201235155 六、發明說明: 【發明所屬之技術領域】 [0001] 本發明涉及一種研磨盤除屑裝置。 【先前技·術】 [0002] 研磨盤一般為圓盤狀結構,其包括一個用於對工件進行 研磨的研磨面,研磨面上自所述研磨盤的圓心開設有一 個螺旋形的溝槽。研磨盤對工件進行研磨的過程中產生 廢屑會堵塞在所述溝槽内,難以清理,從而影響以後的 工件的研磨效果。現在一般是利用鑷子將溝槽内的廢屑 挖出,但是這樣會浪費大量的時間,從而影響生產效率 〇 ......................... 【發明内容】 [0003] 有鑒於此,有必要提供一種有效提高工作效率的研磨盤 除屑裝置。 [0004] 一種研磨盤除屑裝置,用於清除一個研磨盤上的螺旋形 的溝槽中的廢屑,其包括一個基座,一個滑動機構及至 少一個刀片。所述基座包括兩個滑桿,所述滑動機構套 設在所述兩個滑桿上,並能夠沿所述滑桿滑動。所述至 少一個刀片固定在所述滑動機構上,且所述至少一個刀 片在所述研磨盤轉動時,能夠沿所述溝槽的導向滑動, 以清除所述溝槽中的廢屑。 [0005] 相較於先前技術,本發明的研磨盤除屑裝置,通過所述 研磨盤轉動,以帶動所述至少一個刀片在所述溝槽内滑 動,從而迅速清除所述溝槽内的廢屑,從而大大提高生 產效率。 100106322 表單編號A0101 第4頁/共15頁 1002010764-0 201235155 【實施方式】 [0006] 下面將結合附圖,對本發明作進一步的詳細說明。 [0007] 請參閱圖1及圖3,其為本發明實施方式提供的一種研磨 盤除屬裝置100。所述研磨盤除屑裝置1〇〇用於清除一個 研磨盤200的研磨面210的螺旋形的溝槽211中的廢屑。 所述研磨盤除屑裝置1〇〇包括一個基座1〇、一個滑動機構 3〇、三個刀片50及一個吸塵器60。 [0008] 如圖2所示’所述基座1〇包括兩個支撐腳丨〗及兩個滑桿13 Q 。所述兩個支撐腳11相對設置且間隔一定的距離。所述 兩個滑桿13平行設置且分別與所述兩個支撐腳i i相連接 [0009] 所述滑動機構3 0包括一個套設在所述兩滑桿1 3上的滑板 31 ’三個固定在所述滑板3][上的固定塊33及六個螺釘35 。所述滑板31包括一個長方體狀的第一固定部311,一個 圓弧狀的第二固定部312及一個連接部313。所述第一固 定部311與所述第二固定部312相對設置。所述第一固定 Ο 部311包括一個第一表面315及一個第二表面316。所述 第一表面315遠離所述第二固定部312,所述第二表面 31 6與所述第一表面31 5相垂直且與所述滑桿13的延伸方 向相平行。所述第一表面315上開設有一個容置槽315a。 所述第二表面316上開設有一個與所述容置槽31 5a相連通 的通槽316a。所述第二固定部312上沿垂直於所述滑桿 13的延伸方向且平行於所述第一表面315的方向開設有一 個穿孔312a。所述連接部313將所述第一固定部311及所 述第二固定部312相連接。所述連接部313上沿所述滑桿 100106322 表單編號A0101 第5頁/共15頁 1002010764-0 201235155 1 3的導向開設有兩個第一通孔31 3a,所述兩個滑桿1 3分 別穿設在對應的第一通孔313a内。 [0010] 所述固定塊33為長方體狀結構,其包括一個第一端331, 一個與所述第一端331相對設置的第二端332及一個遠離 所述第一端331的端面333。所述第一端331容置於所述 容置槽315a内,所述第二端332從所述容置槽315a内露 出。所述第一端331上與所述通槽316a相對的位置開設有 一個第一螺孔3 34。所述第一端331上沿垂直於所述滑桿 13的延伸方向且平行於所述端面333的方向上開設有一個 第二通孔335。所述端面333上開設有一個與所述第二通 孔335相連通的第二螺孔336。 [0011] 所述刀片50包括一個本體51及自所述本體51向外延伸的 連接段53。所述本體51與所述連接段53均為直線狀結構 ,且相交形成一鈍角夾角。 [0012] 所述吸塵器60用於吸取所述研磨盤200上的廢屑,其包括 一個圓柱狀的吸嘴61。所述吸嘴61面向所述研磨盤200設 置,且穿設於所述穿孔312a内,並與所述穿孔312a過盈 配合。 [0013] 所述研磨盤除屑裝置100的組裝過程如下:將每個滑桿13 穿過所述滑板31的對應的第一通孔313a内,從而將所述 滑板31滑動設置在所述滑桿13上。將所述固定塊33的第 一端331容置於所述容置槽315a内,使得所述第一螺孔 334與所述通槽316a相對齊,將三個螺釘35分別螺接在 所述三個第一螺孔334内,從而將所述固定塊33固定在所 100106322 表單編號A0101 第6頁/共15頁 1002010764-0 201235155 述滑板31上。將所述三個 _ J片5〇的連接段53穿過所述第 二通孔335 ’並將三個螺㈣分別螺接人所述三個第二螺 孔336内直至v刀別與所述三個刀片的連接段相权持 ’從而將所述三個刀片50固定在所述固定塊33上。將所 述吸塵刪的吸嘴61面向所述研磨盤20G蚊在所述穿孔 312a 内。 [0014] Ο ❹ [0015] [0016] 100106322 如圖3所示,所述研磨盤除屑裝置则的工作過程如下: 將所述兩個支撐腳11固定在-個機床(未圖示)上,使得 所述滑桿13橫跨所述研磨盤200,將所述三個刀片50的本 體51分別插入對應的溝槽211内,並與所述溝槽211的底 面相抵持;開啟所述吸塵器加,.轉動所述研磨盤2〇〇,使 所述二個刀片50的本體51在所述谦槽211内滑動,以剷除 所述溝槽211内的廢屑,一部分廢屑立刻被所述吸塵器6〇 走所述二個刀片5〇的本體51沿著所:述溝槽211的導向 不斷的朝向遠離所述研磨盤2〇〇的圓心的方向移動,同時 帶動所述滑板31沿所述滑桿13的導南滑動,直至所述三 刀片50的本體51從所述研磨盤2〇〇的溝槽211内滑出, 此時沒有被所述吸塵器6〇吸走的廢屑也就被帶出所述溝 槽 211。 可以理解’由於所述刀片50的本體51與所述連接段53成 純角爽角’可以使所述刀片50剷除廢屑時,能更好的施 力在所述溝槽211内。 可以理解,由於所述刀片50可拆卸的設置在所述固定塊 33 μ ’因此可根據所述溝槽211的深度,方便的調整所述 77片5〇的高度’使得所述刀片50能夠與所述溝槽2u的底 單編號A0101 帛7頁/共15頁 1002 201235155 面相抵持。 [0017] 在其他實施方式中,也可用其他固定方式將所述刀片50 固定在所述滑動機構30上,比如在所述刀片50的連接段 53上開設螺紋,同時在所述固定塊33的第一端331沿所述 連接段53的延伸方向開設一個貫穿所述固定塊33相對兩 表面的螺孔。從而通過螺接的方式將所述刀片50固定在 所述固定塊33上。 [0018] 在其他實施方式中,所述固定塊33也可與所述滑板31 — 體成型。 [0019] 在其他實施方式中,所述吸塵器60也可設置在所述滑板 31的其他位置,比如將所述吸塵器60與所述刀片50設置 在所述滑板31上位於所述滑桿1 3的同一側的位置。 [0020] 在其他實施方式中,所述吸塵器60也可省去。 [0021] 可以理解,所述固定塊33與所述刀片50的數量相等,在 其他實施方式中,所述固定塊33及所述刀片50的數量也 可為一個,兩個或者三個以上。同時,利用複數刀片50 ,使得所述溝槽211依次經過三次的清理,從而將所述溝 槽211内的廢屑清理得更徹底。 [0022] 相較於先前技術,本發明的研磨盤除屑裝置,通過所述 研磨盤轉動,以帶動所述刀片在所述溝槽内滑動,從而 迅速剷除所述溝槽内的廢屑,從而大大提高生產效率。 [0023] 綜上所述,本發明確已符合發明專利之要件,遂依法提 出專利申請。惟,以上所述者僅為本發明之較佳實施方 100106322 表單編號A0101 第8頁/共15頁 1002010764-0 201235155 式,自不能以此限制本案之申請專利範圍。舉凡熟悉本 案技藝之人士援依本發明之精神所作之等效修飾或變化 ,皆應涵蓋於以下申請專利範圍内。 【圖式簡單說明】 [0024] 圖1係本發明較佳實施方式的研磨盤除屑裝置的結構示意 圖; [0025] 圖2係圖1的研磨盤除屑裝置的分解示意圖; [0026] 圖3係圖1的研磨盤除屑裝置的工作狀態圖。 〇 【主要元件符號說明】 [0027] 研磨盤除屑裝置 100 [0028] 研磨盤 200 [0029] 研磨面 210 [0030] 溝槽 211 [0031] 基座 ;10 [0032] 支撐腳 [0033] 滑桿 13 [0034] 滑動機構 30 [0035] 滑板 31 [0036] 第一固定部 311 [0037] 第二固定部 312 [0038] 穿孔 312a 表單編號A0101 第9頁/共15頁 100106322 1002010764-0 201235155 [0039] 連接部 313 [0040] 第一通孔 313a [0041] 第一表面 315 [0042] 容置槽 315a [0043] 第二表面 316 [0044] 通槽 316a [0045] 固定塊 33 [0046] 第一端 331 [0047] 第二端 332 [0048] 端面 333 [0049] 螺釘 35 [0050] 第一螺孔 334 [0051] 第二通孔 335 [0052] 第二螺孔 336 [0053] 刀片 50 [0054] 本體 51 [0055] 連接段 53 [0056] 吸塵器 60 [0057] 吸嘴 61 100106322 表單編號A0101 第10頁/共15頁 1002010764-0201235155 VI. Description of the Invention: [Technical Field of the Invention] [0001] The present invention relates to a chip removing device for a grinding disc. [Prior Art] [0002] The grinding disc is generally a disc-shaped structure including an abrasive surface for grinding a workpiece having a spiral groove formed from the center of the grinding disc. During the grinding of the workpiece by the grinding disc, waste debris may be trapped in the groove, which is difficult to clean, thereby affecting the grinding effect of the subsequent workpiece. Nowadays, the waste in the groove is usually dug out by the tweezers, but this will waste a lot of time and affect the production efficiency...................... [Invention] [0003] In view of the above, it is necessary to provide a grinding disc removing device that effectively improves work efficiency. [0004] A grinding disc chip removing device for removing waste from a spiral groove in a grinding disc, comprising a base, a sliding mechanism and at least one blade. The base includes two slide bars, and the slide mechanism is disposed on the two slide bars and is slidable along the slide bars. The at least one blade is fixed to the sliding mechanism, and the at least one blade is slidable along the guide of the groove as the grinding disk rotates to remove debris from the groove. [0005] Compared to the prior art, the grinding disc removing device of the present invention is rotated by the grinding disc to drive the at least one blade to slide in the groove, thereby quickly removing waste in the groove. Chips, which greatly increase production efficiency. 