TWI568557B - Wire saw and lead wire cutting method - Google Patents
Wire saw and lead wire cutting method Download PDFInfo
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- TWI568557B TWI568557B TW103127444A TW103127444A TWI568557B TW I568557 B TWI568557 B TW I568557B TW 103127444 A TW103127444 A TW 103127444A TW 103127444 A TW103127444 A TW 103127444A TW I568557 B TWI568557 B TW I568557B
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- lead
- winch
- wire
- workpiece
- tension
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Classifications
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- B—PERFORMING OPERATIONS; TRANSPORTING
- B23—MACHINE TOOLS; METAL-WORKING NOT OTHERWISE PROVIDED FOR
- B23H—WORKING OF METAL BY THE ACTION OF A HIGH CONCENTRATION OF ELECTRIC CURRENT ON A WORKPIECE USING AN ELECTRODE WHICH TAKES THE PLACE OF A TOOL; SUCH WORKING COMBINED WITH OTHER FORMS OF WORKING OF METAL
- B23H7/00—Processes or apparatus applicable to both electrical discharge machining and electrochemical machining
- B23H7/02—Wire-cutting
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- B—PERFORMING OPERATIONS; TRANSPORTING
- B23—MACHINE TOOLS; METAL-WORKING NOT OTHERWISE PROVIDED FOR
- B23D—PLANING; SLOTTING; SHEARING; BROACHING; SAWING; FILING; SCRAPING; LIKE OPERATIONS FOR WORKING METAL BY REMOVING MATERIAL, NOT OTHERWISE PROVIDED FOR
- B23D57/00—Sawing machines or sawing devices not covered by one of the preceding groups B23D45/00 - B23D55/00
- B23D57/0007—Sawing machines or sawing devices not covered by one of the preceding groups B23D45/00 - B23D55/00 using saw wires
- B23D57/0023—Sawing machines or sawing devices not covered by one of the preceding groups B23D45/00 - B23D55/00 using saw wires with a plurality of saw wires or saw wires having plural cutting zones
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- B—PERFORMING OPERATIONS; TRANSPORTING
- B23—MACHINE TOOLS; METAL-WORKING NOT OTHERWISE PROVIDED FOR
- B23D—PLANING; SLOTTING; SHEARING; BROACHING; SAWING; FILING; SCRAPING; LIKE OPERATIONS FOR WORKING METAL BY REMOVING MATERIAL, NOT OTHERWISE PROVIDED FOR
- B23D55/00—Sawing machines or sawing devices working with strap saw blades, characterised only by constructional features of particular parts
- B23D55/10—Sawing machines or sawing devices working with strap saw blades, characterised only by constructional features of particular parts of devices for tensioning strap saw blades
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- B—PERFORMING OPERATIONS; TRANSPORTING
- B23—MACHINE TOOLS; METAL-WORKING NOT OTHERWISE PROVIDED FOR
- B23D—PLANING; SLOTTING; SHEARING; BROACHING; SAWING; FILING; SCRAPING; LIKE OPERATIONS FOR WORKING METAL BY REMOVING MATERIAL, NOT OTHERWISE PROVIDED FOR
- B23D57/00—Sawing machines or sawing devices not covered by one of the preceding groups B23D45/00 - B23D55/00
- B23D57/003—Sawing machines or sawing devices working with saw wires, characterised only by constructional features of particular parts
- B23D57/0069—Sawing machines or sawing devices working with saw wires, characterised only by constructional features of particular parts of devices for tensioning saw wires
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- B—PERFORMING OPERATIONS; TRANSPORTING
- B23—MACHINE TOOLS; METAL-WORKING NOT OTHERWISE PROVIDED FOR
- B23D—PLANING; SLOTTING; SHEARING; BROACHING; SAWING; FILING; SCRAPING; LIKE OPERATIONS FOR WORKING METAL BY REMOVING MATERIAL, NOT OTHERWISE PROVIDED FOR
- B23D61/00—Tools for sawing machines or sawing devices; Clamping devices for these tools
- B23D61/18—Sawing tools of special type, e.g. wire saw strands, saw blades or saw wire equipped with diamonds or other abrasive particles in selected individual positions
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- B—PERFORMING OPERATIONS; TRANSPORTING
- B27—WORKING OR PRESERVING WOOD OR SIMILAR MATERIAL; NAILING OR STAPLING MACHINES IN GENERAL
- B27B—SAWS FOR WOOD OR SIMILAR MATERIAL; COMPONENTS OR ACCESSORIES THEREFOR
- B27B33/00—Sawing tools for saw mills, sawing machines, or sawing devices
- B27B33/16—Saw wires; Twisted saw strips
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- Engineering & Computer Science (AREA)
- Mechanical Engineering (AREA)
- Life Sciences & Earth Sciences (AREA)
- Wood Science & Technology (AREA)
- Forests & Forestry (AREA)
- Chemical & Material Sciences (AREA)
- Chemical Kinetics & Catalysis (AREA)
- Electrochemistry (AREA)
- Finish Polishing, Edge Sharpening, And Grinding By Specific Grinding Devices (AREA)
- Processing Of Stones Or Stones Resemblance Materials (AREA)
Description
本發明係關於一種使移行之引線擠壓於工件而切斷該工件的線鋸、及引線進行之工件之切斷方法。 The present invention relates to a wire saw for cutting a workpiece by pressing a traveling lead, and a method of cutting the workpiece by the lead.
JP1999-291154A中揭示有如下線鋸:使利用電鍍或樹脂將鑽石等研磨粒固定於芯線上而成的固定研磨粒引線移行,使引線接觸於工件,從而切斷工件。JP1999-291154A所揭示之線鋸中,使自引線供給部送出之引線由引線回收部收捲,且使於其間移動之引線接觸於工件而將該工件切斷。 JP1999-291154A discloses a wire saw in which a fixed abrasive grain lead obtained by fixing abrasive grains such as diamond to a core wire by electroplating or resin is moved, and the lead wire is brought into contact with the workpiece to cut the workpiece. In the wire saw disclosed in JP 1999-291154 A, the lead wire fed from the lead supply portion is wound by the wire collecting portion, and the lead wire moved therebetween is brought into contact with the workpiece to cut the workpiece.
就此種線鋸而言,於引線供給部與引線回收部之間移動的一根引線係以繞掛於複數個多槽輥之間且排列成並排狀、且向相同方向移行的方式受到牽引。藉由將工件擠壓於由如此受到牽引的引線所形成之複數個切斷部,可將工件同時切斷加工成複數個薄片。 In such a wire saw, one lead wire that moves between the lead supply portion and the lead wire collecting portion is wound so as to be wound around a plurality of multi-groove rollers and arranged in a row and in the same direction. The workpiece can be simultaneously cut into a plurality of sheets by pressing the workpiece against a plurality of cut portions formed by the lead thus drawn.
於此種線鋸中,為了高效率地切斷工件,須將構成切斷部之引線的張力維持於適當的範圍。當引線過度緊繃時,引線會產生斷線。因此,JP1999-291154A揭示之線鋸中,另具備有輥,該輥壓接於引線供給部之供給側捲盤與於引線回收部之回收側捲盤。該線鋸中,驅動供給側及收捲(回收)側之兩壓接輥,從而間接地驅動供給側捲盤與回收側捲盤。藉此,JP1999-291154A揭示之線鋸中,使供給側捲盤與回收側捲盤之間非同步地產 生的張力變化於壓接輥上滑動,藉此將其吸收,從而實現引線之張力穩定化。 In such a wire saw, in order to cut the workpiece efficiently, the tension of the lead wires constituting the cut portion must be maintained within an appropriate range. When the lead is too tight, the lead will break. Therefore, the wire saw disclosed in JP1999-291154A is further provided with a roller which is crimped to the supply side reel of the lead supply portion and the recovery side reel of the lead take-up portion. In the wire saw, two pressure rollers on the supply side and the winding (recycling) side are driven to indirectly drive the supply side reel and the recovery side reel. Therefore, in the wire saw disclosed in JP1999-291154A, the asynchronous land between the supply side reel and the recovery side reel is made. The tension of the raw material is changed by sliding on the pressure roller, thereby absorbing it, thereby stabilizing the tension of the wire.
然而,若以使用複數個多槽輥將一根引線排列成並排狀、且向相同方向移行的方式進行牽引而形成切斷部、且將工件擠壓於切斷部之引線,則自引線供給部送出後接觸於工件的引線會因其阻力而使之後的張力產生變動。因此,難以令使一根引線呈並排狀牽引而形成且同時切斷工件之複數個切斷部的所有張力變得均一。 However, when a plurality of multi-groove rolls are arranged in a side-by-side manner and pulled in the same direction to form a cut portion, and the workpiece is pressed against the lead of the cut portion, the lead wire is supplied. After the portion is fed out, the lead wire that contacts the workpiece changes its subsequent tension due to its resistance. Therefore, it is difficult to make all the tensions of the plurality of cut portions formed by pulling one lead in a side-by-side manner and simultaneously cutting the workpiece to be uniform.
本發明之目的在於提供一種能使牽引一根引線而形成的切斷工件之複數個切斷部的張力獲得均一的線鋸、及引線進行之工件之切斷方法。 SUMMARY OF THE INVENTION An object of the present invention is to provide a wire saw with a plurality of cut portions for cutting a workpiece formed by pulling one lead, and a method for cutting a workpiece by a lead.
根據本發明之某一形態,係一種線鋸,其具備:引線供給部,其送出引線;引線回收部,其將送出的上述引線回收;複數個切斷部,其藉由對上述引線供給部與上述引線回收部之間的上述引線進行牽引而形成,且切斷工件;傳送絞盤,其於繞掛有上述引線供給部與上述引線回收部之間的上述引線的狀態下旋轉,藉此使上述引線移動;送出側絞盤,其設在上述引線供給部,且於繞掛有較之上述傳送絞盤更靠上述引線供給部側的前側引線的狀態下旋轉,藉此,調整上述前側引線的張力;及回收側絞盤,其設在上述引線回收部,且於繞掛有較上述傳送絞盤更靠上述引線回收部側的後側引線的狀態下旋轉,藉此,調整上述後側引線的張力;且,複數個上述切斷部係由在上述送出側絞盤與上述傳送絞盤之間移動的上述前側引線、及在上述傳送絞盤與上述回收側絞盤之間移動的上述後側引線 形成。 According to one aspect of the present invention, a wire saw includes: a lead supply unit that feeds a lead; a lead collecting unit that collects the fed lead; and a plurality of cut portions that are supplied to the lead supply unit The lead wire is pulled between the lead wire collecting portion and the workpiece is cut, and the wrapper is rotated in a state in which the lead wire between the lead wire supplying portion and the lead wire collecting portion is wound around the lead wire. The lead wire is moved, and the feed-side winch is provided in the lead supply portion, and is rotated in a state in which the front lead wire on the lead supply portion side of the transfer winch is wound, thereby adjusting the tension of the front lead wire And a recovery side winch which is provided in the lead wire collecting portion and which is rotated in a state in which the rear lead wire on the lead wire collecting portion side of the transfer winch is wound, thereby adjusting the tension of the rear side lead; Further, the plurality of the cutting portions are the front side lead that moves between the delivery side winch and the transfer winch, and the transfer winch and the recovery Movement between the rear wire winch form.
