圖7的(A)、圖7的(B)、圖8的(C)、圖8的(D)所示,反轉驅動部710使拾取筒夾700轉動180°,而使電子零件C反轉(步驟S103)。The movement of the
接著,如圖9的(A)、圖9的(B)所示,通過臂部72沿著X軸方向移動而將移送頭71定位於安裝位置OA(步驟S104)。即,移送頭71的拾取筒夾700到達安裝機構3中與安裝頭31的保持部31b相向的位置。此時的臂部72的X軸方向的移動通過以下方式進行:通過第一驅動部732的第一驅動源732a運行,移動體733沿著第一滑動部732b移動供給位置至安裝位置OA的距離。此外,此時,安裝頭31在使得保持部31b的下端面與基板S的上表面之間的相向間隔成為幾毫米的距離的高度位置處待機。而且,維持所述高度位置直至後述的電子零件C與基板S的定位結束而安裝頭31將要朝向基板S受到驅動之前。Next, as shown in FIGS. 9(A) and 9(B) , the transfer head 71 is positioned at the mounting position OA by moving the
如圖10的(A)所示,零件側拍攝部5隔著安裝頭31拍攝透射區域T中可見的電子零件C的外形(步驟S105)。在圖10的(A)的示例中,相對於以雙點劃線表示的吸附區域D及其中心,電子零件C向圖中左上偏移,並且向右傾斜。控制裝置8求出由零件側拍攝部5所拍攝到的電子零件C的外形、與基準位置的偏移量(XY方向及θ方向),如圖10的(B)所示,使驅動機構32運行以消除偏移量,由此將安裝頭31定位於電子零件C(步驟S106)。在圖10的(B)的示例中,安裝頭31向圖中左上移動,並且向右轉動,使電子零件C與吸附區域D對準。另外,圖中,以表示保持部31b的虛線的外側右下的箭頭表示向左上的移動。而且,以表示中空部31a的實線圓的內側右上的箭頭表示向右的轉動。As shown in FIG. 10(A) , the component-
如圖9的(C)所示,臂部72沿著接近保持部31b的方向移動,將電子零件C壓抵於保持部31b。如圖9的(D)所示,安裝頭31的保持部31b通過負壓吸附保持並接收電子零件C(步驟S107)。與此同時,拾取筒夾700解除負壓,臂部72沿著與保持部31b分離的方向移動,由此釋放電子零件C。此時的臂部72的移動是通過第二驅動部734的第二驅動源734a運行,使得基體部72b沿著第二滑動部734b移動而進行。As shown in (C) of FIG. 9 , the
然後,如圖10的(C)所示,控制裝置8使驅動機構32運行,由此使由安裝頭31保持的電子零件C返回到原來的安裝位置OA(步驟S108)。在圖10的(C)的示例中,安裝頭31向圖中右下移動,並且向左轉動而返回到安裝位置OA。另外,圖中,以表示保持部31b的虛線的外側左上的箭頭表示向右下的移動。而且,以表示中空部31a的實線圓的內側右上的箭頭表示向左的轉動。Then, as shown in FIG. 10(C) , the control device 8 operates the drive mechanism 32 to return the electronic component C held by the mounting
進而,如圖9的(E)所示,臂部72朝向供給部6移動,由此移送頭71從保持部31b的正下方退避。此時的臂部72的移動是通過第一驅動部732的第一驅動源732a運行,使得移動體733沿著第一滑動部732b在X軸方向上移動而進行。另外,利用移送裝置7進行的相對於保持部31b的電子零件C的交接是在安裝位置OA處進行,因此在交接時,載台21為了避免與移送機構73發生干擾而保持退避的狀態。Furthermore, as shown in (E) of FIG. 9 , the
[電子零件的安裝]
接著,參照圖11的(A)~圖11的(C)的說明圖、圖13的流程圖對電子零件C的安裝動作進行說明。此處,如圖11的(A)所示,如上所述保持有電子零件C的安裝頭31的保持部31b位於零件側拍攝部5的正下方。基板側拍攝部4拍攝由安裝頭31保持的電子零件C的標記m(步驟S201)。控制裝置8求出由基板側拍攝部4所拍攝到的標記m的位置與基準位置的位置偏移量,使驅動機構32運行以消除偏移量,由此定位電子零件C(步驟S202)。
[Installation of electronic parts]
Next, the mounting operation of the electronic component C will be described with reference to the explanatory diagrams of FIGS. 11(A) to 11(C) and the flowchart of FIG. 13 . Here, as shown in (A) of FIG. 11 , the holding