100106322 Form No. A0101 Page 4 of 15 1002010764-0 201235155 [Embodiment] [0006] The present invention will be further described in detail below with reference to the accompanying drawings. Please refer to FIG. 1 and FIG. 3 , which are schematic diagrams of a polishing disc removing device 100 according to an embodiment of the present invention. The abrasive disc removing device 1 is for removing waste from the spiral groove 211 of the grinding surface 210 of the grinding disc 200. The lapping and removing device 1 includes a base 1 , a sliding mechanism 3 , three blades 50 and a vacuum cleaner 60 . [0008] As shown in FIG. 2, the base 1 includes two support legs and two slide bars 13 Q . The two support legs 11 are oppositely disposed and spaced apart by a certain distance. The two sliding bars 13 are arranged in parallel and are respectively connected to the two supporting legs ii. [0009] The sliding mechanism 30 includes a sliding plate 31 'three fixed on the two sliding bars 13 On the slide 3] [on the fixed block 33 and six screws 35. The slider 31 includes a first fixing portion 311 having a rectangular parallelepiped shape, a second fixing portion 312 having an arc shape, and a connecting portion 313. The first fixing portion 311 is disposed opposite to the second fixing portion 312. The first fixed jaw portion 311 includes a first surface 315 and a second surface 316. The first surface 315 is away from the second fixing portion 312, and the second surface 316 is perpendicular to the first surface 315 and parallel to the extending direction of the slider 13. A receiving groove 315a is defined in the first surface 315. The second surface 316 defines a through groove 316a communicating with the receiving groove 31 5a. A through hole 312a is defined in the second fixing portion 312 in a direction perpendicular to the extending direction of the slide bar 13 and parallel to the first surface 315. The connecting portion 313 connects the first fixing portion 311 and the second fixing portion 312. The connecting portion 313 is provided with two first through holes 31 3a along the guide of the sliding bar 100106322, the form number A0101, the fifth page, the total number of the first slide holes 31 3a. The utility model is disposed in the corresponding first through hole 313a. The fixing block 33 is a rectangular parallelepiped structure including a first end 331, a second end 332 disposed opposite the first end 331 and an end surface 333 remote from the first end 331. The first end 331 is received in the accommodating groove 315a, and the second end 332 is exposed from the accommodating groove 315a. A first screw hole 343 is defined in the first end 331 opposite to the through groove 316a. A second through hole 335 is defined in the first end 331 in a direction perpendicular to the extending direction of the slider 13 and parallel to the end surface 333. A second screw hole 336 communicating with the second through hole 335 is defined in the end surface 333. [0011] The blade 50 includes a body 51 and a connecting portion 53 extending outward from the body 51. The body 51 and the connecting section 53 are both linear structures and intersect to form an obtuse angle. [0012] The cleaner 60 is for sucking waste on the grinding disc 200, and includes a cylindrical suction nozzle 61. The nozzle 61 is disposed facing the grinding