TW202335766A - Milling height device - Google Patents
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- 238000003801 milling Methods 0.000 title claims abstract description 126
- 230000005540 biological transmission Effects 0.000 claims description 53
- 238000006073 displacement reaction Methods 0.000 claims description 12
- 230000009471 action Effects 0.000 claims description 11
- 230000000712 assembly Effects 0.000 claims 1
- 238000000429 assembly Methods 0.000 claims 1
- 238000004519 manufacturing process Methods 0.000 abstract description 11
- 238000000034 method Methods 0.000 abstract description 11
- 230000008569 process Effects 0.000 abstract description 9
- 230000000694 effects Effects 0.000 description 3
- 230000007246 mechanism Effects 0.000 description 3
- 238000005516 engineering process Methods 0.000 description 2
- 238000012986 modification Methods 0.000 description 2
- 230000004048 modification Effects 0.000 description 2
- 229910000838 Al alloy Inorganic materials 0.000 description 1
- XAGFODPZIPBFFR-UHFFFAOYSA-N aluminium Chemical compound [Al] XAGFODPZIPBFFR-UHFFFAOYSA-N 0.000 description 1
- 229910052782 aluminium Inorganic materials 0.000 description 1
- 239000000969 carrier Substances 0.000 description 1
- 230000002950 deficient Effects 0.000 description 1
- 238000010586 diagram Methods 0.000 description 1
- 238000004512 die casting Methods 0.000 description 1
- 238000009434 installation Methods 0.000 description 1
- 238000011900 installation process Methods 0.000 description 1
- 238000002844 melting Methods 0.000 description 1
- 230000008018 melting Effects 0.000 description 1
- 238000000465 moulding Methods 0.000 description 1
- 238000009740 moulding (composite fabrication) Methods 0.000 description 1
- 238000009966 trimming Methods 0.000 description 1
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Abstract
Description
本發明係關於一種處理毛邊之機具,特別是指一種銑高裝置。The present invention relates to a machine tool for processing burrs, and in particular to a milling device.
目前,高架地板裝置廣泛應用在防靜電的機房或無塵室中,其中,現有鋁合金壓鑄成型的高架地板需經由開模、熔鋁、壓鑄、成型以及修邊等主要五道工序製得。由於在成型過程中,高架地板的表面和底部會有多處毛邊,這些瑕疵毛邊在安裝過程中,一方面會使得高架地板之間無法緊密貼合,也無法與平臺框架之間貼合,另一方面也不利於工人安裝,且對工人會存在一定的安全隱憂。At present, raised floor devices are widely used in anti-static computer rooms or clean rooms. Among them, the existing aluminum alloy die-cast raised floor needs to be made through five main processes: mold opening, aluminum melting, die-casting, forming and trimming. During the molding process, there will be many burrs on the surface and bottom of the raised floor. During the installation process, these defective burrs will make it impossible for the raised floors to fit closely together or with the platform frame. On the one hand, it is not conducive to workers' installation, and there will be certain safety concerns for workers.
然而,現有方式中,須採用人工方式針對成型後的高架地板的四個腳座去除毛邊,不僅生產效率不高,且每次加工都需浪費大量人力而費時費力。However, in the existing method, manual methods must be used to remove burrs from the four bases of the formed raised floor. Not only is the production efficiency not high, but each processing also requires a lot of labor and is time-consuming and labor-intensive.
因此,如何克服上述習知技術之種種缺失,實已成為目前業界亟待克服之難題。Therefore, how to overcome the various shortcomings of the above-mentioned conventional technologies has become an urgent problem that the industry needs to overcome.