接著,如圖11的(B)所示,基板支撐機構2以基板S的安裝區域B(此次為供安裝電子零件C的安裝區域B)到達與由安裝頭31保持的電子零件C相向的位置、即安裝區域B的中心到達安裝位置OA的方式,使載台21移動(步驟S203)。然後,如圖3的(B)所示,零件側拍攝部5隔著安裝頭31拍攝電子零件C的周圍的透射區域T中可見的基板S的標記M(步驟S204)。Next, as shown in FIG. 11(B) , the substrate support mechanism 2 reaches the mounting area B of the substrate S (this time, the mounting area B for mounting the electronic component C) facing the electronic component C held by the mounting
控制裝置8求出由零件側拍攝部5所拍攝到的標記M的位置與基準位置的位置偏移量,使驅動機構22運行以消除偏移量,由此定位基板S(步驟S205)。進而,如圖11的(C)所示,通過驅動機構32而朝向基板S驅動安裝頭31,將由安裝頭31保持的電子零件C安裝於基板S(步驟S206)。The control device 8 determines the positional deviation amount between the position of the mark M photographed by the component
如上所述,重複進行電子零件C從晶圓片WS的移送、電子零件C向安裝頭31的交接、電子零件C及基板S的定位、安裝的動作,由此將電子零件C依次安裝於基板S的各安裝區域B。安裝規定數量的電子零件C之後的基板S利用基板支撐機構2被搬送並存放於卸載器。As described above, the operations of transferring the electronic component C from the wafer WS, handing over the electronic component C to the mounting
[作用效果]
(1)本實施方式的電子零件C的移送裝置7具有:安裝頭31,在安裝位置OA處將電子零件C安裝於基板S;拾取筒夾700,具有多孔質構件701與導引部703,所述多孔質構件701從細孔噴出氣體,並且通過抽吸孔701c的負壓,以非接觸的方式保持電子零件C,所述導引部703對以非接觸的方式保持的電子零件C的移動進行限制,所述拾取筒夾700從供給電子零件C的供給部6拾取電子零件C,並轉交給安裝頭31;反轉驅動部710,使拾取筒夾700從供給位置起反轉;移送機構73,在供給部6與安裝頭31之間移送拾取筒夾700;零件側拍攝部5,拍攝由反轉的拾取筒夾700保持的電子零件C的外形;及定位機構,基於由零件側拍攝部5所拍攝到的電子零件C的外形,將安裝頭31定位於由拾取筒夾700保持的電子零件C,在拾取筒夾700將電子零件C轉交給安裝頭31後,將安裝頭31定位於安裝位置OA。
[Effect]
(1) The electronic component C transfer device 7 of this embodiment includes a mounting
而且,本實施方式的電子零件C的安裝裝置1具有安裝機構3,所述安裝機構3通過安裝頭31將由定位機構定位的電子零件C在安裝位置OA處安裝於基板S。Furthermore, the mounting device 1 for the electronic component C according to this embodiment includes the mounting mechanism 3 for mounting the electronic component C positioned by the positioning mechanism on the substrate S at the mounting position OA via the mounting
進而,本實施方式的電子零件C的安裝方法中,拾取筒夾700從電子零件C的供給部6拾取電子零件C,所述拾取筒夾700具有:多孔質構件701,從細孔噴出氣體,並且通過抽吸孔701c的負壓,以非接觸的方式保持電子零件C;及導引部703,對以非接觸的方式保持的電子零件C的移動進行限制,反轉驅動部710使拾取了電子零件C的拾取筒夾700反轉,移送機構73將拾取了電子零件C的拾取筒夾700移送至用於將電子零件C安裝於基板S的安裝頭31,零件側拍攝部5拍攝由反轉的拾取筒夾700保持的電子零件C的外形,定位機構基於由零件側拍攝部5所拍攝到的電子零件C的外形,將安裝頭31定位於由拾取筒夾700保持的電子零件C,通過拾取筒夾700與安裝頭31的相對移動,將電子零件C從拾取筒夾700交接至安裝頭31,定位機構將被交接並保持有電子零件C的安裝頭31定位於用以將電子零件C安裝於基板S的安裝位置OA,在通過基板支撐機構2使基板S從安裝位置OA退避的狀態下,基板側拍攝部4拍攝由安裝頭31保持的電子零件C的標記m,零件側拍攝部5拍攝通過基板支撐機構2定位於安裝位置OA的基板S的標記M的圖像,定位機構基於根據由零件側拍攝部5及基板側拍攝部4所拍攝到的標記m、標記M的圖像求出的基板S與電子零件C的位置,進行基板S與電子零件C的定位。Furthermore, in the mounting method of the electronic component C according to this embodiment, the