disc 200 and is disposed in the through hole 312a and has an interference fit with the through hole 312a. [0013] The assembling process of the grinding disc removing device 100 is as follows: each sliding rod 13 is passed through a corresponding first through hole 313a of the sliding plate 31, thereby sliding the sliding plate 31 on the sliding On the rod 13. The first end 331 of the fixing block 33 is received in the accommodating groove 315a such that the first screw hole 334 is aligned with the through groove 316a, and three screws 35 are respectively screwed into the The three first screw holes 334 are arranged to fix the fixing block 33 on the slide plate 31 of 100106322 Form No. A0101, page 6 of 15 pages 1002010764-0 201235155. Connecting the connecting segments 53 of the three _J pieces 5〇 through the second through holes 335 ′ and screwing the three screws (4) into the three second screw holes 336 respectively until the v-cutting The connecting sections of the three blades are held together to fix the three blades 50 to the fixed block 33. The suction-removed nozzle 61 faces the grinding disc 20G in the perforation 312a. [0014] [0016] 100106322 As shown in FIG. 3, the working process of the grinding disc removing device is as follows: Fixing the two supporting legs 11 on a machine tool (not shown) The slide bar 13 is caused to straddle the grinding disc 200, and the bodies 51 of the three blades 50 are respectively inserted into the corresponding grooves 211 and abut against the bottom surface of the groove 211; the vacuum cleaner is turned on. Rotating, grinding the grinding disc 2〇〇, sliding the body 51 of the two blades 50 in the modest slot 211 to remove waste from the groove 211, and a part of the waste is immediately described The vacuum cleaner 6 moves away from the body 51 of the two blades 5〇 along the guide groove 211 to continuously move away from the center of the grinding disk 2〇〇, while driving the slider 31 along the The guide guide of the slide bar 13 slides until the body 51 of the three-blade 50 slides out of the groove 211 of the grinding disc 2, and the waste which is not sucked by the cleaner 6 is also The groove 211 is taken out. It will be understood that the fact that the blade 51 of the blade 50 is at a pure angle to the connecting section 53 allows the blade 50 to be better placed in the groove 211 when the debris is removed. It can be understood that since the blade 50 is detachably disposed at the fixing block 33 μ ', the height of the 77 pieces 5 ′ can be conveniently adjusted according to the depth of the groove 211 such that the blade 50 can be The bottom number of the groove 2u is A0101 帛 7 pages / 15 pages total 1002 201235155 face resistance. [0017] In other embodiments, the blade 50 can also be fixed to the sliding mechanism 30 by other fixing means, such as threading the connecting portion 53 of the blade 50 while being at the fixing block 33. The first end 331 defines a screw hole extending through the opposite surfaces of the fixing block 