捌、新型說明: 【新型所屬之技術領域】 本新型是有關於一種排屑機,特別是指一種可供操作 者簡易取出位於機體内之積屑的螺旋式排屑機。 5 【先前技術】 因工具機在加工過程均會產生切削屑等雜質,該等切 削屑概可利用一排屑機而集中於一處後排出該排屑機外, 維持工具機之清潔。 參閱圖1所示,一傳統螺旋式排屑機丨是適用於一工 〕 具機(圖未示),包含一機殼u、一排屑管12、一馬達13 及一排屑軸14。 違機设11包括一排屑槽1丨丨,及一供該工具機加工時 所產生之切削屑2掉落至該排屑槽1丨丨内的進屑口丨丨2。 該排屑管12之一端開口 121傾斜鎖結在該機殼11之一 5 端側,並包括一連通該排屑槽111的管内空間122,及一遠 離该開口 1 2 1的τι刺σ八口 1 23。 該馬達13是設置在該機殼11周側。 "亥排屑轴14是平行設置在該機殼11之排屑槽111内且 可又Α馬達13帶動而轉動,以推送位於排屑槽111内之切 削屑2直線前進,使該切削屑2自該排屑管12之喇队口 m排出。如圖1所示,實務上,該馬達13之轉軸131可 藉數鍊輪與鏈條以帶動一傳動轴15轉動,再藉該傳動軸15 帶動"玄排屑軸14轉動,以推送位於排屑槽ill内之切削屑 2直線前進。 5 M253586 藉此,該傳統螺旋式排屑冑1雖可順利地將切削屬2 集中於-處後再排出該排屑機"卜,但仍存有下述之缺失.. 急待解決: 該排屬管12之料π 123雖可供排出切㈣2 ,但實 5 際上’其管内空間122仍會存有積屑’特別是工具機欲切 削不同金屬物件時’必須先清除該排屑管12内之積屑,以 縮減切削屑2分類回收之時間;如此,通常需先將該排屬 管12拆解於該機殼丨丨後,再將其管内之切削屑2倒出以達 成清除積屑之目的,惟實際上,因該排屑管12受限於該馬鲁 3 達13與覆蓋該等鍊輪與鏈條之鍊輪蓋的裝設位置影響,而 不容易拆解取出,如此,將會增加拆解工時、清除積屑的 時間,相對降低工作效率。 【新型内容】 因此,本新型之目的,是在提供一種可供操作者簡易 > 取出位於機體内之積屑的螺旋式排屑機。 於是,本新型之螺旋式排屑機,適用於收容一工具機 加工時所產生之切削屑,包含一機殼、一排屑管、一馬達擊 、一排屑軸及一蓋體。該機殼包括一由一圍繞壁包覆界定 出的排屑槽,及一貫穿該圍繞壁之一側邊以供該工具機加 1 工時所產生之切削屑掉落至該排屑槽内的進屑口。該排屬 管之一端開口傾斜連結該機殼之一端側,並包括一連通該 * 排屑槽的管内空間、一平行該機殼的底平部,及一開設在 ' 其底平部且連通該管内空間的清屑口。該馬達是設置在該 機殼周側。該排屑軸是平行設置在該排屑槽内且可受該馬 6 M253586 達帶動而轉動,以推送位於排屑槽内之切削屑直線前進,· 使該切削屬自該排屑管之另端開口排出。該蓋體是可掀開·· 地叹置在該排屑1之清屬σ上,當該蓋體掀離於該清屑口 時,可供操作者取出該管内空間與排屑槽内之積屑。 5 【實施方式】 有關本新型之前述及其他技術内容、特點與功效,在 以下配合參考圖式之二較佳實施例的詳細說明中,將可清 楚的明白。 、 參閱圖2、3所示,本新型之螺旋式排屑機3之第一較· 10 佳實施例’適用於收谷一工具機(圖未示)加工時所產生 之切削屑4包含一機殼5、一排屑管6、一馬達7、一排屑 軸8及一蓋體9。 該機殼5包括一由一圍繞壁51包覆界定出的排屑槽52 ,及一貫穿該圍繞壁51之頂側邊以供該工具機加工時所產 15 生之切削屑4掉落至該排屑槽52内的進屑口 53。 該排屑管6之一右側開口 61傾斜連結該機殼5之一左 $ 端側’並包括一由一管壁62界定出且連通該排屑槽52的 管内空間63、一鄰近該機殼5且平行於該機殼5的底平部 64、一開設在該底平部64之底側且連通該管内空間63的 20 清屑口 65,及一遠離該右側開口 61的左側開口 66。 該馬達7是設置在該機殼5周側,因該馬達7與如圖1 所示之傳統螺旋式排屑機1之馬達13的結構與設置位置雷 · 同,故在此不再贅述。 該排屑軸8是呈螺旋狀且平行設置在該排屑槽52内並 7 M253586 可受該馬達7帶動而轉動,以推送位於排屑槽52内之切削 屑4直線前進,使該切削屑4自該排屑管6之左側開口 % 排出。如圖3所示,於實務上,係在該右側開口 66之下方 設置一容置筒100,供該等切削屑4承納。 5 參閱圖3、4所示,該蓋體9是可掀開地設置在該排屬 管6之清口 65上’並包括—可覆蓋該清屬口 &的蓋板 91,及二分別設置在該蓋板91之兩相對側的鎖板%。在本 實知例中’可藉一鎖結件j! 〇分別穿經該等鎖才反%後鎖結 於該排4管6± ’使該蓋板91穩固覆蓋在該清屬口 65。或 10 如圖5所示,可在該排屬管6之清屬口 65之部份開口端緣 形成一卡溝65!,該蓋板91亦設有一卡插結於該卡溝651 的卡挲塊91卜而遠離於該卡掣& 911之鎖& %,則藉一鎖 釔件no穿經後鎖結於該排屑管6上,以使該蓋板9ι穩固 15 f蓋在該清屑 1 65,藉此,當該蓋體9之鎖板92,脫離於該 屑65時即可供操作者取出該管内空間ο與排屑槽 52内之積屑。 20 #如圖3、4、5所示,本新型螺旋式排屬機3僅需將該 體9掀離於5亥清屬口 65,即可供操作者清除積屑,且重 要的h因該蓋體9是遠離於該馬達7與鍊輪蓋之裝設位 、)不同於如圖i所示之傳統螺旋式排屑貞^需拆解受限 。亥馬達13與該鍊輪蓋之裝設位置的排屑管12,才能清除 的結構設計,相對本新型可供操作者簡易拆解以方便 心積屬’進而縮減清除㈣的時間,與提高王作效率。 參閱圖6所示’本新型之螺 y 8 M253586 5 實施例,其不同於第一較佳實施例的地方在於,該螺旋式 排屑機3’未設有前述之蓋體9,而該排屑管6更包括位於該 底平部64且可相對鎖接的一第一鎖環67與一第二鎖環68 ,該第一鎖環67與該第二鎖環68是藉數鎖結件12〇與螺 帽130達成穩固鎖結;藉此,因該第—鎖環…與第二鎖環 68是遠離於該馬達7與鍊輪蓋之裝設位置,而可供操作者 簡易拆解时便清除積屑,相對可職清除積屑的時間, 與提兩工作效率。 10 15 丨以上所述者,僅為本新型之二較佳實施例而已,者 不能以此限定本新型實施之_,即大凡依本新型申請: 利範圍及新型說明書内容所作 〈間早的等效變化與修飾, 白應仍屬本新型專利涵蓋之範圍内。 【圖式簡單說明】 圖1是一傳統螺旋式排屑機之一頂視圖· 頂視=是本新型之職式料機之第—較佳實施例之- 20 叫祝團; =4是圖3中沿線4_4之_未完整的剖 5二第一 _施例之另一未完整; 側視;。疋本新型之螺旋式排屑機之第二較佳編新型 Description of the new type: [Technical field to which the new type belongs] The present invention relates to a chip removal machine, in particular to a screw type chip removal machine which allows an operator to easily remove the accumulated chips in the machine body. 5 [Previous technology] Because the machine tool will produce cuttings and other impurities during the machining process, these cutting chips can be concentrated in one place by a chip removal machine and discharged out of the chip removal machine to maintain the machine tool clean. Referring to FIG. 1, a conventional spiral chip removal machine