因此,在本實施方式中,能夠通過拾取筒夾700以非接觸的方式拾取電子零件C,並且在向安裝頭31交接時能夠進行定位。此處,在從多孔質構件701噴出氣體,並且通過抽吸孔701c的抽吸而以非接觸的方式拾取電子零件C的情況下,電子零件C容易在由導引部703包圍的區域中移動。但是,在本實施方式中,安裝頭31相對於發生偏移的電子零件C而定位後接收電子零件C,返回到基準位置後進行安裝,因此將利用安裝頭31保持電子零件C的位置設為一定,在利用電子零件C的標記m的拍攝進行的位置識別、其後的修正移動中,能夠抑制花費時間、或誤差增大的情況。進而能減少安裝時的位置偏移。Therefore, in this embodiment, the electronic component C can be picked up in a non-contact manner by the pick-up
(2)安裝頭31具有透射部,所述透射部能夠透射並識別由拾取筒夾700保持的電子零件C,零件側拍攝部5以能夠經過透射部拍攝電子零件C的外形的方式,配置於安裝頭31的上側處。因此,可使將電子零件C從拾取筒夾700轉交給安裝頭31的位置與拍攝位置大致一致,在利用電子零件C的標記m的拍攝進行的位置識別、其後的修正移動中,能夠抑制花費時間、或誤差增大的情況。(2) The mounting
(3)具有:基板支撐機構2,支撐基板S,使基板S在安裝位置OA與從安裝位置OA退避的位置之間移動;及基板側拍攝部4,配置於安裝位置OA中基板支撐機構2的下側處,在基板S從安裝位置OA退避的狀態下,拍攝由定位於安裝位置OA的安裝頭31保持的電子零件C的標記m,定位機構基於根據由零件側拍攝部5所拍攝到的由定位於安裝位置OA的載台21支撐的基板S的標記M的圖像與由基板側拍攝部4所拍攝到的電子零件C的標記m的圖像所求出的基板S與電子零件C的位置,進行基板S與電子零件C的定位。(3) It has: a substrate support mechanism 2 that supports the substrate S and moves the substrate S between the installation position OA and a position retreated from the installation position OA; and a substrate
根據這種實施方式,在使基板S從安裝位置OA退避的狀態下,利用配置於安裝位置OA中基板支撐機構2的下側處的基板側拍攝部4拍攝由安裝頭31保持的電子零件C,利用配置於安裝位置OA中安裝頭31的上側處的零件側拍攝部5經過安裝頭31的透射部拍攝由基板支撐機構2支撐的基板S,因此在與使電子零件C與基板S儘量靠近等效的狀態下,能夠進行電子零件C的標記m與基板S的標記M的拍攝。According to this embodiment, in a state where the substrate S is retracted from the mounting position OA, the electronic component C held by the mounting
因此,可使拍攝標記m、標記M時的電子零件C(安裝頭31)及基板S(基板支撐機構2)的移動量、以及拍攝標記m、標記M後的電子零件C(安裝頭31)與基板S(基板支撐機構2)的相對的移動量儘量短。因此,能夠抑制由使安裝頭31或基板支撐機構2移動長距離引起的誤差的放大。而且,機構的移動距離越長,起塵越多,但在本實施方式中,能夠抑制移動距離,因此可防止灰塵導致清潔度降低而發生接合不良。進而,如上所述,以非接觸的方式保持電子零件C,由此能夠減少安裝頭31從電子零件C容易移動的拾取筒夾700接收電子零件C時相對於保持位置(吸附區域D)的位置偏移,因此在利用基板側拍攝部4拍攝標記m時,可預先減少偏移量,在利用電子零件C的標記m的拍攝進行的位置識別、其後的修正移動中,能夠抑制花費時間、或誤差增大的情況。Therefore, the movement amount of the electronic component C (mounting head 31 ) and the substrate S (substrate support mechanism 2 ) when the mark m is photographed and the mark M can be captured, and the mark m and the electronic component C (mounting head 31 ) after the mark M can be photographed. The amount of movement relative to the substrate S (substrate support mechanism 2 ) is as short as possible. Therefore, amplification of errors caused by moving the mounting