鑑於上述習知技術之缺失,本發明提供一種銑高裝置,係包括:基台,係具有工作面及鄰接該工作面之相對兩側面;定位結構,係設於該工作面上以承載目標物並限制該目標物位移,其中,該目標物係具有相對之第一表面與第二表面、鄰接該第一表面與第二表面之側面及凸出該側面之凸緣,且該第二表面之角落上係具有腳座;複數傳動齒條,係設於該基台之兩側面上並凸出該工作面;複數調整結構,係以可位移之方式設於該基台之兩側面上且分別設置於該定位結構之相對兩側,其中,各該調整結構係具有一自該側面延伸至該工作面上之調整架;銑高組件,係以可位移之方式設於該複數調整結構之調整架上以分別位於該定位結構之相對兩側,供對該目標物進行銑高處理而加工該目標物之腳座之端面,且該銑高組件係包含複數銑刀工具、作動該銑刀工具之驅動組、一以可位移方式設於該調整架上之支撐結構、及複數固設於該支撐結構上之承載架,其中,該複數銑刀工具與該驅動組藉由該複數承載架設於該支撐結構上,且該銑刀工具與該驅動組係分別設置於該承載架之相對兩側,而該支撐結構上設有一作用齒條;以及動力組,係以可位移方式設於該調整架上而位於該基台之側面上,並具有一位於該工作面上方之傳動軸及一配置於該傳動軸上之傳動齒輪,該傳動軸係具有作用螺紋部,且藉由該傳動齒輪嚙合該傳動齒條,以令該調整架相對該基台升降,而藉由該作用螺紋部嚙合該作用齒條,以令該支撐結構相對該調整架位移,使該動力組藉由轉動該傳動軸能分別升降該調整架以帶動該銑高組件升降至所需高度位置、及驅動該銑高組件朝該定位結構靠近或遠離之直線運動而進行該目標物之銑高處理。In view of the shortcomings of the above-mentioned conventional technology, the present invention provides a height milling device, which includes: a base, which has a working surface and two opposite side surfaces adjacent to the working surface; and a positioning structure, which is provided on the working surface to carry a target object. And limit the displacement of the target object, wherein the target object has a first surface and a second surface that are opposite, a side surface adjacent to the first surface and the second surface, and a flange protruding from the side surface, and the second surface There are foot seats on the corners; a plurality of transmission racks are provided on both sides of the base and protrude from the working surface; a plurality of adjustment structures are displaceably provided on both sides of the base and are respectively It is arranged on the opposite sides of the positioning structure, wherein each adjustment structure has an adjustment frame extending from the side to the working surface; the milling component is displaceably arranged on the adjustment structure of the plurality of adjustment structures. The frame is respectively located on opposite sides of the positioning structure for milling and heightening the target object and processing the end surface of the foot of the target object, and the milling and heightening assembly includes a plurality of milling cutter tools and actuates the milling cutter tools. The driving group, a support structure displaceably disposed on the adjustment frame, and a plurality of bearing frames fixed on the supporting structure, wherein the plurality of milling cutter tools and the driving group are mounted on the plurality of bearing frames. On the support structure, the milling cutter tool and the driving unit are respectively arranged on opposite sides of the carrier, and the support structure is provided with an action rack; and the power unit is displaceably provided on the adjustment The frame is located on the side of the base, and has a transmission shaft above the working surface and a transmission gear arranged on the transmission shaft. The transmission shaft system has an active threaded portion and is engaged by the transmission gear. The transmission rack is used to make the adjustment frame rise and fall relative to the base, and the action threaded portion engages the action rack to displace the support structure relative to the adjustment frame, so that the power group rotates the transmission shaft. The adjustment frame can be raised and lowered respectively to drive the milling and heightening component to lift to a required height position, and drive the milling and heightening component to move linearly toward or away from the positioning structure to perform milling and heightening of the target object.
前述之銑高裝置中,該定位結構之外側係配置止擋部,以擋住該目標物之側面。In the aforementioned milling device, a stopper is disposed outside the positioning structure to block the side of the target object.
前述之銑高裝置中,該調整結構復包含一設於該調整架上之帶動組,以推拉該動力組位移,使該傳動軸之作用螺紋部嚙合該作用齒條、或該傳動齒輪嚙合該傳動齒條。In the aforementioned milling height device, the adjustment structure further includes a driving group provided on the adjustment frame to push and pull the power group for displacement so that the active threaded portion of the transmission shaft engages the active rack, or the transmission gear engages the active rack. Transmission rack.
前述之銑高裝置中,該動力組藉由固定座設於該調整架上,且該調整架上設有軌道,而該固定座具有接合該軌道之溝槽,以令該固定座沿該軌道位移。In the aforementioned milling device, the power unit is mounted on the adjusting frame through a fixed base, and the adjusting frame is provided with a track, and the fixed base has a groove that engages the track, so that the fixed base moves along the track. Displacement.