is suitable for a machine tool (not shown), and includes a casing u, a chip removal pipe 12, a motor 13 and a chip removal shaft 14. The illegal setting 11 includes a chip discharge slot 1 丨 丨, and a chip 2 generated by the tool for machining is dropped into the chip inlet 丨 丨 2 inside the chip discharge slot 1 丨 丨. One end opening 121 of the chip removal pipe 12 is obliquely locked to one of the five end sides of the casing 11 and includes an inner space 122 of the pipe communicating with the chip removal groove 111, and a τι spur σ8 away from the opening 1 2 1 Mouth 1 23. The motor 13 is provided on the peripheral side of the casing 11. " The chip discharge shaft 14 is arranged in the chip discharge groove 111 of the casing 11 in parallel and can be driven by the A motor 13 to rotate, so as to push the chip 2 located in the chip discharge groove 111 to advance straight, so that the chip 2 is discharged from the gate m of the chip removal pipe 12. As shown in FIG. 1, in practice, the rotating shaft 131 of the motor 13 can rotate a transmission shaft 15 by a plurality of sprocket wheels and chains, and then drive the “xuan chip removal shaft 14 by the transmission shaft 15 to rotate, so as to push the transmission shaft 15 The chips 2 in the chip groove ill advance straight. 5 M253586 In this way, although the traditional spiral chip conveyor 胄 1 can smoothly concentrate the cutting genus 2 at-and then discharge the chip conveyor " bu, there are still the following shortcomings .. Urgent solution: Although the material π 123 of the tube 12 can be used to discharge the cutting chip 2, in fact, 'the tube space 122 will still have chip deposits', especially when the machine tool wants to cut different metal objects,' the chip chip removal must be removed first. The accumulated debris in the tube 12 is used to reduce the time for the classification and recovery of the cuttings 2; so, it is usually necessary to disassemble the exclusive tube 12 in the casing first, and then pour out the cuttings 2 in the tube to achieve The purpose of removing debris is, in fact, because the chip removal pipe 12 is limited by the installation position of the Maru 3 to 13 and the sprocket cover covering the sprocket and chain, it is not easy to disassemble and take out. In this way, it will increase the dismantling time and the time for removing debris, which will relatively reduce the work efficiency. [New content] Therefore, the object of the present invention is to provide a screw type chip removal machine which allows the operator to easily > take out the accumulated chips in the machine body. Therefore, the new type of spiral chip removal machine is suitable for accommodating cutting chips generated by a machine tool, including a casing, a chip discharge tube, a motor driver, a chip discharge shaft, and a cover. The casing includes a chip removing groove defined by a surrounding wall covering, and a chip penetrating through one side of the surrounding wall for the machine tool to add 1 working hour to fall into the chip removing groove. Chip inlet. One end of the row tube is inclined to connect one end side of the casing, and includes an inner space of the tube communicating with the * chip removal groove, a bottom flat portion parallel to the casing, and a bottom flat portion that communicates with the bottom portion of the casing. The