在本實施方式中,在拍攝標記m、標記M後,可抑制電子零件C及基板S的移動距離,因此能夠抑制位置偏移、生產性的降低、起塵量的任一種。In the present embodiment, the movement distance of the electronic component C and the substrate S can be suppressed after the marks m and marks M are photographed. Therefore, positional deviation, reduction in productivity, and amount of dust generation can be suppressed.
(4)透射部具有透明的板狀構件。因此,能夠實現電子零件C的外形的透射性的拍攝、電子零件C的保持、基板S的標記M的透射性的拍攝。因此,在將要利用透射部保持電子零件C之前的狀態下,可以透射部與電子零件C極近的距離拍攝電子零件C的外形,因此能夠抑制透射部接收電子零件C時的偏移量,從而能夠更確實地對準安裝頭31的保持位置(吸附區域D)而交接電子零件C。由於能夠使安裝頭31所接收到的電子零件C的姿勢設為接近規定的姿勢的狀態,故而在通過利用基板側拍攝部4拍攝由安裝頭31保持的電子零件C的標記m進行的位置識別、其後的修正移動中,能夠抑制花費時間、或誤差增大的情況。(4) The transmission part has a transparent plate-shaped member. Therefore, it is possible to achieve transmissive imaging of the outer shape of the electronic component C, holding the electronic component C, and transmissive imaging of the mark M on the substrate S. Therefore, in the state before the electronic component C is held by the transmissive part, the outer shape of the electronic component C can be photographed at a very close distance between the transmissive part and the electronic component C. Therefore, the amount of deviation when the transmissive part receives the electronic component C can be suppressed, thereby The electronic component C can be delivered more reliably while aligning the holding position (adsorption area D) of the mounting
(5)基板側拍攝部4及零件側拍攝部5以相對於安裝位置OA而不動的方式設置。因此,基板側拍攝部4的拍攝區域及零件側拍攝部5的拍攝區域不會發生偏移,而也能夠防止移動引起的起塵。(5) The board-
[變形例]
(1)拾取筒夾700的導引部703以能夠限制電子零件C的移動的方式沿著相向面701a的外緣設置即可。即,能夠限制拾取筒夾700的移動或反轉導致電子零件C從拾取筒夾700脫落的程度的電子零件C的移動即可。因此,導引部703設置于相向面701a的四條邊即可,可設置于相向面701a的整周上,也可以設置于各邊的一部分。例如,可如圖14的(A)所示那樣隔著角部、或如圖14的(B)所示那樣沿著角部連續地配置導引部703。另外,如圖14的(B)所示,也存在其中一正交的導引部703與另一正交的導引部703連續的情況。
[Modification]
(1) The
(2)抽吸孔701c、開口701d的數量或尺寸不限定於所述形態。在多孔質構件701的相向面701a中,可通過由氣體的層支撐電子零件C的面積與開口701d的總面積的平衡來實現抽吸保持狀態與非接觸狀態的維持。(2) The number or size of the suction holes 701c and the openings 701d is not limited to the above-mentioned forms. In the facing surface 701a of the porous member 701, the suction holding state and the non-contact state can be maintained by balancing the area in which the electronic component C is supported by the gas layer and the total area of the opening 701d.