根據本發明之另一形態,係一種引線進行之工件之切斷方法,其利用自引線供給部送出且由引線回收部收捲的引線而切斷工件;且該切斷方法係如下所述:將上述引線供給部與上述引線回收部之間的上述引線繞掛於傳送絞盤而使上述傳送絞盤旋轉,藉此,使上述引線移動;利用送出側絞盤,對於較上述傳送絞盤更靠上述引線供給部側的前側引線的張力進行調整;利用回收側絞盤,對於較上述傳送絞盤更靠上述引線回收部側的後側引線的張力進行調整;利用於張力已調整的狀態下在上述送出側絞盤與上述傳送絞盤之間移動的前側引線、及於張力已調整的狀態下在上述傳送絞盤與上述回收側絞盤之間移動的後側引線,切斷上述工件。 According to another aspect of the present invention, there is provided a method of cutting a workpiece by a lead, which cuts a workpiece by a lead which is fed from a lead supply portion and is wound by a lead collecting portion; and the cutting method is as follows: The lead wire between the lead supply unit and the lead wire collecting portion is wound around a transfer winch to rotate the transfer winch, thereby moving the lead wire; and the feed side winch is used to supply the lead wire to the transfer winch Adjusting the tension of the front side lead on the side of the portion; adjusting the tension of the rear lead on the lead collecting portion side of the transfer winch by the recovery side winch; and using the winch on the delivery side in a state where the tension is adjusted The front lead wire that moves between the transfer winches and the rear side lead that moves between the transfer winch and the recovery side winch in a state where the tension is adjusted is cut off the workpiece.
10‧‧‧線鋸 10‧‧‧ wire saw
11‧‧‧引線 11‧‧‧ lead
11a、11b‧‧‧切斷部 11a, 11b‧‧‧cutting department
11a‧‧‧前側引線 11a‧‧‧ front lead
11b‧‧‧後側引線 11b‧‧‧ rear lead
12‧‧‧工件 12‧‧‧Workpiece
20‧‧‧引線供給部 20‧‧‧Lead Supply Department
21‧‧‧台板 21‧‧‧ board
21a‧‧‧安裝腳 21a‧‧‧Installation feet
22‧‧‧捲盤 22‧‧‧Reel
23‧‧‧支撐台 23‧‧‧Support table
24‧‧‧箱體 24‧‧‧ cabinet
25‧‧‧鉛垂板 25‧‧‧ plumb board
26‧‧‧位置檢測機構 26‧‧‧Location Detection Agency
26a、26b‧‧‧繞掛輥 26a, 26b‧‧‧ winding roller
26c‧‧‧擺動板 26c‧‧‧ swinging board
27‧‧‧張力裝置 27‧‧‧ Tension device
27a、27b‧‧‧導輥 27a, 27b‧‧‧ guide roller
27c‧‧‧鬆緊調節臂 27c‧‧‧ elastic adjustment arm
28‧‧‧輥 28‧‧‧roll
29‧‧‧送出引線用負載單元 29‧‧‧Send the load unit for the lead
31‧‧‧送出側絞盤 31‧‧‧Send side winch
32、33‧‧‧繞掛輥 32, 33‧‧‧ winding roller
34‧‧‧前側旋轉馬達 34‧‧‧ Front side rotary motor
40‧‧‧加工機本體 40‧‧‧Processing machine body
41‧‧‧殼體 41‧‧‧Shell
41a‧‧‧安裝腳 41a‧‧‧Installation feet
41b、41c‧‧‧門 41b, 41c‧‧‧
41d‧‧‧頂板 41d‧‧‧ top board
42‧‧‧升降機 42‧‧‧ Lifts
42a‧‧‧搭載台 42a‧‧‧Loading table
42b‧‧‧升降機本體 42b‧‧‧ lift body
42c‧‧‧軟管 42c‧‧‧Hose
42d‧‧‧支撐腳 42d‧‧‧Support feet
43‧‧‧滑輪 43‧‧‧ pulley
44‧‧‧制動器 44‧‧‧ brake
46‧‧‧傳送絞盤 46‧‧‧Transfer winch
47、48‧‧‧繞掛輥 47, 48‧‧‧ winding rollers
49‧‧‧驅動馬達 49‧‧‧Drive motor
51、52‧‧‧第1、第2負載單元 51, 52‧‧‧1st and 2nd load units
53、54‧‧‧第3、第4負載單元 53, 54‧‧‧3rd and 4th load cells
56~59‧‧‧撐桿 56~59‧‧‧ poles
120‧‧‧引線回收部 120‧‧‧Lead Recycling Department
121‧‧‧引線回收裝置 121‧‧‧Lead recovery device
121a‧‧‧安裝腳 121a‧‧‧Installation feet
122‧‧‧捲盤 122‧‧‧Reel
123‧‧‧支撐台 123‧‧‧Support table
124‧‧‧箱體 124‧‧‧ cabinet
125‧‧‧鉛垂板 125‧‧‧ plumb board
126‧‧‧位置檢測機構 126‧‧‧Location Inspection Agency
126a、126b‧‧‧繞掛輥 126a, 126b‧‧‧ winding roller
126c‧‧‧擺動板 126c‧‧‧ swinging board
127‧‧‧張力裝置 127‧‧‧ Tension device
127a、127b‧‧‧導輥 127a, 127b‧‧‧ guide rollers
127c‧‧‧鬆緊調節臂 127c‧‧‧ elastic adjustment arm
128‧‧‧輥 128‧‧‧ Roll
129‧‧‧回收引線用負載單元 129‧‧‧Recovery load unit for lead
131‧‧‧回收側絞盤 131‧‧‧Recovery side winch
132、133‧‧‧繞掛輥 132, 133‧‧‧ winding roller
134‧‧‧旋轉馬達 134‧‧‧Rotary motor
圖1係表示本發明之實施形態之線鋸、及引線進行之工件之切斷方法的構成圖。 Fig. 1 is a view showing the configuration of a wire saw according to an embodiment of the present invention and a method of cutting a workpiece by a lead.
圖2係本發明之實施形態之線鋸的正視圖。 Fig. 2 is a front elevational view of a wire saw according to an embodiment of the present invention.
圖3係本發明之實施形態之線鋸的俯視圖。 Fig. 3 is a plan view of a wire saw according to an embodiment of the present invention.
圖4係本發明之實施形態之線鋸的立體圖。 Fig. 4 is a perspective view of a wire saw according to an embodiment of the present invention.
圖5係圖2之A-A線剖面圖。 Figure 5 is a cross-sectional view taken along line A-A of Figure 2.
圖6係表示本發明之實施形態之線鋸中殼體內部的滑輪與制動器的立體圖。 Fig. 6 is a perspective view showing a pulley and a brake inside the casing of the wire saw according to the embodiment of the present invention.
以下,參照隨附圖式對於本發明之實施形態進行說明。 Hereinafter, embodiments of the present invention will be described with reference to the accompanying drawings.
圖1中表示本發明之實施形態之線鋸10的構成。線鋸10具有:引線供給部,其送出引線11;引線回收部,其將送出的引線11回收;及切斷部,其形成於引線供給部與引線回收部之間。切斷部係藉由引線供給部與引線回收部之間的移動途中的引線11形成,且以切斷工件12的方式構成。 Fig. 1 shows the configuration of a wire saw 10 according to an embodiment of the present invention. The wire saw 10 has a lead supply portion that feeds the lead wires 11 , a lead wire collecting portion that collects the supplied lead wires 11 , and a cut portion that is formed between the lead wire supply portion and the lead wire collecting portion. The cutting portion is formed by the lead wire 11 in the middle of the movement between the lead supply portion and the lead wire collecting portion, and is configured to cut the workpiece 12.
圖2~圖4中表示線鋸10的具體構成。線鋸10具備:引線送出裝置20,其構成引線供給部;引線回收裝置120,其構成引線回收部;及加工機本體40,其將自引線送出裝置20送出後由引線回收裝置120回收的移動途中的引線11牽引至內部。以下,於各圖中,設定彼此正交的X、Y及Z該等3軸,使X軸於略水平前後方向延伸,使Y軸於略水平橫方向延伸,使Z軸於鉛垂方向延伸,從而對線鋸10的構成進行說明。 The specific configuration of the wire saw 10 is shown in Figs. 2 to 4 . The wire saw 10 includes a lead wire feeding device 20 that constitutes a wire supply portion, a wire collecting device 120 that constitutes a wire collecting portion, and a processing machine body 40 that is transported from the wire feeding device 20 and then recovered by the wire collecting device 120. The lead 11 on the way is pulled to the inside. Hereinafter, in each of the drawings, three axes of X, Y, and Z orthogonal to each other are set, the X axis is extended in the horizontal horizontal direction, the Y axis is extended in the horizontal direction, and the Z axis is extended in the vertical direction. Thus, the configuration of the wire saw 10 will be described.
引線送出裝置20、加工機本體40及引線回收裝置120係依序沿Y軸方向並排而設。引線送出裝置20與引線回收裝置120形成為對稱構造,且其各構成相同。引線送出裝置20與引線回收裝置120分別向正轉方向與反轉方向做動。 The lead wire feeding device 20, the processing machine main body 40, and the lead wire collecting device 120 are sequentially arranged in the Y-axis direction. The lead wire feeding device 20 and the lead wire collecting device 120 are formed in a symmetrical structure, and their respective configurations are the same. The lead wire feeding device 20 and the lead wire collecting device 120 are respectively moved in the normal rotation direction and the reverse rotation direction.