前述之銑高裝置中,復包括複數配置於該支撐結構底部之滑塊、及複數配置於該調整架上且對應接合該滑塊之滑軌,使該滑塊沿該滑軌直線移動,令該動力組同時帶動該支撐結構及其上之兩個承載架與固定於該承載架上之該驅動組與該銑刀工具一併相對該基台位移一定距離。The aforementioned height milling device includes a plurality of slide blocks arranged at the bottom of the support structure, and a plurality of slide rails arranged on the adjustment frame and correspondingly engaging the slide blocks, so that the slide blocks move linearly along the slide rails, so that The power group simultaneously drives the support structure, the two bearing frames on it, and the driving group and the milling cutter tool fixed on the bearing frame to move a certain distance relative to the base.
前述之銑高裝置中,復包括對應設於該定位結構之相對兩側的固定部,以將該目標物壓制於該定位結構上。The aforementioned milling and heightening device further includes fixing portions corresponding to opposite sides of the positioning structure to press the target object on the positioning structure.
前述之銑高裝置中,復包括導引結構,其包含滑軌與接合該滑軌之滑座,該滑軌固定於該基台之側面上,該滑座固定於該調整架上,以令該調整架藉由該導引結構設於該基台上,以當該調整架升降時,能帶動該支撐結構及其上之銑刀工具相對該基台進行升降。The aforementioned milling height device further includes a guide structure, which includes a slide rail and a slide seat connected to the slide rail. The slide rail is fixed on the side of the base, and the slide seat is fixed on the adjustment frame. The adjustment frame is installed on the base through the guide structure, so that when the adjustment frame is raised and lowered, the support structure and the milling cutter tool on it can be driven to move up and down relative to the base.
前述之銑高裝置中,該支撐結構上設有限位擋板,且該基台上設有抵靠該限位擋板之限位器,以藉由該限位器控制該限位擋板之位置而控制該支撐結構之位移距離。In the aforementioned milling device, the support structure is provided with a limit baffle, and the base is provided with a limiter against the limit baffle, so that the limiter controls the movement of the limit baffle. position to control the displacement distance of the support structure.
前述之銑高裝置中,該銑高裝置共設置兩個獨立之支撐結構及四個獨立之該承載架,且一個獨立之該支撐結構及兩個獨立之該承載架係作為一機組共設置兩組機組,以令該兩機組分別平行設置於該定位結構之相對兩側,且單一機組中之兩個獨立之該承載架分別固定於一個獨立之該支撐結構之相對兩側上,使得該承載架上之每一該銑刀工具同時由同一個動力組驅動。In the aforementioned milling height device, the milling height device is equipped with two independent support structures and four independent bearing frames, and one independent supporting structure and two independent bearing frames are used as one unit to provide a total of two. Set the unit so that the two units are arranged in parallel on opposite sides of the positioning structure, and the two independent bearing frames in a single unit are respectively fixed on the opposite sides of an independent support structure, so that the bearing Each milling tool on the rack is driven by the same power pack at the same time.
前述之銑高裝置中,該承載架係呈L形架體,其以對稱方式設於該支撐結構之左、右兩側,該承載架係於其相對兩端側上分別配置一驅動組及該銑刀工具,且該承載架係於朝向該定位結構之端側配置該銑刀工具,以藉由該驅動組作動該銑刀工具。In the aforementioned milling and heightening device, the bearing frame is in the form of an L-shaped frame, which is symmetrically arranged on the left and right sides of the support structure. The bearing frame is equipped with a driving group and a drive group on its opposite end sides. The milling cutter tool is disposed on the end side of the carrier toward the positioning structure, so that the driving group drives the milling cutter tool.
前述之銑高裝置中,該支撐結構係為倒T形座體,且該複數承載架係呈L形架體,其以對稱方式設於該支撐結構之直立部分之左、右兩側,並令該複數承載架係於其相對兩端側上分別配置該複數驅動組及該複數銑刀工具。In the aforementioned milling height device, the support structure is an inverted T-shaped base body, and the plurality of load-bearing frames are L-shaped frames, which are symmetrically arranged on the left and right sides of the upright part of the support structure, and The plurality of carrier frames are configured with the plurality of driving groups and the plurality of milling cutter tools on opposite end sides thereof.