(3)抽吸孔701c、開口701d的位置或形狀也不限定於所述形態。例如,開口701d的形狀可為圓形、矩形,也可以為其他橢圓形、多邊形、圓角多邊形、星形等。(3) The positions and shapes of the suction holes 701c and the openings 701d are not limited to the above-mentioned forms. For example, the shape of the opening 701d may be a circle, a rectangle, or other elliptical shapes, polygons, rounded polygons, star shapes, etc.
(4)通過將拾取筒夾700設置為可更換,而可根據電子零件C的形狀、尺寸來更換。作為所述可更換的結構,可通過磁鐵來抽吸保持的結構簡單,更換作業也變得容易。但,只要為能夠更換拾取筒夾700的結構即可。例如,可為使用負壓的吸附保持,也可為以機械的方式保持的結構。(4) By making the
(5)供給部6不限定於供給貼附於晶圓片WS的電子零件C的裝置。例如,也可以為供給排列在託盤上的電子零件C的裝置。而且,關於移送機構73的結構,也只要能夠從供給部6個別地拾取電子零件C並移送即可。因此,可為臂部72沿著X軸及Y軸方向移動的結構,也可以為支撐機構61沿著X軸及Y軸方向移動的結構。(5) The supply unit 6 is not limited to a device that supplies the electronic components C attached to the wafer WS. For example, it may be a device that supplies electronic components C arranged on a tray. Furthermore, the transfer mechanism 73 may be configured so as to be able to individually pick up the electronic components C from the supply unit 6 and transfer them. Therefore, the
(6)在移送機構73中,驅動臂部72的驅動部不限定於以線性馬達作為驅動源的機構。也可以為利用以軸旋轉的馬達作為驅動源的滾珠絲杠或傳送帶的機構。在這種機構的情況下,包括滑動部SL,因此優選設置於俯視下不與載置面F重疊的位置。進而,優選將滑動部SL設置於比載置面F的高度位置更低的位置。另外,在存在多個滑動部SL的情況下,一部分滑動部SL也可以未設置於俯視下不與載置面F重疊的位置。而且,一部分滑動部SL也可以未設置於比載置面F的高度位置更低的位置。在這種情況下,優選在滑動部SL與載置面F之間設置外包裝、壁、其他結構部等遮蔽物。而且,優選加長滑動部SL與載置面F的距離。(6) In the transfer mechanism 73 , the driving unit that drives the
(7)安裝頭31只要為零件側拍攝部5能夠拍攝到電子零件C的外形、基板S的標記M的結構即可。因此,安裝頭31的透射部也可以不由透明的材料形成,也可以在與電子零件C的外形或標記M相對應的部位形成貫穿孔。更具體而言,可為保持部31b由不透明的構件所形成,且在與電子零件C的外形或標記M相對應的部位形成貫穿孔,也可以不存在中空部31a,且由不透明的構件形成保持部31b,在安裝頭31及保持部31b的與電子零件C的外形或標記M相對應的部位形成貫穿孔。即,這種貫穿孔也是安裝頭31的透射部。另外,在拍攝電子零件C的外形的情況下,拍攝電子零件C的外形中的一部分。因此,優選能夠拍攝電子零件C的相鄰的兩邊的部分。在所述情況下,所拍攝的部分可為電子零件C的角部。通過包括相鄰的兩邊的圖像,能夠識別電子零件C的姿勢(位置或水平面內的傾斜)。(7) The mounting
(8)基板側拍攝部4或零件側拍攝部5可以相對於安裝電子零件C的位置(安裝位置OA)能夠移動的方式設置。即,在無法一次性拍攝電子零件C的多個標記m或基板S的多個標記M的情況下,可以基板側拍攝部4或零件側拍攝部5在標記m間或標記M間移動拍攝的方式構成。即,可設置用來使基板側拍攝部4在標記m間移動的移動裝置或者設置用來使零件側拍攝部5在標記M間移動的移動裝置。即使在所述情況下,移動距離也限於電子零件C或基板S的安裝區域B的大小的範圍內而較短,因此能夠抑制誤差或起塵。由於能夠根據所需的安裝精度選擇拍攝倍率,故而能夠提高位置識別精度。(8) The board-