若引線送出裝置20送出引線、且引線回收裝置120回收引線的情況視為正轉方向,則當為反轉方向時,引線回收裝置120作為送出裝置(引線供給部)發揮功能,引線送出裝置20作為引線回收裝置(引線回收部)發揮功能。此時,僅引線11之送出與回收的運行相反,故而,本實施形態中,以正轉方向上的引線送出裝置20為中心進行說明。而且,引線回收裝置120之捲盤122~旋轉馬達134分別與引線送出裝置20之捲盤22~旋轉馬達34為同樣地構成,故而,省略其詳細說明。而且,於正轉方 向上的說明中,如後述之送出側絞盤31、回收側絞盤131般,因應需要使用「送出側」、「回收側」等表達,以下,將圖1所示之箭頭方向作為正轉方向進行說明。 When the lead wire feeding device 20 feeds the lead wire and the lead wire collecting device 120 collects the lead wire as the forward rotation direction, the lead wire collecting device 120 functions as a feeding device (lead supply portion) when the wire is fed in the reverse direction, and the wire feeding device 20 It functions as a lead collection device (lead collection unit). At this time, only the lead wire 11 is sent out in the opposite direction to the recovery operation. Therefore, in the present embodiment, the lead wire feeding device 20 in the normal rotation direction will be mainly described. Further, since the reel 122 to the rotary motor 134 of the lead wire collecting device 120 are configured similarly to the reel 22 to the rotary motor 34 of the lead wire feeding device 20, detailed description thereof will be omitted. Moreover, in the positive turn In the above description, as described above, the delivery side winch 31 and the recovery side winch 131 are required to use the expressions such as "sending side" and "recovery side". Hereinafter, the direction of the arrow shown in FIG. 1 will be described as the forward direction. .
如圖2~圖4所示,引線送出裝置20具備台板21,該台板21具有複數個安裝腳21a。台板21係以可透過伸長的複數個安裝腳21a而水平地設置的方式構成。台板21上,設有旋轉軸沿X軸方向延伸的捲盤22(參照圖2)。捲盤22係將引線11捲繞於其捲體部而儲線。捲盤22係以其旋轉軸可旋轉的方式設於支撐台23。支撐台23係以於可旋轉地支撐捲盤22的狀態下可沿捲盤22的軸向(X軸方向)移動的方式安裝於台板21。 As shown in FIGS. 2 to 4, the lead wire feeding device 20 is provided with a platen 21 having a plurality of mounting legs 21a. The platen 21 is configured to be horizontally provided by a plurality of elongated mounting legs 21a. The platen 21 is provided with a reel 22 (see Fig. 2) in which the rotating shaft extends in the X-axis direction. The reel 22 winds the lead wire 11 around the winding body portion thereof to store the wire. The reel 22 is provided on the support table 23 so that its rotation axis is rotatable. The support base 23 is attached to the platen 21 so as to be movable in the axial direction (X-axis direction) of the reel 22 in a state where the reel 22 is rotatably supported.
此處,捲繞於捲盤22之引線11係用作線鋸10的切斷齒,且本實施形態中由所謂固定研磨粒引線而構成。固定研磨粒引線係利用電鍍或樹脂而將鑽石等研磨粒固定於芯線即引線的周圍而成者。引線11並不限於固定研磨粒引線,只要能切斷工件12,則亦可為其他類型的引線。 Here, the lead 11 wound around the reel 22 is used as a cutting tooth of the jigsaw 10, and in the present embodiment, it is constituted by a so-called fixed abrasive grain lead. The fixed abrasive grain lead is obtained by fixing abrasive grains such as diamond to the periphery of the lead wire, such as a lead, by plating or resin. The lead 11 is not limited to the fixed abrasive grain lead, and other types of leads may be used as long as the workpiece 12 can be cut.
雖未圖示,但於支撐台23設有使捲盤22旋轉的送出馬達。送出馬達為能使引線供給用之捲盤22的旋轉速度變更的伺服馬達。於送出馬達,連接有未圖示的控制器的控制輸出線。而且,送出馬達基於來自控制器的指令而使引線供給用之捲盤22按規定的速度旋轉,藉此,可自捲盤22送出引線11。 Although not shown, a feeding motor that rotates the reel 22 is provided on the support base 23. The delivery motor is a servo motor that can change the rotational speed of the reel 22 for lead supply. A control output line of a controller (not shown) is connected to the delivery motor. Further, the delivery motor rotates the reel 22 for supplying the lead at a predetermined speed based on an instruction from the controller, whereby the lead 11 can be fed from the reel 22.
於台板21的上表面,組裝有箱體24(參照圖3)。於捲盤22上方之箱體24的前表面,安裝有與X軸正交且平行於YZ平面的鉛垂板25。如圖2所示,於鉛垂板25上設有位置檢測機構26,該位置檢測機構26係對於自於X軸方向(捲盤22的軸向)捲盤22送出之引線11的位置進行 檢測。 A casing 24 is assembled on the upper surface of the platen 21 (see Fig. 3). On the front surface of the casing 24 above the reel 22, a vertical plate 25 orthogonal to the X-axis and parallel to the YZ plane is mounted. As shown in FIG. 2, a position detecting mechanism 26 is provided on the vertical plate 25, and the position detecting mechanism 26 performs the position of the lead wire 11 fed from the reel 22 from the X-axis direction (the axial direction of the reel 22). Detection.
位置檢測機構26具備:一對繞掛輥26a、26b,其樞支於擺動板26c且繞掛有自捲盤22向上方送出的引線11;及未圖示的角度檢測感測器,其對於擺動板26c相對於基準位置的旋轉角度進行檢測。 The position detecting mechanism 26 includes a pair of winding rollers 26a and 26b pivotally supported by the swinging plate 26c and wound around the lead wire 11 which is fed upward from the reel 22; and an angle detecting sensor (not shown) for The rotation angle of the oscillating plate 26c with respect to the reference position is detected.
一對繞掛輥26a、26b係於鉛垂方向上下並排地設於擺動板26c的Y軸方向的另一端。擺動板26c平行於鉛垂板25而得到樞支。更具體而言,擺動板26c係於一對繞掛輥26a、26b位於捲盤22上方的狀態下,以平行於鉛垂軸(Z軸)的旋轉軸為中心,以其Y軸方向的一端可擺動的方式樞支於鉛垂板25。 The pair of winding rollers 26a and 26b are arranged side by side in the vertical direction at the other end in the Y-axis direction of the swinging plate 26c. The swinging plate 26c is pivotally parallel to the vertical plate 25. More specifically, the swinging plate 26c is in a state in which the pair of winding rollers 26a, 26b are positioned above the reel 22, with one end in the Y-axis direction centering on the rotation axis parallel to the vertical axis (Z-axis) The pivot plate is pivotally supported by the vertical plate 25.
自捲盤22朝向上方的引線11係呈S字狀繞掛於位置檢測機構26的一對繞掛輥26a、26b。因此,若來自捲盤22之引線的送出位置於X軸方向上產生偏離,則擺動板26c會擺動。藉此,以如下方式構成:若未圖示的角度感測器檢測到擺動板26c的擺動,則使支撐捲盤22的支撐台23於X軸方向移動,而使來自捲盤22之引線11的送出位置始終為固定。 The lead wires 11 that are directed upward from the reel 22 are wound in a pair of wrap rollers 26a and 26b in the shape of an S-shaped hook. Therefore, if the feeding position of the lead wire from the reel 22 is deviated in the X-axis direction, the swinging plate 26c swings. Thereby, when the angle sensor (not shown) detects the swing of the swinging plate 26c, the support table 23 of the support reel 22 is moved in the X-axis direction, and the lead wire 11 from the reel 22 is caused. The delivery position is always fixed.
於鉛垂板25設有張力裝置27,該張力裝置27係對於繞掛於位置檢測機構26之一對繞掛輥26a、26b而穿過的引線11賦予固定的張力。張力裝置27具備:一對導輥27a、27b,其呈S字狀繞掛有已穿過一對繞掛輥26a、26b的引線11;鬆緊調節臂27c,其兩端樞支有一對導輥27a、27b,且以可將一對導輥27a、27b的中間作為中心而旋轉的方式樞支於鉛垂板25;及未圖示的轉矩用馬達,其使鬆緊調節臂27c以規定的轉矩旋轉。 The tension plate 25 is provided with a tensioning device 27 for imparting a constant tension to the lead wires 11 which are wound around the winding rollers 26a and 26b by one of the position detecting mechanisms 26. The tension device 27 is provided with a pair of guide rollers 27a and 27b which are wound in an S shape with leads 11 which have passed through a pair of winding rollers 26a and 26b, and a tension adjusting arm 27c which is pivotally supported at both ends with a pair of guide rollers 27a and 27b are pivotally supported by the vertical plate 25 so as to be rotatable about the center of the pair of guide rolls 27a and 27b; and a torque motor (not shown) which defines the elastic adjustment arm 27c. Torque rotation.
作為轉矩用馬達,可使用利用轉矩控制而產生固定轉矩的伺服馬達。利用由轉矩用馬達而賦予鬆緊調節臂27c的旋轉方向上的施力,而 對繞掛於設在該鬆緊調節臂27c兩端之一對導輥27a、27b的引線11施加規定的張力。 As the torque motor, a servo motor that generates a fixed torque by torque control can be used. Applying a biasing force in the rotational direction of the dancer arm 27c by the torque motor A predetermined tension is applied to the lead wires 11 which are wound around the guide rollers 27a and 27b provided at one of the both ends of the elastic adjusting arm 27c.
此處,於鉛垂板25設有輥28,該輥28係為了向不對裝於擺動板26c的繞掛輥26a過度地施加負載的位置送出引線11。而且,於鉛垂板25設有送出引線用負載單元29,該送出引線用負載單元29繞掛有位置檢測機構26與張力裝置27之間的引線11、且檢測其間的引線11的張力。 Here, the vertical plate 25 is provided with a roller 28 for feeding the lead wire 11 at a position where the load is not excessively applied to the winding roller 26a attached to the oscillating plate 26c. Further, the lead plate 25 is provided with a lead wire load unit 29 that winds the lead wires 11 between the position detecting mechanism 26 and the tension device 27 and detects the tension of the lead wires 11 therebetween.
之後,繞掛於一對導輥27a、27b的引線11透過設於鉛垂板25的送出側絞盤31而送出。 Thereafter, the lead wires 11 wound around the pair of guide rollers 27a and 27b are transmitted through the delivery side winch 31 provided on the vertical plate 25.
於在Y軸方向上與引線送出裝置20相離地設置之引線回收裝置120上,引線11最初繞掛於回收側絞盤131。之後,引線11穿過引線回收裝置120的張力裝置127、回收引線用負載單元129及位置檢測機構126之後,捲繞於回收側的捲盤122。 The lead wire 11 is first wound around the recovery side winch 131 on the lead wire collecting device 120 which is disposed apart from the lead wire feeding device 20 in the Y-axis direction. Thereafter, the lead wire 11 passes through the tension device 127 of the lead collection device 120, the recovery lead load unit 129, and the position detecting mechanism 126, and then is wound around the reel side reel 122.