由上可知,本發明之銑高裝置,主要藉由該傳動齒條、作用齒條、調整結構與傳動軸之設計,以利於調整該銑高組件之位置,使該銑高組件於針對高架地板進行腳座之高度之加工處理時,能加快生產時程而提高生產效率,同時減少人力成本。It can be seen from the above that the height milling device of the present invention mainly uses the design of the transmission rack, the action rack, the adjustment structure and the transmission shaft to facilitate the adjustment of the position of the milling component so that the height milling component can be aligned with the elevated floor. When processing the height of the foot base, the production process can be accelerated, the production efficiency can be improved, and the labor cost can be reduced at the same time.
以下藉由特定的具體實施例說明本發明之實施方式,熟悉此技藝之人士可由本說明書所揭示之內容輕易地瞭解本發明之其他優點及功效。The following describes the implementation of the present invention through specific embodiments. Those familiar with the art can easily understand other advantages and effects of the present invention from the content disclosed in this specification.
須知,本說明書所附圖式所繪示之結構、比例、大小等,均僅用以配合說明書所揭示之內容,以供熟悉此技藝之人士之瞭解與閱讀,並非用以限定本發明可實施之限定條件,故不具技術上之實質意義,任何結構之修飾、比例關係之改變或大小之調整,在不影響本發明所能產生之功效及所能達成之目的下,均應仍落在本發明所揭示之技術內容得能涵蓋之範圍內。同時,本說明書中所引用之如「上」、「下」、「前」、「後」、「左」、「右」及「一」等之用語,亦僅為便於敘述之明瞭,而非用以限定本發明可實施之範圍,其相對關係之改變或調整,在無實質變更技術內容下,當亦視為本發明可實施之範疇。It should be noted that the structures, proportions, sizes, etc. shown in the drawings attached to this specification are only used to coordinate with the content disclosed in the specification for the understanding and reading of those familiar with the art, and are not used to limit the implementation of the present invention. Therefore, it has no technical substantive significance. Any structural modifications, changes in proportions, or adjustments in size shall still fall within the scope of this invention without affecting the effects that can be produced and the purposes that can be achieved. The technical content disclosed by the invention must be within the scope that can be covered. At the same time, terms such as "upper", "lower", "front", "back", "left", "right" and "one" cited in this manual are only for the convenience of description and are not It is used to limit the implementable scope of the present invention. Changes or adjustments in the relative relationships shall also be regarded as the implementable scope of the present invention as long as the technical content is not substantially changed.