(9)在所述形態中,分別使電子零件C的標記m的位置與基板S的安裝區域B的標記M的位置對準基準位置(安裝位置OA),但不限於此,也可以使電子零件C的位置對準安裝區域B的位置、或者使安裝區域B的位置對準電子零件C的位置。總之,只要能夠使基板S的安裝區域B的位置與電子零件C的位置對準即可。在載台21不為了對準位置而移動修正量,而使基板S與電子零件C的位置對準的情況下,無需使相對較大且重的載台21在各安裝區域B的位置對準中移動,因此能夠進一步提高安裝精度,並且也能夠縮短用於位置修正的時間。(9) In the above aspect, the position of the mark m of the electronic component C and the position of the mark M of the mounting area B of the substrate S are respectively aligned with the reference position (mounting position OA). However, the invention is not limited to this, and the electronic component may be The position of the component C is aligned with the position of the mounting area B, or the position of the mounting area B is aligned with the position of the electronic component C. In short, it suffices as long as the position of the mounting area B of the substrate S and the position of the electronic component C can be aligned. When the
(10)基板支撐機構2相對於載台21的基板S的交接可在安裝位置OA處進行。在所述情況下,在將基板S供給至載台21後,在利用基板側拍攝部4拍攝電子零件C的標記m之前使基板S從安裝位置OA退避即可。(10) The substrate support mechanism 2 can be transferred to the substrate S of the
[其他實施方式] 本發明並不限定於所述實施方式,在實施階段,可在不脫離其主旨的範圍內使結構要素變形並具體化。而且,可通過所述實施方式所公開的多個結構要素的適當組合來形成各種發明。例如,可從實施方式所示的全部結構要素中刪除若干結構要素。進而,也可以將不同實施方式中的結構要素適當加以組合。 [Other embodiments] The present invention is not limited to the above-described embodiments, and at the implementation stage, the structural elements can be modified and embodied within the scope that does not deviate from the gist of the invention. Furthermore, various inventions can be formed by appropriate combinations of the plurality of structural elements disclosed in the embodiments. For example, some structural elements may be deleted from all the structural elements shown in the embodiments. Furthermore, structural elements in different embodiments may be combined appropriately.