設於以上述方式構成之引線送出裝置20與引線回收裝置120之間的加工機本體40係將自引線送出裝置20送出且由引線回收裝置120回收的移動途中的引線11拉入至內部。 The processing machine main body 40 provided between the lead feeding device 20 and the lead collecting device 120 configured as described above is pulled into the inside by the lead wire 11 which is sent out from the lead feeding device 20 and recovered by the lead collecting device 120.
加工機本體40具備殼體41,該殼體41係將由移動的引線11所切斷的被切斷對象物即工件12收容於內部。殼體41為具有複數個安裝腳41a的箱體,且於正面的上部設有供工件12插卸的門41b、41c。 The processing machine main body 40 is provided with a casing 41 that houses the workpiece 12, which is a target object to be cut, which is cut by the moving lead wire 11 , inside. The casing 41 is a casing having a plurality of mounting legs 41a, and doors 41b and 41c for inserting and detaching the workpiece 12 are provided on the upper portion of the front surface.
如圖2所示,於殼體41的內部側的底部,設有將工件12搭載於其上部而升降的升降機42。升降機42具備:實際搭載工件12的搭載台42a、上端設有搭載台42a的支撐腳42d、及使支撐腳42d與搭載台42a一同升降的升降機本體42b。搭載台42a與升降機本體42b之間的支撐腳42d 係由蛇腹狀的軟管42c包圍。藉此,可防止切削時掉落至工件12的切削油的浸入。 As shown in FIG. 2, an elevator 42 that lifts and lowers the workpiece 12 on the upper side of the casing 41 is provided. The lifter 42 includes a mounting table 42a on which the workpiece 12 is actually mounted, a support leg 42d on the upper end of which the mounting table 42a is provided, and an elevator body 42b that lifts and lowers the support leg 42d together with the mounting table 42a. Support leg 42d between the mounting table 42a and the elevator body 42b It is surrounded by a bellows-like hose 42c. Thereby, the intrusion of the cutting oil dropped to the workpiece 12 at the time of cutting can be prevented.
而且,將於下文敘述,於殼體41的內部、升降機42的上方,設有對於移動途中的引線11進行牽引的複數個滑輪43(圖6)、及使複數個滑輪43的一部分或全部移動的制動器44(圖6)。 Further, as will be described later, a plurality of pulleys 43 (FIG. 6) for pulling the lead wires 11 in the middle of the movement and a part or all of the plurality of pulleys 43 are provided inside the casing 41 and above the elevator 42. Brake 44 (Figure 6).
如圖1所示,線鋸10中設有傳送絞盤46,該傳送絞盤46上繞掛有引線送出裝置(引線供給部)20與引線回收裝置(引線回收部)120之間的引線11。引線11係於360°以下的範圍繞掛於傳送絞盤46的周圍。引線11亦可於360°以上的範圍繞掛且捲繞於傳送絞盤46的周圍。而且,於引線送出裝置20中設有送出側絞盤31,於引線回收裝置120中設有回收側絞盤131。線鋸10係以如下方式構成:利用於送出側絞盤31與傳送絞盤46之間移動的前側引線11a、及於傳送絞盤46與回收側絞盤131之間移動的後側引線11b切斷工件12。 As shown in FIG. 1, the wire saw 10 is provided with a transfer winch 46 around which a lead wire 11 between a lead feeding device (lead supply portion) 20 and a lead collecting device (lead collecting portion) 120 is wound. The lead wire 11 is wound around the circumference of the transfer winch 46 in a range of 360° or less. The lead wire 11 can also be wound around the 360° or more and wound around the transfer winch 46. Further, a lead-side winch 31 is provided in the lead wire feeding device 20, and a recovery-side winch 131 is provided in the lead collecting device 120. The wire saw 10 is configured such that the front side lead 11a that moves between the feed side winch 31 and the transfer winch 46 and the rear side lead 11b that moves between the transfer winch 46 and the recovery side winch 131 cut the workpiece 12.
傳送絞盤46係於繞掛有引線送出裝置20與引線回收裝置120之間的移動途中的引線11的狀態下旋轉,藉此使引線11移動。如圖2~圖5所示,傳送絞盤46係露出於構成加工機本體40之殼體41的外部而設。具體而言,傳送絞盤46設於引線回收裝置120側的殼體41的側壁。 The transfer winch 46 is rotated in a state in which the lead wires 11 in the middle of the movement between the lead wire feeding device 20 and the lead wire collecting device 120 are wound, whereby the lead wires 11 are moved. As shown in FIGS. 2 to 5, the transfer winch 46 is exposed to the outside of the casing 41 constituting the processing machine main body 40. Specifically, the transfer winch 46 is provided on the side wall of the casing 41 on the side of the lead collecting device 120.
傳送絞盤46上繞掛有引線11。如圖4及圖5所示,於引線回收裝置120側的殼體41的側壁,在傳送絞盤46的附近設有用於將引線11繞掛於傳送絞盤46的一對繞掛輥47、48。 A lead wire 11 is wound around the transfer winch 46. As shown in FIGS. 4 and 5, a pair of winding rollers 47, 48 for winding the lead wires 11 around the transport winch 46 are provided in the vicinity of the transport winch 46 on the side wall of the casing 41 on the side of the lead collecting means 120.
傳送絞盤46係使引線11始終以固定的速度移動者。於引線回收裝置120側的殼體41的側壁,設有使傳送絞盤46旋轉的驅動馬達49。 驅動馬達49係可使傳送絞盤46的旋轉速度變更的伺服馬達。於驅動馬達49,連接有未圖示的控制器的控制輸出線。控制器係以如下方式進行控制:透過驅動馬達49而使傳送絞盤46始終以固定的速度旋轉,且使繞掛於該傳送絞盤46的引線11始終以相同的速度移動。 The transfer winch 46 is such that the lead 11 is always moved at a fixed speed. A drive motor 49 that rotates the transfer winch 46 is provided on the side wall of the casing 41 on the lead recovery device 120 side. The drive motor 49 is a servo motor that can change the rotational speed of the transfer winch 46. A control output line of a controller (not shown) is connected to the drive motor 49. The controller is controlled in such a manner that the transfer winch 46 is always rotated at a fixed speed by the drive motor 49, and the lead wires 11 wound around the transfer winch 46 are always moved at the same speed.
如圖1所示,線鋸10具備:第1及第2負載單元51、52,其對於切斷工件12前後的前側引線11a的張力進行檢測;及第3及第4負載單元53、54,其對於切斷工件12前後的後側引線11b的張力進行檢測。 As shown in FIG. 1, the wire saw 10 includes first and second load units 51 and 52 for detecting the tension of the front lead 11a before and after the workpiece 12 is cut, and third and fourth load units 53, 54. This detects the tension of the rear side lead 11b before and after the workpiece 12 is cut.
如圖2所示,第1負載單元51係設於殼體41的引線送出裝置20側的側壁。如圖4及圖5所示,第2~第4負載單元52~54係設於殼體41的引線回收裝置120側的側壁。 As shown in FIG. 2, the first load unit 51 is provided on the side wall of the casing 41 on the side of the lead feeding device 20. As shown in FIGS. 4 and 5, the second to fourth load units 52 to 54 are provided on the side wall of the casing 41 on the side of the lead collection device 120.
具體而言,第1負載單元51係以繞掛有如下引線11的方式設於殼體41的側壁,該引線11係自引線送出裝置20送出的引線11、且為被拉入殼體41內部之前的引線11。 Specifically, the first load unit 51 is provided on the side wall of the casing 41 so as to be wound around the lead wire 11 which is fed from the lead wire feeding device 20 and is drawn into the casing 41. Previous lead 11.
如圖5所示,第2負載單元52係以繞掛有如下引線11的方式設於殼體41的側壁,該引線11係自殼體41的內部拉出且朝向傳送絞盤46的引線11。第3負載單元53係以繞掛有如下引線11的方式設於殼體41的側壁,該引線11係自傳送絞盤46再次朝向殼體41內部的引線11。第4負載單元54係以繞掛有如下引線11的方式殼體41的側壁,該引線11係自殼體41的內部拉出且朝向引線回收裝置120的引線11。 As shown in FIG. 5, the second load unit 52 is provided on the side wall of the casing 41 so as to be wound around the inside of the casing 41, and the lead 11 is pulled out from the inside of the casing 41 and directed toward the lead wire 11 of the transmission winch 46. The third load unit 53 is provided on the side wall of the casing 41 so as to be wound around the lead wire 11, and the lead wire 11 is again directed from the transport winch 46 toward the lead wire 11 inside the casing 41. The fourth load unit 54 is a side wall of the casing 41 so as to be wound around the lead wire 11 which is pulled out from the inside of the casing 41 and faces the lead wire 11 of the lead collecting device 120.
如圖2~圖4所示,設於引線送出裝置20之鉛垂板25上的送出側絞盤31係,於繞掛有較傳送絞盤46更靠前側(引線送出裝置20側)的引線11的狀態旋轉,藉此,調整送出側絞盤31與傳送絞盤46之間的前 側引線11a的張力之張力調整用絞盤。引線11係於360°以下的範圍繞掛於送出側絞盤31的周圍。引線11亦可於360°以上的範圍繞掛且捲繞於送出側絞盤31的周圍。於鉛垂板25,在送出側絞盤31的附近,設有用於將引線11繞掛於送出側絞盤31的一對繞掛輥32、33。 As shown in FIG. 2 to FIG. 4, the delivery side winch 31 provided on the vertical plate 25 of the lead wire feeding device 20 is connected to the lead wire 11 on the front side (the lead wire feeding device 20 side) of the transfer winch 46. State rotation, whereby the front between the delivery side winch 31 and the transfer winch 46 is adjusted A tension adjusting winch for tension of the side lead 11a. The lead wire 11 is wound around the circumference of the delivery side winch 31 in a range of 360° or less. The lead wire 11 can also be wound around the 360° or more and wound around the delivery side winch 31. In the vertical plate 25, a pair of winding rollers 32, 33 for winding the lead wires 11 around the delivery side winch 31 are provided in the vicinity of the delivery side winch 31.
於鉛垂板25,設有使送出側絞盤31旋轉的前側旋轉馬達34。前側旋轉馬達34係能使送出側絞盤31的旋轉速度變更的伺服馬達。於前側旋轉馬達34,亦連接有未圖示的控制器之控制輸出線。 A front side rotation motor 34 that rotates the delivery side winch 31 is provided in the vertical plate 25. The front side rotation motor 34 is a servo motor that can change the rotation speed of the delivery side winch 31. A control output line of a controller (not shown) is also connected to the front side rotation motor 34.