圖1A係為本發明之銑高裝置1之立體示意圖。於本實施例中,該銑高裝置1係將一如高架地板之目標物9(如圖1B所示)進行加工。Figure 1A is a schematic three-dimensional view of the height milling device 1 of the present invention. In this embodiment, the height milling device 1 processes a target 9 (as shown in Figure 1B) that is a raised floor.
於本實施例中,依據生產線運輸該目標物9之方向定義為左、右方向(如箭頭方向Y),且將垂直該運輸方向定義為前、後方向(如箭頭方向X),而將沿該銑高裝置1之高度方向定義為上、下方向(如箭頭方向Z)。應可理解地,該方位係用於說明本實施例之配置,並無特別限制。In this embodiment, the direction of transporting the
所述之目標物9係為高架地板,如圖1B、圖1C及圖1D所示,其具有相對之第一表面9a(如地板面)與第二表面9b(如底側端部)及鄰接該第一與第二表面9a,9b之側面9c。例如,該目標物9係大致呈矩形體(如正方形板),該目標物9底部(如該第二表面9b之側,其為高架地板底部)係為蜂巢狀,並於該目標物9之第二表面9b之四個角落上形成有腳座90,以於該四個腳座90設置開孔,使用螺絲(圖略)分別將四個腳座90固定於該高架地板用之支撐腳架(圖略)上。具體地,該腳座90之端面9d係微凸出(如圖1D所示之高度差h)該目標物9之第二表面9b,且於該第一表面9a之邊緣係形成有凸出該側面9c之凸緣91。本實施例之目標物9係為高架地板,故以下將該目標物9稱為高架地板。The
所述之銑高裝置1係用以清除該高架地板之四個腳座90之端面9d毛邊,以加工處理該高架地板至所需的高度尺寸。The above-mentioned milling device 1 is used to remove the
請一併參考圖2A至圖2D,所述之銑高裝置1係包括一基台21、一設於該基台21上之定位結構22、設於該基台21上之傳動齒條25、以可位移方式設於該基台21上之調整結構27、以可位移之方式設於該調整結構27上並位於該定位結構22周圍之銑高組件2a、以及以可位移之方式設於該調整結構27上之動力組28,使該調整結構27位移該動力組28而調整該銑高組件2a對應該定位結構22之水平距離並使該銑高組件2a相對該定位結構22升降,以調整對該目標物9(高架地板)之銑高加工量,且待該銑高加工量設定完成後,再進行水平移動以對該目標物9之腳座90加工,並於完成該目標物9之銑高處理後,令運輸裝置(圖略)將該目標物9從該定位結構22上移開。Please refer to Figures 2A to 2D together. The height milling device 1 includes a
所述之基台21係為機具工作台,其大致呈矩形體(或長方體),且其工作面S亦呈矩形(或長方形)平面。The
於本實施例中,該基台21內可配置生產線所需之機電組件,如馬達、電線或其它相關機組,並無特別限制。In this embodiment, the
所述之定位結構22係配置於該基台21之工作面S之中間處,以定位承載該目標物9。The
於本實施例中,該定位結構22係為框架體,如兩平行排設之直條狀架體22a或正方形框體,且該銑高組件2a(本實施例顯示有兩組)係配置於該些架體22a之相對兩側(如前、後側),該定位結構22之相對兩側之外側可依需求配置至少一固定部220(如轉角缸夾具)。於使用時,該固定部220係選用轉角缸夾具,其可於各該架體22a之其中一側設置至少一者,以將該高架地板固定於該基台21上,故於進行銑除作業之過程中,可限制該高架地板位移而避免偏離該定位結構22。In this embodiment, the
進一步,若欲採用人工方式置放該目標物9時,可於該定位結構22之外側(如垂直於該定位結構22設置該轉角缸夾具之側之另一側)配置至少一止擋部221,該止擋部221擋住該高架地板之側面9c,以利於作業員將目標物9推放(如朝箭頭方向Y)於該定位結構22上。應可理解地,亦可藉由運輸裝置(圖略)從進料處(圖略)夾取需加工處理的目標物9並將其放置於該定位結構22上之加工位置。Furthermore, if you want to place the
本實施例之兩組銑高組件2a係對稱配置於該定位結構22之相對兩側(如前、後側),且各該銑高組件2a係包含複數個銑刀工具20、以可位移方式設於該調整結構27上之複數個支撐結構23、及分別設於該支撐結構23兩側上並架設該些銑刀工具20之承載架24,藉由該支撐結構23相對該基台21位移,以令該承載架24及其上之銑刀工具20靠近或遠離該定位結構22。The two sets of milling
於本實施例中,該銑高裝置1共設置兩個獨立之支撐結構23及四個獨立之該承載架24,且一個獨立之支撐結構23及兩個獨立之該承載架24係作為一機組(共兩組機組或銑高組件2a),以令該兩機組分別平行設置於該定位結構22之相對兩側,且單一機組中之兩個獨立之該承載架24分別固定於一個獨立之支撐結構23之相對兩側上,使得該承載架24上之兩個銑刀工具20可同時由同一個該動力組28驅動,且兩個該動力組28同時驅動兩個支撐結構23前進後退,以快速同時加工該目標物9之四個腳座90至所需的高度,其中,該銑刀工具20係於其本體20a底端處配置有一銑刀200。應可理解地,有關銑刀200之種類繁多,並無特別限制。In this embodiment, the height milling device 1 is provided with two