33 along the extending direction of the connecting portion 53. The blade 50 is thereby fixed to the fixed block 33 by screwing. [0018] In other embodiments, the fixing block 33 can also be integrally formed with the sliding plate 31. [0019] In other embodiments, the vacuum cleaner 60 may also be disposed at other positions of the sliding plate 31, such as the vacuum cleaner 60 and the blade 50 disposed on the sliding plate 31 at the sliding bar 13 The same side of the location. [0020] In other embodiments, the cleaner 60 can also be omitted. [0021] It can be understood that the number of the fixing blocks 33 is equal to the number of the blades 50. In other embodiments, the number of the fixing blocks 33 and the blades 50 may be one, two or more. At the same time, the plurality of blades 50 are used to cause the grooves 211 to be cleaned three times in order to clean the waste in the grooves 211 more thoroughly. [0022] Compared to the prior art, the grinding disc removing device of the present invention is rotated by the grinding disc to drive the blade to slide in the groove, thereby rapidly removing waste in the groove. Thereby greatly improving production efficiency. [0023] In summary, the present invention has indeed met the requirements of the invention patent, and the patent application is filed according to law. However, the above is only the preferred embodiment of the present invention 100106322 Form No. A0101 Page 8 of 15 1002010764-0 201235155, which cannot limit the scope of patent application in this case. Equivalent modifications or variations made by persons skilled in the art in light of the spirit of the invention are intended to be included within the scope of the following claims. BRIEF DESCRIPTION OF THE DRAWINGS [0024] FIG. 1 is a schematic view showing the structure of a grinding disc removing device according to a preferred embodiment of the present invention; [0025] FIG. 2 is an exploded perspective view of the grinding disc removing device of FIG. 3 is a diagram showing the operation state of the grinding disc removing device of Fig. 1. 〇 [Main component symbol description] [0027] Grinding disc chip removing device 100 [0028] Grinding disc 200 [0029] Grinding surface 210 [0030] Groove 211 [0031] Base; 10 [0032] Supporting foot [0033] Slip Rod 13 [0034] Slide mechanism 30 [0035] Slide plate 31 [0036] First fixing portion 311 [0037] Second fixing portion 312 [0038] Perforation 312a Form number A0101 Page 9 / Total 15 pages 100106322 1002010764-0 201235155 [ 0039] connection portion 313 [0040] first through hole 313a [0041] first surface 315 [0042] accommodating groove 315a [0043] second surface 316 [0044] through groove 316a [0045] fixed block 33 [0046] One end 331 [0047] Second end 332 [0048] End face 333 [0049] Screw 35 [0050] First screw hole 334 [0051] Second through hole 335 [0052] Second screw hole 336 [0053] Blade 50 [ 0054] Body 51 [0055] Connection Section 53 [0056] Vacuum Cleaner 60 [0057] Nozzle 61 100106322 Form No. A0101 Page 10 of 15 1002010764-0