另一方面,設於引線回收裝置121之鉛垂板125上的回收側絞盤131係,繞掛有較之傳送絞盤46更靠後側(引線回收裝置121側)的引線11的狀態下旋轉,藉此調整傳送絞盤46與回收側絞盤131之間的後側引線11b的張力之張力調整用絞盤。引線11係於360°以下的範圍繞掛於回收側絞盤131的周圍。引線11亦可於360°以上的範圍繞掛且捲繞於回收側絞盤131的周圍。於鉛垂板125,在回收側絞盤131的附近,設有用於將引線11繞掛於回收側絞盤131的一對繞掛輥132、133。 On the other hand, the recovery-side winch 131 provided on the vertical plate 125 of the lead collecting device 121 is rotated in a state in which the lead wires 11 on the rear side (the side of the lead collecting means 121) are wound around the transfer winch 46. Thereby, the tension adjusting winch for adjusting the tension of the rear side lead 11b between the winch 46 and the recovery side winch 131 is adjusted. The lead wire 11 is wound around the recovery side winch 131 in a range of 360° or less. The lead wire 11 can also be wound around the 360° or more and wound around the recovery side winch 131. In the vertical plate 125, a pair of winding rollers 132, 133 for winding the lead wires 11 around the recovery side winch 131 are provided in the vicinity of the recovery side winch 131.
於鉛垂板125,設有使回收側絞盤131旋轉的後側旋轉馬達134。 A rear side rotation motor 134 that rotates the recovery side winch 131 is provided in the vertical plate 125.
後側旋轉馬達134亦為能使回收側絞盤131的旋轉速度變更的伺服馬達。於後側旋轉馬達134,亦連接有未圖示的控制器的控制輸出線。 The rear side rotation motor 134 is also a servo motor that can change the rotation speed of the recovery side winch 131. A control output line of a controller (not shown) is also connected to the rear side rotation motor 134.
如圖1所示,設於殼體41(參照圖2)內的第1及第2負載單元51、52係對於切斷工件12前後的前側引線11a的張力進行檢測者。第3及第4負載單元53、54係對於切斷工件12前後的後側引線11b的張力進行檢測者。第1~第4負載單元51~54之檢測輸出線連接於未圖示的控制 器。 As shown in FIG. 1, the first and second load cells 51 and 52 provided in the casing 41 (see FIG. 2) detect the tension of the front lead 11a before and after the workpiece 12 is cut. The third and fourth load cells 53 and 54 detect the tension of the rear lead 11b before and after the workpiece 12 is cut. The detection output lines of the first to fourth load units 51 to 54 are connected to a control not shown Device.
控制器係基於第1及第2負載單元51、52之檢測輸出而控制前側旋轉馬達34,從而控制送出側絞盤31的旋轉。藉此,控制器對於在送出側絞盤31與傳送絞盤46之間移動的前側引線11a的張力進行調整。 The controller controls the front side rotation motor 34 based on the detection outputs of the first and second load units 51 and 52 to control the rotation of the delivery side winch 31. Thereby, the controller adjusts the tension of the front side lead 11a that moves between the delivery side winch 31 and the transfer winch 46.
而且,控制器係基於第3及第4負載單元53、54之檢測輸出而控制後側旋轉馬達134,從而控制回收側絞盤131的旋轉。藉此,控制器對於在傳送絞盤46與回收側絞盤131之間移動的後側引線11b的張力進行調整。 Further, the controller controls the rear side rotation motor 134 based on the detection outputs of the third and fourth load units 53, 54 to control the rotation of the recovery side winch 131. Thereby, the controller adjusts the tension of the rear side lead 11b that moves between the transfer winch 46 and the recovery side winch 131.
若利用傳送絞盤46使1根引線11以固定的速度移動、且利用傳送絞盤46前後的引線11切斷工件12,則先切斷工件12之前側引線11a的切斷加工時產生的阻力會施加於之後切斷工件12的後側引線11b。因此,進行切斷加工的前側引線11a與後側引線11b的張力有產生相異之虞。 When one lead 11 is moved at a fixed speed by the transfer winch 46, and the workpiece 12 is cut by the lead 11 before and after the transfer winch 46, the resistance generated when the cutting of the front side lead 11a of the workpiece 12 is first cut is applied. The rear side lead 11b of the workpiece 12 is then cut. Therefore, the tension between the front side lead 11a and the rear side lead 11b which are subjected to the cutting process differs.
對此,本實施形態中,控制送出側絞盤31的旋轉而對前側引線11a的張力進行調整,且控制回收側絞盤131的旋轉而對後側引線11b的張力進行調整。因此,能分別調整前側引線11a與後側引線11b的張力。藉此,能使同時切斷工件12之前側引線11a與後側引線11b的張力變得均一,從而能更穩定地對工件12進行切削加工。 On the other hand, in the present embodiment, the rotation of the feed-side winch 31 is controlled to adjust the tension of the front lead 11a, and the rotation of the recovery-side winch 131 is controlled to adjust the tension of the rear lead 11b. Therefore, the tension of the front side lead 11a and the rear side lead 11b can be adjusted separately. Thereby, the tension between the front side lead 11a and the rear side lead 11b of the workpiece 12 can be made uniform at the same time, and the workpiece 12 can be more stably cut.
第1、第2負載單元51、52係對於切斷工件12前後的前側引線11a的張力進行檢測,第3、第4負載單元53、54係對於切斷工件12前後的後側引線11b的張力進行檢測。因此,藉由以第1、第3負載單元51、53的值變得相等、且第2、第4負載單元52、54的值亦變得相等的方式,對於前側引線11a及後側引線11b的張力進行調整,能更確實地進行均一化 的切斷加工。此處,利用傳送絞盤46而使引線11的移動速度固定,故而,引線11之移動速度不會隨著張力調整而變化。 The first and second load cells 51 and 52 detect the tension of the front lead 11a before and after the workpiece 12 is cut, and the third and fourth load units 53 and 54 are the tension of the rear lead 11b before and after the workpiece 12 is cut. Test. Therefore, the front lead wire 11a and the rear side lead wire 11b are the same as the values of the first and third load cells 51 and 53 are equal, and the values of the second and fourth load cells 52 and 54 are also equal. The tension is adjusted to make it more uniform Cutting process. Here, since the moving speed of the lead wire 11 is fixed by the transfer winch 46, the moving speed of the lead wire 11 does not change with the tension adjustment.
若藉由傳送絞盤46的旋轉而使引線11移動,則藉由送出側絞盤31的旋轉而自引線送出裝置20的捲盤22送出引線11。若自送出側之捲盤22的送出量相對於引線11之移動量而有所增加,則繞掛於張力裝置27之一對導輥27a、27b的引線11的全長會增加。因此,鬆緊調節臂27c向圖2中實線箭頭所示的左方向旋轉。 When the lead wire 11 is moved by the rotation of the transfer winch 46, the lead wire 11 is fed out from the reel 22 of the lead wire feeding device 20 by the rotation of the feed side winch 31. When the amount of the reel 22 fed from the delivery side increases with respect to the amount of movement of the lead 11, the total length of the lead 11 wound around the pair of guide rolls 27a and 27b of the tension device 27 increases. Therefore, the dancer arm 27c is rotated in the left direction indicated by the solid arrow in FIG.
反之,若引線11自送出側之捲盤22的送出量減少,則繞掛於一對導輥27a、27b的引線11的全長會減少。因此,鬆緊調節臂27c向圖2中虛線箭頭所示的右方向旋轉。 On the other hand, when the amount of the lead wire 11 fed from the take-up side of the reel 22 is reduced, the total length of the lead wire 11 wound around the pair of guide rolls 27a and 27b is reduced. Therefore, the dancer arm 27c is rotated in the right direction indicated by the dotted arrow in FIG.
鬆緊調節臂27c自中立位置起的旋轉可由未圖示的編碼器而檢測。控制器係基於編碼器之檢測輸出而對於使送出側的捲盤22旋轉的未圖示的馬達進行控制,且變更調整捲盤22的旋轉速度而將引線11的送出量調整為與傳送絞盤46的移動量相同。藉此,鬆緊調節臂27c維持於中立位置。 The rotation of the dancer arm 27c from the neutral position can be detected by an encoder (not shown). The controller controls a motor (not shown) that rotates the reel 22 on the delivery side based on the detection output of the encoder, and changes the rotation speed of the adjustment reel 22 to adjust the delivery amount of the lead 11 to the transfer winch 46. The amount of movement is the same. Thereby, the elastic adjustment arm 27c is maintained at the neutral position.
於引線回收裝置120中,藉由使回收側絞盤131旋轉而回收引線11,從而將其捲繞於回收側的捲盤122。若回收側的捲盤122的回收量減少,則繞掛於張力裝置127之一對導輥127a、127b的引線11的全長會增加。因此,鬆緊調節臂127c向圖2中實線箭頭所示的右方向旋轉。 In the lead collection device 120, the lead wire 11 is recovered by rotating the recovery-side winch 131, and is wound around the reel 122 on the recovery side. When the amount of recovery of the reel 122 on the recovery side is reduced, the total length of the lead 11 wound around the pair of guide rolls 127a and 127b of the tension device 127 is increased. Therefore, the dancer arm 127c is rotated in the right direction indicated by the solid arrow in FIG.
反之,若回收側的捲盤122的回收量增加,則繞掛於一對導輥127a、127b的引線11的全長亦減少。因此,鬆緊調節臂127c向圖2中虛線箭頭所示的左方向旋轉。 On the other hand, when the amount of recovery of the reel 122 on the recovery side is increased, the total length of the lead 11 wound around the pair of guide rolls 127a and 127b is also reduced. Therefore, the dancer arm 127c is rotated in the left direction indicated by the dotted arrow in FIG.
鬆緊調節臂127c自中立位置起的旋轉可由未圖示的編碼器而檢測。控制器係基於編碼器之檢測輸出而對於使回收側的捲盤122旋轉的馬達進行控制,且變更調整回收側的捲盤122的旋轉速度,從而將引線11的回收量調整為與傳送絞盤46所致的引線11的移動量相同。藉此,鬆緊調節臂127c維持於中立位置。 The rotation of the dancer arm 127c from the neutral position can be detected by an encoder (not shown). The controller controls the motor that rotates the reel 122 on the recovery side based on the detection output of the encoder, and changes the rotation speed of the reel 122 on the recovery side to adjust the amount of recovery of the lead 11 to the transfer winch 46. The resulting amount of movement of the lead wires 11 is the same. Thereby, the dancer arm 127c is maintained at the neutral position.