1:安裝裝置
2:基板支撐機構
3:安裝機構
4:基板側拍攝部
5:零件側拍攝部
6:供給部
7:移送裝置
8:控制裝置
11:支撐台
11a:收容孔
21:載台
22、32、62:驅動機構
22a、22b、33a、34a、35a、62a、62b:導軌
23:移動板
23a:貫穿孔
31:安裝頭
31a:中空部
31b:保持部
33、34、35、733:移動體
61:支撐機構
61a:環保持器
71:移送頭
71a:吸附噴嘴
71b、710:反轉驅動部
72:臂部
72a:延伸部
72b:基體部
73:移送機構
700:拾取筒夾
701:多孔質構件
701a:相向面
701b:背面
701c:抽吸孔
701d:開口
702:基座
702a:供氣孔
702b:排氣孔
702c:安裝孔
703、703K~703N:導引部
704:裝卸部
704a:銷
720:旋轉體
731:固定體
732:第一驅動部
732a:第一驅動源
732b:第一滑動部
734:第二驅動部
734a:第二驅動源
734b:第二滑動部
B:安裝區域
C:電子零件
D:吸附區域
F:載置面
G:氣體
L:高度位置
M、m:標記
OA:安裝位置
S:基板
SL:滑動部
T:透射區域
WS:晶圓片
1: Install the device
2:Substrate support mechanism
3: Installation mechanism
4:Substrate side imaging part
5: Part side shooting department
6: Supply Department
7: Transfer device
8:Control device
11:Support platform
11a:Containment hole
21: Carrier platform
22, 32, 62: Driving mechanism
22a, 22b, 33a, 34a, 35a, 62a, 62b: guide rail
23:Mobile board
23a:Through hole
31:
圖1是表示實施方式的安裝裝置的概略結構的正面圖。 圖2是表示電子零件與基板的平面圖。 圖3的(A)及圖3的(B)是安裝裝置的平面圖(A)、安裝部位的放大平面圖(B)。 圖4的(A)是表示利用拾取筒夾保持電子零件的原理的剖面示意圖,圖4的(B)是表示基座的底面側立體圖。 圖5是表示拾取筒夾及裝卸部的底面側立體圖。 圖6是表示拾取筒夾及裝卸部的上表面側立體圖。 圖7的(A)及圖7的(B)是表示電子零件的反轉動作的放大圖,左側為正面圖,右側為平面圖。 圖8的(A)~圖8的(D)是表示電子零件的拾取動作的說明圖。 圖9的(A)~圖9的(E)是表示電子零件的交接動作的說明圖。 圖10的(A)~圖10的(C)是表示利用安裝頭進行的電子零件的接收時的電子零件的拍攝(A)、安裝頭在電子零件上的定位(B)、安裝頭在安裝位置上的定位(C)的說明圖。 圖11的(A)~圖11的(C)是表示安裝裝置的安裝動作的說明圖。 圖12是表示電子零件的拾取動作與交接動作的順序的流程圖。 圖13是表示電子零件的安裝順序的流程圖。 圖14的(A)及圖14的(B)是表示導引部的配置的變形例的底視圖。 FIG. 1 is a front view showing the schematic structure of the mounting device according to the embodiment. FIG. 2 is a plan view showing the electronic component and the substrate. 3(A) and 3(B) are a plan view (A) of the mounting device and an enlarged plan view (B) of the mounting location. (A) of FIG. 4 is a schematic cross-sectional view showing the principle of holding electronic components using a pickup collet, and (B) of FIG. 4 is a bottom perspective view of the base. Fig. 5 is a bottom perspective view showing the pickup collet and the attachment and detachment portion. Fig. 6 is an upper surface side perspective view showing the pickup collet and the attachment and detachment portion. 7(A) and 7(B) are enlarged views showing the reversal operation of the electronic component, with the left side being a front view and the right side being a plan view. 8(A) to 8(D) are explanatory diagrams showing the pickup operation of electronic components. 9(A) to 9(E) are explanatory diagrams showing the transfer operation of electronic components. 10(A) to 10(C) show a photograph of the electronic component when the mounting head is used to receive the electronic component (A), the positioning of the mounting head on the electronic component (B), and the positioning of the mounting head on the electronic component. Explanatory diagram of positioning (C). 11(A) to 11(C) are explanatory diagrams showing the mounting operation of the mounting device. FIG. 12 is a flowchart showing the sequence of picking up and handing over electronic components. FIG. 13 is a flowchart showing the mounting procedure of electronic components. 14(A) and 14(B) are bottom views showing modifications of the arrangement of the guide portion.