dust removal opening in the space of the tube. The motor is provided on the peripheral side of the casing. The chip removing shaft is set in the chip removing groove in parallel and can be rotated by the horse 6 M253586 to push the chips located in the chip removing groove straight forward, so that the cutting belongs to the other of the chip removing pipe. End opening. The cover can be lifted away and sighed on the clear σ of the chip removal 1. When the cover is lifted off the chip removal opening, the operator can remove the space in the tube and the chip removal groove. Debris. 5 [Embodiment] The foregoing and other technical contents, features, and effects of the present invention will be clearly understood in the following detailed description with reference to the second preferred embodiment of the drawings. As shown in Figures 2 and 3, the first embodiment of the new spiral chip removal machine 3 of the new type is "suitable for harvesting a machine tool (not shown). The cutting chips 4 generated during processing include a The casing 5, a chip discharge pipe 6, a motor 7, a chip discharge shaft 8 and a cover 9. The casing 5 includes a chip removing groove 52 surrounded by a surrounding wall 51, and a chip 4 that passes through the top side of the surrounding wall 51 and is generated by the tool during machining. A chip inlet 53 in the chip discharge groove 52. A right-side opening 61 of the chip evacuation tube 6 is inclinedly connected to a left end side of the casing 5 and includes a tube space 63 defined by a tube wall 62 and communicating with the chip evacuation groove 52, and an adjacent casing. 5 and parallel to the bottom flat portion 64 of the casing 5, a 20 chip removal opening 65 opened on the bottom side of the bottom flat portion 64 and communicating with the inner space 63 of the tube, and a left opening 66 away from the right opening 61. The motor 7 is arranged on the 5th peripheral side of the casing. Since the structure and the installation position of the motor 7 are the same as those of the motor 13 of the conventional screw chip conveyor 1 shown in FIG. 1, it will not be repeated here. The chip removing shaft 8 is spirally arranged in the chip removing groove 52 in parallel and 7 M253586 can be driven by the motor 7 to rotate, so as to push the chip 4 located in the chip removing groove 52 to advance straight, so that the chip 4 is discharged from the left opening% of the chip discharge pipe 6. As shown in FIG. 3, in practice, a receiving cylinder 100 is provided below the right-side opening 66 for the cutting chips 4 to accept. 5 With reference to FIGS. 3 and 4, the cover 9 is provided on the clearing port 65 of the row pipe 6 and can be lifted off and includes a cover plate 91 that can cover the clearing port & The lock plate% provided on two opposite sides of the cover plate 91. In the present known example, 'a lock piece j! 〇 can be passed through the locks respectively, and then locked in the row of 4 tubes 6 ±', so that the cover plate 91 covers the clearing port 65 firmly. Or 10 As shown in FIG. 5, a card groove 65 may be formed at a part of the open end edge of the clear pipe 65 of the row pipe 6, and the cover plate 91 is also provided with a card inserted into the card groove 651. If the block 91 is away from the latch & 911 lock &%, it will be locked to the chip removal tube 6 after passing through a yttrium piece no to pass through, so that the cover plate 9m is stable and 15f is covered by The chips 1 65 can be used by the operator to remove the accumulated chips in the space ο and the chip discharge groove 52 when the lock plate 92 of the cover 9 is disengaged from the chips 65. 