於拉入引線送出裝置20與引線回收裝置120之間的引線11的加工機本體40中,藉由傳送絞盤46的旋轉,使得被牽引至殼體41內部的引線11的移動速度始終固定。而且,於殼體41的內部,利用複數個滑輪43而繞掛前側引線11a與後側引線11b。圖6中表示滑輪43、及使該滑輪43之全部或一部分移動的制動器44。具體而言,於殼體41內部的工件12的上方設有頂板41d(參照圖2),於頂板41d設有制動器44。 In the processing machine body 40 that pulls the lead 11 between the lead feeding device 20 and the lead collecting device 120, the moving speed of the lead 11 pulled into the inside of the casing 41 is always fixed by the rotation of the conveying winch 46. Further, inside the casing 41, the front side lead 11a and the rear side lead 11b are wound by a plurality of pulleys 43. In Fig. 6, a pulley 43 and a brake 44 for moving all or part of the pulley 43 are shown. Specifically, a top plate 41d (see FIG. 2) is provided above the workpiece 12 inside the casing 41, and a stopper 44 is provided on the top plate 41d.
圖6中表示前側引線11a被牽引至X軸方向上的靠近門41b、41c(參照圖2)的近前側、後側引線11b被牽引至其裡側的情況。於殼體41的內部設有4根撐桿56~59,於該等4根撐桿56~59,上下樞支有對引線11進行牽引的滑輪43。具體而言,於X軸方向上的門41b、41c側,設有於Y軸方向上並排的第1及第2撐桿56、57該等2根撐桿。樞支於第1及第2撐桿56、57的滑輪43對前側引線11a進行牽引。 Fig. 6 shows a case where the front lead 11a is pulled to the near side of the doors 41b and 41c (see Fig. 2) in the X-axis direction, and the rear lead 11b is pulled to the inside. Four struts 56 to 59 are provided inside the casing 41, and the pulleys 43 for pulling the lead wires 11 are vertically supported by the four struts 56 to 59. Specifically, on the side of the doors 41b and 41c in the X-axis direction, the first and second stays 56 and 57 which are arranged side by side in the Y-axis direction are provided with two struts. The pulley 43 pivotally supported by the first and second stays 56 and 57 pulls the front lead 11a.
於遠離門41b、41c之側,設有於Y軸方向上並排的第3及第4撐桿58、59之之2根撐桿。樞支於第3及第4撐桿58、59的滑輪43對後側引線11b進行牽引。 On the side away from the doors 41b and 41c, two struts of the third and fourth stays 58 and 59 which are arranged side by side in the Y-axis direction are provided. The pulley 43 pivotally supported by the third and fourth stays 58, 59 pulls the rear lead 11b.
制動器44係透過第1、第2、第3、第4撐桿56、57、58、59之4根撐桿而使複數個滑輪43以可移動的方式構成。第1撐桿56不可 移動地固定於頂板41d。 The brake 44 is configured to movably form a plurality of pulleys 43 through the four struts of the first, second, third, and fourth struts 56, 57, 58, and 59. The first pole 56 is not available It is movably fixed to the top plate 41d.
另一方面,第2撐桿57係藉由制動器44而於Y軸方向及Z軸方向雙方以可移動的方式構成。繞掛在樞支於第1及第2撐桿56、57的滑輪43且切斷工件12的前側引線11a係,可藉由改變第1及第2撐桿56、57間的Y軸方向上的距離而變更全長。而且,切斷工件12的前側引線11a係藉由使第2撐桿57於Z軸方向上升降而可傾斜於水平方向之構成。 On the other hand, the second stay 57 is movably configured by the brake 44 in both the Y-axis direction and the Z-axis direction. The front lead 11a of the workpiece 12 is wound around the pulley 43 pivotally supported by the first and second stays 56, 57, and the Y-axis direction between the first and second stays 56, 57 can be changed. The total length is changed by the distance. Further, the front lead wire 11a that cuts the workpiece 12 is configured to be inclined in the horizontal direction by raising and lowering the second stay 57 in the Z-axis direction.
制動器44係使第3撐桿58於X軸方向以可移動的方式構成。第4撐桿59係於3軸方向中的任一方向以可移動的方式構成。 The brake 44 is configured to movably move the third stay 58 in the X-axis direction. The fourth stay 59 is movably configured in any of the three axial directions.
因此,繞掛在樞支於第3、第4撐桿58、59的滑輪43且切斷工件12的後側引線11b係,可藉由變更第3、第4撐桿58、59間的Y軸方向上的距離而變更全長。而且,切斷工件12的後側引線11b係藉由使第3、第4撐桿58、59中的任一者於Z軸方向上升降,而可傾斜於水平方向之構成。 Therefore, by winding the pulleys 43 pivotally supported by the third and fourth stays 58, 59 and cutting the rear lead 11b of the workpiece 12, the Y between the third and fourth stays 58 and 59 can be changed. The total length is changed by the distance in the axial direction. Further, the rear side lead 11b that cuts the workpiece 12 can be inclined in the horizontal direction by raising and lowering any of the third and fourth stays 58 and 59 in the Z-axis direction.
若使第3、第4撐桿58、59沿X軸方向移動而變更第1、第2撐桿56、57之間的X軸方向上的距離,則可變更前側引線11a與後側引線11b的距離。 When the third and fourth stays 58 and 59 are moved in the X-axis direction to change the distance in the X-axis direction between the first and second stays 56 and 57, the front lead 11a and the rear lead 11b can be changed. the distance.
繼而,對於本實施形態之引線進行之工件之切斷方法進行說明。 Next, a method of cutting the workpiece by the lead wire of the present embodiment will be described.
於本實施形態之引線進行之工件之切斷方法中,如圖1所示,係利用作為引線供給部之引線送出裝置20送出、且由作為引線回收部之引線回收裝置120收捲的引線11切斷工件12之方法;該切斷方法中,於將引線送出裝置20與引線回收裝置120之間的引線11繞掛於傳送絞盤46 的狀態下,使傳送絞盤46旋轉,藉此使引線11移動,且利用送出側絞盤31,對於較傳送絞盤46更靠前側(引線送出裝置20側)的前側引線11a的張力進行調整,利用回收側絞盤131,對於較傳送絞盤46更靠後側(引線回收裝置120側)的後側引線11b的張力進行調整,利用於張力已調整的狀態下在送出側絞盤31與傳送絞盤46之間移動的前側引線11a、及於張力已調整的狀態下在傳送絞盤46與回收側絞盤131之間移動的後側引線11b,切斷工件12。 In the method of cutting the workpiece by the lead wire of the present embodiment, as shown in FIG. 1, the lead wire 11 which is fed by the lead wire feeding device 20 as the wire supply portion and wound by the wire collecting device 120 as the lead wire collecting portion is taken up. a method of cutting the workpiece 12; in the cutting method, the lead 11 between the lead feeding device 20 and the lead collecting device 120 is wound around the conveying winch 46 In the state in which the transfer winch 46 is rotated, the lead wire 11 is moved, and the tension of the front lead wire 11a on the front side (the lead wire feeding device 20 side) of the transfer winch 46 is adjusted by the feed side winch 31. The recovery side winch 131 adjusts the tension of the rear side lead 11b on the rear side (the lead recovery device 120 side) of the transfer winch 46, and is used between the delivery side winch 31 and the transfer winch 46 in a state where the tension is adjusted. The moving front side lead 11a and the rear side lead 11b which is moved between the transfer winch 46 and the recovery side winch 131 in a state where the tension is adjusted are cut off the workpiece 12.
於使用圖2~圖4所示的線鋸10時,首先,打開設於殼體41的前表面的門41b、41c而將切斷對象物即工件12搭載於升降機42的搭載台42a(圖2)。並且,將自引線送出裝置20送出的引線11牽引至殼體41的內部且繞掛於傳送絞盤46。 When the wire saw 10 shown in FIG. 2 to FIG. 4 is used, first, the doors 41b and 41c provided on the front surface of the casing 41 are opened, and the workpiece 12, which is the object to be cut, is mounted on the mounting table 42a of the elevator 42 (Fig. 2). Further, the lead wire 11 fed from the lead wire feeding device 20 is pulled to the inside of the casing 41 and wound around the conveying winch 46.
之後,利用引線回收裝置120,將被拉出至殼體41外部的引線11回收。此時,傳送絞盤46露出於殼體41的外部而設,故而,對於引線11進行牽引等配索作業相對容易,且之後的切斷加工作業途中的保養檢查亦容易。 Thereafter, the lead wire 11 pulled out to the outside of the casing 41 is recovered by the wire collecting device 120. At this time, since the transfer winch 46 is exposed to the outside of the casing 41, it is relatively easy to perform the work of pulling the lead wire 11 and the like, and the maintenance inspection in the middle of the cutting work is easy.
而且,如圖6所示,利用制動器44使設於殼體41內部而對引線11進行牽引的複數個滑輪43移動,將實際切斷工件12的前側引線11a及後側引線11b調整至所需的長度或位置。 Further, as shown in FIG. 6, a plurality of pulleys 43 provided inside the casing 41 and pulling the lead wires 11 are moved by the brakes 44, and the front side lead wires 11a and the rear side lead wires 11b which actually cut the workpiece 12 are adjusted to the required state. Length or position.
如圖2所示,於此狀態下使傳送絞盤46以固定的速度旋轉,且使繞掛於其上的引線11始終以相同的速度移動。藉此,設於引線送出裝置20中的送出側絞盤31亦旋轉,自引線送出裝置20的捲盤22依序地送出引線11。另一方面,於引線回收裝置120中,回收側絞盤131旋轉,引線 11捲繞於回收側的捲盤122而得以回收。 As shown in Fig. 2, in this state, the transfer winch 46 is rotated at a fixed speed, and the lead wires 11 wound thereon are always moved at the same speed. Thereby, the delivery side winch 31 provided in the lead wire feeding device 20 also rotates, and the lead wires 11 are sequentially fed out from the reel 22 of the lead wire feeding device 20. On the other hand, in the lead recovery device 120, the recovery side winch 131 is rotated, and the lead is turned The reel 11 is wound around the recovery side to be recovered.
若使傳送絞盤46旋轉,則被牽引至殼體41內部的前側引線11a及後側引線11b分別於長度方向上移動,故而,於此狀態下,升降機42使工件12與搭載台42a一同上升。而且,使工件12接觸於在長度方向上移動的前側引線11a及後側引線11b雙方。之後,亦藉由使工件12,而利用引線11切斷工件12。 When the transport winch 46 is rotated, the front lead 11a and the rear lead 11b pulled into the inside of the casing 41 are respectively moved in the longitudinal direction. Therefore, in this state, the lift 42 raises the workpiece 12 together with the mounting base 42a. Further, the workpiece 12 is brought into contact with both the front lead 11a and the rear lead 11b which are moved in the longitudinal direction. Thereafter, the workpiece 12 is also cut by the lead wires 11 by the workpiece 12.