1:安裝裝置 1: Install the device
2:基板支撐機構 2:Substrate support mechanism
3:安裝機構 3: Installation mechanism
4:基板側拍攝部 4:Substrate side imaging part
5:零件側拍攝部 5: Part side shooting department
6:供給部 6: Supply Department
7:移送裝置 7: Transfer device
8:控制裝置 8:Control device
11:支撐台 11:Support platform
11a:收容孔 11a:Containment hole
21:載台 21: Carrier platform
32:驅動機構 32:Driving mechanism
22b、33a、34a、35a、62a、62b:導軌 22b, 33a, 34a, 35a, 62a, 62b: guide rail
23:移動板 23:Mobile board
23a:貫穿孔 23a:Through hole
31:安裝頭 31: Installation head
31a:中空部 31a: Hollow part
31b:保持部 31b:Maintenance Department
33、34、35:移動體 33, 34, 35: moving body
61:支撐機構 61:Support mechanism
62:驅動機構 62:Driving mechanism
71:移送頭 71: Transfer head
72:臂部 72:Arm
72a:延伸部 72a:Extension
72b:基體部 72b: Base part
73:移送機構 73:Transfer agency
700:拾取筒夾 700: Pick up collet
732:第一驅動部 732:First drive department
C:電子零件 C: Electronic parts
OA:安裝位置 OA: installation location
S:基板 S:Substrate
WS:晶圓片 WS: wafer
Claims (5)
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JP2021-159118 | 2021-09-29 | ||
JP2021159118A JP2023049408A (en) | 2021-09-29 | 2021-09-29 | Transfer device for electronic component, mounting device for electronic component and mounting method for electronic component |
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Publication Number | Publication Date |
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TW202314939A TW202314939A (en) | 2023-04-01 |
TWI835316B true TWI835316B (en) | 2024-03-11 |
Family
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TW111136728A TWI835316B (en) | 2021-09-29 | 2022-09-28 | Operating device, installation device and installation method of electronic components |
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JP (1) | JP2023049408A (en) |
KR (1) | KR20230046252A (en) |
CN (1) | CN115881606A (en) |
TW (1) | TWI835316B (en) |
Citations (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
US20030014862A1 (en) * | 2001-07-17 | 2003-01-23 | Fuji Machine Mfg. Co., Ltd. | Electric-component mounting method and system |
US20170196131A1 (en) * | 2014-06-03 | 2017-07-06 | Fuji Machine Mfg. Co., Ltd. | Loose component supply device and component mounter |
Family Cites Families (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
JPS63124746A (en) | 1986-11-14 | 1988-05-28 | Toshiba Corp | Manufacture of hexagonal coil |
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2021
- 2021-09-29 JP JP2021159118A patent/JP2023049408A/en active Pending
-
2022
- 2022-09-28 TW TW111136728A patent/TWI835316B/en active
- 2022-09-28 KR KR1020220123387A patent/KR20230046252A/en not_active Application Discontinuation
- 2022-09-28 CN CN202211190333.6A patent/CN115881606A/en active Pending
Patent Citations (3)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
US20030014862A1 (en) * | 2001-07-17 | 2003-01-23 | Fuji Machine Mfg. Co., Ltd. | Electric-component mounting method and system |
US20170196131A1 (en) * | 2014-06-03 | 2017-07-06 | Fuji Machine Mfg. Co., Ltd. | Loose component supply device and component mounter |
US20200015394A1 (en) * | 2014-06-03 | 2020-01-09 | Fuji Corporation | Loose component supply device and component mounter |
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JP2023049408A (en) | 2023-04-10 |
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TW202314939A (en) | 2023-04-01 |
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