20 #As shown in Figures 3, 4, and 5, the new spiral ejection machine 3 only needs to lift the body 9 away from the clearing port 65 in 5h, which can be used by the operator to remove the accumulated debris. The cover body 9 is far from the installation position of the motor 7 and the sprocket cover, which is different from the traditional spiral chip removal mechanism shown in FIG. The structural design that can only be removed by the Hai motor 13 and the chip removal tube 12 at the installation position of the sprocket cover is relatively easy for the operator to disassemble to facilitate the accumulation of the heart, thereby reducing the time for removing the pimple, and improving the king. Work efficiency. Referring to FIG. 6, the embodiment of this new type of screw y 8 M253586 5 is different from the first preferred embodiment in that the spiral chip removing machine 3 ′ is not provided with the aforementioned cover 9, and the row The chip tube 6 further includes a first lock ring 67 and a second lock ring 68 which are located on the bottom flat portion 64 and can be locked relative to each other. The first lock ring 67 and the second lock ring 68 are loan-locking pieces. 120. A stable lock is reached with the nut 130; by this, the first lock ring ... and the second lock ring 68 are separated from the installation position of the motor 7 and the sprocket cover, and can be easily disassembled by the operator. Debris can be removed from time to time, relative to the time to remove debris from the job, and improve work efficiency. 10 15 丨 The above is only the second preferred embodiment of the new model, and it cannot be used to limit the implementation of the new model. That is, the application of this new model: the scope of the new model and the content of the new manual Effects and modifications, Bai should still fall within the scope of this new patent. [Schematic description] Figure 1 is a top view of one of the traditional spiral chip conveyors. Top view = is the first of the new type of professional type feeder-the preferred embodiment-20 is called Zhu Tuan; = 4 is a diagram 3_ 4_4 of _ incomplete section 5 2 of the first _ embodiment of the other incomplete; side view;.第二 Second preferred edition of this new type of spiral chip conveyor
9 M253586 【圓式之主要元件代表符號說明】 3 螺旋式排屑機 3? 螺旋式排屑機 4 切削屑 5 機殼 51 圍繞壁 5 52 排屑槽 53 進屑口 6 排屑管 61 右側開口 62 管壁 63 管内空間 64 底平部 65 清屑口 651 卡溝 66 左側開口 10 67 第一鎖環 68 第二鎖環 7 馬達 8 排屑軸 9 蓋體 91 蓋板 911 卡掣塊 92 鎖板 92, 鎖板 15 100 容置筒 110 鎖結件 120 鎖結件 130 螺帽9 M253586 [Description of the symbols of the main components of the circle type] 3 Spiral Chip Removal Machine 3? Spiral Chip Removal Machine 4 Chips 5 Chassis 51 Surrounding Wall 5 52 Chip Removal Slot 53 Chip Inlet 6 Chip Removal Pipe 61 Right Side Opening 62 Tube wall 63 Inner tube space 64 Bottom flat part 65 Chip removal port 651 Card groove 66 Left side opening 10 67 First lock ring 68 Second lock ring 7 Motor 8 Chip removal shaft 9 Cover 91 Cover 911 Locking block 92 Lock plate 92, lock plate 15 100 container 110 lock knot 120 lock knot 130 nut