當切斷工件12時,利用送出側絞盤31對於切斷工件12的前側引線11a的張力進行調整,且利用回收側絞盤131對於與前側引線11a一同切斷工件12的後側引線11b的張力進行調整。 When the workpiece 12 is cut, the tension of the front side lead 11a of the workpiece 12 is adjusted by the delivery side winch 31, and the tension of the rear side lead 11b of the workpiece 12 is cut together with the front side lead 11a by the recovery side winch 131. Adjustment.
利用於張力已調整的狀態下在送出側絞盤31與傳送絞盤46之間移動的前側引線11a、及於張力已調整的狀態下在傳送絞盤46與回收側絞盤131之間移動的後側引線11b,切斷工件12。 The front side lead 11a that moves between the delivery side winch 31 and the transfer winch 46 in a state where the tension is adjusted, and the rear side lead 11b that moves between the transfer winch 46 and the recovery side winch 131 in a state where the tension is adjusted , the workpiece 12 is cut.
此處,實際切斷工件12的前側引線11a與後側引線11b係由1根引線11構成。因此,先切斷工件12的前側引線11a的切斷加工時產生的阻力會施加於之後切斷工件12的後側引線11b,從而,進行切斷加工的前側引線11a與後側引線11b的張力有相異之虞。 Here, the front lead 11a and the rear lead 11b which actually cut the workpiece 12 are constituted by one lead 11. Therefore, the resistance generated when the cutting process of the front side lead 11a of the workpiece 12 is first cut is applied to the rear side lead 11b of the workpiece 12, and the tension of the front side lead 11a and the rear side lead 11b which are cut. There are differences.
對此,於本實施形態之引線進行之工件之切斷方法中,以傳送絞盤46的旋轉為基準,而控制送出側絞盤31的旋轉,從而對位於傳送絞盤46之前的前側引線11a的張力進行調整。而且,控制回收側絞盤131的旋轉,而對位於傳送絞盤46之後的後側引線11b的張力進行調整。藉此,能分別調整前側引線11a與後側引線11b的張力,且能使同時切斷工件12的前側引線11a與後側引線11b的張力變得均一。因此,能更穩定地對工件 12進行切削加工。 On the other hand, in the method of cutting the workpiece by the lead wire according to the present embodiment, the rotation of the feed-side winch 31 is controlled based on the rotation of the transfer winch 46, and the tension of the front lead 11a before the transfer winch 46 is performed. Adjustment. Moreover, the rotation of the recovery side winch 131 is controlled, and the tension of the rear side lead 11b located after the transfer winch 46 is adjusted. Thereby, the tension of the front side lead 11a and the rear side lead 11b can be adjusted separately, and the tension of the front side lead 11a and the rear side lead 11b which cut the workpiece 12 simultaneously can be made uniform. Therefore, the workpiece can be more stably 12 for cutting.
圖2~圖5中所示的本實施形態的線鋸10中,在殼體41的內部,利用複數個滑輪43對引線11進行牽引。由此,線鋸10與習知的線鋸不同,先前的線鋸係以使一根引線11於複數個多槽輥間呈並排狀向相同方向移行的方式進行牽引。 In the wire saw 10 of the present embodiment shown in FIGS. 2 to 5, the lead wires 11 are pulled by a plurality of pulleys 43 inside the casing 41. Thus, the wire saw 10 is different from the conventional wire saw in that a wire saw 11 is pulled in such a manner that one lead 11 travels in the same direction side by side between a plurality of multi-groove rolls.
而且,本實施形態之線鋸10進而具備使複數個滑輪43的一部分或全部移動的制動器44,故而,能自由地調整前側引線11a及後側引線11b的長度或位置、及其角度。因此,即便被切斷對象物即工件12的大小不同時,亦能按照所需的位置或形狀而對大小或形狀不同的工件12進行切斷。 Further, the wire saw 10 of the present embodiment further includes the brake 44 that moves a part or all of the plurality of pulleys 43, so that the length or position of the front lead 11a and the rear lead 11b and the angle thereof can be freely adjusted. Therefore, even when the size of the workpiece 12, which is the object to be cut, is different, the workpiece 12 having a different size or shape can be cut in accordance with the desired position or shape.
本實施形態中,已對於自引線送出裝置20送出的引線11經過傳送絞盤46而由引線回收裝置120回收的正轉方向上的動作進行了說明。 In the present embodiment, the operation in the forward rotation direction of the lead wire 11 sent from the lead feeding device 20 through the transfer winch 46 and recovered by the lead collecting device 120 has been described.
此時,自引線送出裝置20送出的引線11全部由引線回收裝置120回收之後,只要進行將引線回收裝置120設為「送出側」、經過傳送絞盤46而將引線送出裝置20設為「回收側」的反轉方向的動作即可。藉由如此進行動作,能反復進行正轉方向與反轉方向的動作。藉此,可使用至磨損引線11為止,且能於已使張力均一的狀態下穩定地進行切削加工。進而,能提高切削加工的作業性及生產性。 In this case, after the lead wires 11 sent from the lead wire feeding device 20 are all collected by the wire collecting device 120, the wire collecting device 20 is set as the "feeding side", and the wire feeding device 20 is set as the "recycling side". The action in the reverse direction can be. By performing the operation as described above, the operations in the forward rotation direction and the reverse rotation direction can be repeated. Thereby, it is possible to use the wear lead 11 and to perform the cutting process stably in a state where the tension is uniform. Further, workability and productivity of the cutting process can be improved.
根據以上的實施形態,可發揮以下所示的作用效果。 According to the above embodiment, the following effects can be exhibited.
本實施形態之線鋸10具備:引線送出裝置20,其送出引線11;引線回收裝置120,其將送出的引線11回收;複數個切斷部,其藉由對引線送出裝置20與引線回收裝置120之間的引線11進行牽引而形成,且 切斷工件12;傳送絞盤46,其於繞掛有引線送出裝置20與引線回收裝置120之間的引線11的狀態下旋轉,藉此使引線11移動;送出側絞盤31,其設在引線送出裝置20中,且於繞掛有較之傳送絞盤46更靠引線送出裝置20側的前側引線11a的狀態下旋轉,藉此,調整前側引線11a的張力;及回收側絞盤131,其設在引線回收裝置120中,且於繞掛有較之傳送絞盤46更靠引線回收裝置120側的後側引線11b的狀態下旋轉,藉此,調整後側引線11b的張力;且,複數個切斷部係由在送出側絞盤31與傳送絞盤46之間移動的前側引線11a、及在傳送絞盤46與回收側絞盤131之間移動的後側引線11b形成。 The wire saw 10 of the present embodiment includes a lead wire feeding device 20 that feeds the lead wires 11 , a lead wire collecting device 120 that collects the supplied lead wires 11 , and a plurality of cutting portions that pass the lead wire feeding device 20 and the wire lead collecting device The lead 11 between 120 is formed by pulling, and The workpiece 12 is cut; the winch 46 is rotated, and the lead 11 is wound around the lead 11 between the lead feeding device 20 and the lead collecting device 120, thereby moving the lead 11; the sending side winch 31 is set to be fed out. In the apparatus 20, the front side lead 11a on the side of the lead feeding device 20 is rotated in comparison with the transfer winch 46, thereby adjusting the tension of the front side lead 11a; and the recovery side winch 131 is provided on the lead The recovery device 120 rotates in a state in which the rear lead 11b on the side of the lead collection device 120 is wound with respect to the transfer winch 46, thereby adjusting the tension of the rear lead 11b; and a plurality of cut portions It is formed by a front side lead 11a that moves between the delivery side winch 31 and the transfer winch 46, and a rear side lead 11b that moves between the transfer winch 46 and the recovery side winch 131.
而且,本實施形態之引線11進行之工件12之切斷方法中,藉由使自引線送出裝置20與引線回收裝置120之間的引線11繞掛於傳送絞盤46而使傳送絞盤46旋轉,從而使引線11移動,且利用送出側絞盤31對於較傳送絞盤46更靠引線送出裝置20側的前側引線11a的張力進行調整,利用回收側絞盤131對於較之傳送絞盤46更靠引線回收裝置120側的後側引線11b的張力進行調整,且利用於張力已調整的狀態下在送出側絞盤31與傳送絞盤46之間移動的前側引線11a、及於張力已調整的狀態下在傳送絞盤46與回收側絞盤131之間移動的後側引線11b,切斷工件12。 Further, in the method of cutting the workpiece 12 by the lead 11 of the present embodiment, the lead wire 11 between the lead feeding device 20 and the lead collecting device 120 is wound around the transfer winch 46 to rotate the transfer winch 46, thereby The lead 11 is moved, and the tension of the front side lead 11a on the side of the lead feeding device 20 is adjusted by the delivery side winch 31. The recovery side winch 131 is further connected to the lead recovery device 120 side than the transfer winch 46. The tension of the rear side lead 11b is adjusted, and the front side lead 11a that moves between the delivery side winch 31 and the transfer winch 46 in a state where the tension is adjusted is used, and the transfer winch 46 and the recovery are performed in a state where the tension is adjusted. The rear side lead 11b, which is moved between the side winches 131, cuts the workpiece 12.
若將1根引線回折而成為2根引線、且利用該2根引線切斷工件,則先切斷工件的前側引線的切斷加工時產生的阻力會施加於之後切斷工件的後側引線,從而,進行切斷加工的前引線與後引線的張力有相異之虞。本實施形態之線鋸及引線進行之工件之切斷方法中,亦利用傳送絞盤46使1根引線11移動。 When one lead is folded back to form two leads, and the workpiece is cut by the two leads, the resistance generated during the cutting process of the front lead of the workpiece is first applied to the rear lead after the workpiece is cut. Therefore, the tension between the front lead and the rear lead which are subjected to the cutting process is different. In the wire saw and the method of cutting the workpiece by the lead wire of the present embodiment, the one lead wire 11 is also moved by the transfer winch 46.
然而,本實施形態中,控制送出側絞盤31的旋轉而調整前側引線11a的張力,且控制回收側絞盤131的旋轉而調整後側引線11b的張力。因此,能分別調整前側引線11a與後側引線11b的張力。藉此,能使同時切斷工件12的前側引線11a與後側引線11b的張力變得均一,且能更穩定地對工件12進行切削加工。 In the present embodiment, the rotation of the feed side winch 31 is controlled to adjust the tension of the front lead 11a, and the rotation of the recovery side winch 131 is controlled to adjust the tension of the rear lead 11b. Therefore, the tension of the front side lead 11a and the rear side lead 11b can be adjusted separately. Thereby, the tension of the front side lead 11a and the rear side lead 11b which cut the workpiece 12 at the same time can be made uniform, and the workpiece 12 can be cut more stably.
而且,線鋸10進而具備:第1、第2負載單元51、52,其對於切斷工件12前後的前側引線11a的張力進行檢測;第3、第4負載單元53、54,其對於切斷工件12前後的後側引線11b的張力進行檢測;及控制器,其根據第1、第2負載單元51、52之檢測輸出而控制送出側絞盤31的旋轉,且根據第3、第4負載單元53、54之檢測輸出而控制回收側絞盤131的旋轉。 Further, the wire saw 10 further includes first and second load units 51 and 52 for detecting the tension of the front lead 11a before and after the workpiece 12 is cut, and third and fourth load units 53 and 54 for cutting off The tension of the rear side lead 11b before and after the workpiece 12 is detected; and the controller controls the rotation of the delivery side winch 31 based on the detection outputs of the first and second load units 51 and 52, and according to the third and fourth load units The detection output of 53, 54 controls the rotation of the recovery side winch 131.
第1、第2負載單元51、52係對於切斷工件12前後的前側引線11a的張力進行檢測,第3、第4負載單元53、54係對於切斷工件12前後的後側引線11b的張力進行檢測。因此,藉由以使第1、第3負載單元51、53的值變得相等、且使第2、第4負載單元52、54的值亦變得相同的方式對於前側引線11a及後側引線11b的張力進行調整,能進行更確實地均一化的切斷加工。 The first and second load cells 51 and 52 detect the tension of the front lead 11a before and after the workpiece 12 is cut, and the third and fourth load units 53 and 54 are the tension of the rear lead 11b before and after the workpiece 12 is cut. Test. Therefore, the front lead 11a and the rear lead are made such that the values of the first and third load units 51 and 53 are equal and the values of the second and fourth load units 52 and 54 are also the same. The tension of 11b is adjusted, and a more uniform and uniform cutting process can be performed.
而且,較佳為,線鋸10進而具備殼體41,該殼體41將工件12收容於其內部,且傳送絞盤46露出於殼體41的外部而設。而且,更佳為,於線鋸10的殼體41的內部設有:升降機42,其搭載工件12而升降;複數個滑輪43,其設於升降機42的上方且對引線11進行牽引;及制動器44,其使複數個滑輪43的一部分或全部移動。 Further, it is preferable that the wire saw 10 further includes a casing 41 that houses the workpiece 12 therein and the transmission winch 46 is exposed to the outside of the casing 41. Further, it is more preferable that the inside of the casing 41 of the jigsaw 10 is provided with an elevator 42 that carries the workpiece 12 to be raised and lowered, and a plurality of pulleys 43 that are disposed above the elevator 42 and that pull the lead wires 11; 44, which moves a part or all of the plurality of pulleys 43.
藉由將傳送絞盤46露出於殼體41的外部而設,使得引線11的配索作業或其保養檢查變得容易。而且,藉由設置使對引線11進行牽引的複數個滑輪43移動的制動器44,可按所需的位置或形狀而對大小或形狀不同的工件12進行切斷。 By providing the transfer winch 46 to the outside of the casing 41, the wiring work of the lead wire 11 or its maintenance inspection is facilitated. Further, by providing the brakes 44 that move the plurality of pulleys 43 that pull the lead wires 11, the workpieces 12 having different sizes or shapes can be cut at a desired position or shape.
以上,已對於本發明之實施形態進行說明,但上述實施形態僅表示本發明的適用例的一部分,並不表示將本發明的技術範圍限定為上述實施形態的具體構成。 The embodiment of the present invention has been described above, but the above embodiment is only a part of the application example of the present invention, and does not mean that the technical scope of the present invention is limited to the specific configuration of the above embodiment.
上述實施形態中,對於利用張力裝置27、127中的鬆緊調節臂27c、127c的旋轉而變更調整捲盤22、122的旋轉速度,而以使引線11的送出量或回收量與傳送絞盤46的移動量相同的方式進行調整的情況進行說明。 In the above embodiment, the rotation speeds of the adjustment reels 22 and 122 are changed by the rotation of the elastic adjustment arms 27c and 127c in the tension devices 27 and 127, so that the amount of the lead wires 11 or the amount of recovery is transferred to the transfer winch 46. The case where the amount of movement is adjusted in the same manner will be described.
取而代之,控制器亦可根據對於繞掛於位置檢測機構26、126與張力裝置27、127之間的引線11的張力進行檢測的送出引線用負載單元29及回收引線用負載單元129之檢測輸出,而對於使送出側或回收側的捲盤22、122旋轉的未圖示的馬達進行控制。亦可藉由變更調整捲盤22、122的旋轉速度,而以使引線11的送出量或回收量與傳送絞盤46的移動量相同的方式進行調整。 Alternatively, the controller may detect the output of the lead-out load unit 29 and the recovery lead load unit 129 based on the tension between the lead wires 11 wound between the position detecting mechanisms 26 and 126 and the tension devices 27 and 127. Further, a motor (not shown) that rotates the reels 22 and 122 on the delivery side or the recovery side is controlled. The rotation speed of the reels 22 and 122 can be changed to adjust the amount of the lead 11 to be sent or the amount of recovery of the lead wire 46 to be the same as the amount of movement of the transfer winch 46.
10‧‧‧線鋸 10‧‧‧ wire saw
11‧‧‧引線 11‧‧‧ lead
11a‧‧‧前側引線 11a‧‧‧ front lead
11b‧‧‧後側引線 11b‧‧‧ rear lead
12‧‧‧工件 12‧‧‧Workpiece
22‧‧‧捲盤 22‧‧‧Reel
27‧‧‧張力裝置 27‧‧‧ Tension device
29‧‧‧送出引線用負載單元 29‧‧‧Send the load unit for the lead
31‧‧‧送出側絞盤 31‧‧‧Send side winch
32、33‧‧‧繞掛輥 32, 33‧‧‧ winding roller
43‧‧‧滑輪 43‧‧‧ pulley
46‧‧‧傳送絞盤 46‧‧‧Transfer winch
47、48‧‧‧繞掛輥 47, 48‧‧‧ winding rollers
51、52‧‧‧第1、第2負載單元 51, 52‧‧‧1st and 2nd load units
53、54‧‧‧第3、第4負載單元 53, 54‧‧‧3rd and 4th load cells
122‧‧‧捲盤 122‧‧‧Reel
127‧‧‧張力裝置 127‧‧‧ Tension device
129‧‧‧回收引線用負載單元 129‧‧‧Recovery load unit for lead
131‧‧‧回收側絞盤 131‧‧‧Recovery side winch
132、133‧‧‧繞掛輥 132, 133‧‧‧ winding roller
Claims (5)
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
JP2013199345A JP6173149B2 (en) | 2013-09-26 | 2013-09-26 | Wire saw and wire cutting method |
Publications (2)
Publication Number | Publication Date |
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TW201511904A TW201511904A (en) | 2015-04-01 |
TWI568557B true TWI568557B (en) | 2017-02-01 |
Family
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Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
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TW103127444A TWI568557B (en) | 2013-09-26 | 2014-08-11 | Wire saw and lead wire cutting method |
Country Status (5)
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JP (1) | JP6173149B2 (en) |
KR (1) | KR101607770B1 (en) |
CN (1) | CN104511824B (en) |
DE (1) | DE102014219186B4 (en) |
TW (1) | TWI568557B (en) |
Families Citing this family (3)
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JP6663786B2 (en) * | 2016-04-27 | 2020-03-13 | Toyo Tire株式会社 | Method and apparatus for forming topping sheet |
CN108162214B (en) * | 2017-12-21 | 2019-11-26 | 英利能源(中国)有限公司 | A kind of gold steel wire method for cutting silicon chips |
CN116197475B (en) * | 2023-02-06 | 2024-05-17 | 青岛高测科技股份有限公司 | Feed control method, medium, control device of feed assembly and wire cutting machine |
Citations (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
TW201127551A (en) * | 2010-02-11 | 2011-08-16 | Toyo Advanced Tech Co | Wire saw |
Family Cites Families (10)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
JPS61111882A (en) * | 1984-11-07 | 1986-05-29 | Sumitomo Metal Ind Ltd | Wire type cutting method |
JP2674223B2 (en) * | 1989-07-17 | 1997-11-12 | 住友金属工業株式会社 | Method and apparatus for cutting highly brittle material |
JP3106415B2 (en) * | 1996-05-31 | 2000-11-06 | 株式会社東京精密 | Wire saw |
JPH11291154A (en) | 1998-04-07 | 1999-10-26 | Takatori Corp | Wire driver in wire saw |
JP4465400B2 (en) * | 2008-10-03 | 2010-05-19 | トーヨーエイテック株式会社 | Wire saw |
SG183130A1 (en) * | 2010-02-08 | 2012-09-27 | Toyo Advanced Tech Co | Method of cutting workpiece with wire saw, and wire saw |
CN102791427B (en) * | 2010-02-08 | 2015-05-13 | 东洋先进机床有限公司 | Wire saw |
JP2011167810A (en) * | 2010-02-19 | 2011-09-01 | Takatori Corp | Wire saw |
KR101289658B1 (en) * | 2011-08-04 | 2013-07-25 | 비아이신소재 주식회사 | Wire saw machine for slicing ingot |
JP2013220482A (en) | 2012-04-13 | 2013-10-28 | Tokyo Seiko Co Ltd | Wire-type cutting device |
-
2013
- 2013-09-26 JP JP2013199345A patent/JP6173149B2/en not_active Expired - Fee Related
-
2014
- 2014-08-11 TW TW103127444A patent/TWI568557B/en not_active IP Right Cessation
- 2014-09-23 DE DE102014219186.6A patent/DE102014219186B4/en active Active
- 2014-09-23 KR KR1020140126637A patent/KR101607770B1/en active IP Right Grant
- 2014-09-24 CN CN201410494388.5A patent/CN104511824B/en not_active Expired - Fee Related
Patent Citations (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
TW201127551A (en) * | 2010-02-11 | 2011-08-16 | Toyo Advanced Tech Co | Wire saw |
Also Published As
Publication number | Publication date |
---|---|
JP6173149B2 (en) | 2017-08-02 |
DE102014219186A1 (en) | 2015-03-26 |
DE102014219186B4 (en) | 2022-02-03 |
KR20150034630A (en) | 2015-04-03 |
KR101607770B1 (en) | 2016-03-30 |
CN104511824B (en) | 2017-05-24 |
CN104511824A (en) | 2015-04-15 |
TW201511904A (en) | 2015-04-01 |
JP2015062984A (en) | 2015-04-09 |
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