再者,該支撐結構23係為倒T形座體,且該承載架24係呈L形架體,其以對稱方式設於該支撐結構23之直立部分之左、右兩側,該承載架24係於其相對兩端側上分別配置一驅動組26及該銑刀工具20,且該承載架24係於朝向該定位結構22之端側配置該銑刀工具20,以藉由該驅動組26作動該銑刀工具20。具體地,該驅動組26係為馬達,其藉由皮帶260帶動該銑刀工具20轉動,以銑除加工該目標物9之腳座90至所需的高度。Furthermore, the
又,該支撐結構23係以可位移之方式配置於該基台21之工作面S之上方,且該基台21之工作面S上設置多個帶動該些支撐結構23位移之調整結構27及多個設於該些調整結構27上之動力組28,其中,該支撐結構23之底板部之底面配置一平行該工作面S之作用齒條29,如圖2C所示,且該作用齒條29係沿前、後方向(如箭頭方向X)配置。In addition, the
所述之動力組28係為馬達,其藉由一固定座280以可位移方式設置於該調整架27b上,並具有一位於該工作面S上方之傳動軸28a及一配置於該傳動軸28a上之傳動齒輪282,該傳動軸28a之端處係具有一如蝸桿之作用螺紋部281。The
所述之調整結構27係包含一如L形板架之調整架27b及一設於該調整架27b上之帶動組27a。The
於本實施例中,該調整架27b係用以架設該固定座280、滑軌291與該支撐結構23,且該帶動組27a係為汽缸機構或其它伸縮機構,以藉由伸縮桿270帶動其端部之板件271而推拉該動力組28沿左右方向位移。具體地,如圖2B所示,該調整架27b於對應該側面21c之架體上設有兩軌道272,且該固定座280具有接合該兩軌道272之溝槽(未圖示),以令該固定座280沿該軌道272左右位移,使該動力組28相對該調整架27b沿左、右方向(如箭頭方向Y)位移。In this embodiment, the adjusting
當該帶動組27a推動該動力組28位移至左側定點時,該動力組28可帶動該支撐結構23前後位移。於本實施例中,將該動力組28之傳動軸28a端處上所配置之作用螺紋部281嚙合設於該支撐結構23上之作用齒條29,故當該動力組28驅動該傳動軸28a轉動該作用螺紋部281時,該作用齒條29與該作用螺紋部281可相對位移,以帶動該支撐結構23沿前、後方向(如箭頭方向X)作直線往復運動一定距離(其大於或等於該腳座90之寬度d,如圖1D所示),致使該動力組28帶動該支撐結構23靠近或遠離該定位結構22,且可於該支撐結構23側面上設置至少一限位擋板23a,並於該基台21上設置至少一限位器23b,以藉由該限位擋板23a接觸該限位器23b之位置而控制該銑刀工具20之加工行程。When the
較佳地,一導軌與滑座之組合29a係於該支撐結構23底部配置複數滑塊290以作為滑座,且於該調整架27b對應該工作面S之架體檯面上配置複數對應接合該滑塊290之滑軌291以作為導軌,使該滑塊290沿該滑軌291直線移動,令該動力組28可同時帶動該支撐結構23及其上之兩個承載架24與固定於該承載架24上之該驅動組26與該銑刀工具20一併相對該基台21位移一定距離(大於或等於該腳座90之寬度d),以加工四個腳座90之端面9d,達成該高架地板所需之高度。Preferably, a guide rail and slide
當該帶動組27a拉動該動力組28位移至右側定點時,該動力組28之傳動軸28a上所配置之傳動齒輪282會嚙合一固定於該基台21側面21c之傳動齒條25,使該支撐結構23與該承載架24可相對該基台21進行升降(朝箭頭方向Z上、下移動)。例如,該傳動齒條25係穿過該調整架27b之開口273(如圖2B所示),以凸出於該工作面S,使該傳動齒輪282可嚙合該傳動齒條25,故當該動力組28驅動該傳動軸28a轉動該傳動齒輪282時,使得該傳動齒條25與該傳動齒輪282可相對位移,令該固定座280與該調整架27b沿箭頭方向Z相對該基台21進行上、下運動,因該支撐結構23設於該調整架27b上,使得該承載架24得以一併升降(如箭頭方向Z),並使該銑刀工具20位移至所需之高度位置。When the
較佳地,該調整架27b可藉由導引結構25a設於該基台21之側面21c上,且該導引結構25a包含滑軌250與接合該滑軌250之滑座251,其中,該滑軌250固定於該基台21之側面21c上,該滑座251固定於該調整架27b上,故當該傳動齒輪282與該傳動齒條25相對位移時,該調整架27b及其上之支撐結構23上可在該滑軌250上沿上、下方向(如箭頭方向Z)直線移動,以調整該銑刀工具20至欲加工該腳座90所需的高度。具體地,該銑刀工具20能銑出該目標物9之四個腳座90所需之高度,如從銑前高架地板之高度56㎜至銑後55㎜。Preferably, the
應可理解地,當該滑座251升降至定點(即該滑軌250上之加工位置)後,可藉由一如滑軌固定器之定位件252固定該滑座251,如圖2D所示,使該調整架27b及其上之支撐結構23定位,以避免該調整架27b下滑。It should be understood that when the
當於生產線上使用該銑高裝置1時,如圖3A及圖3B所示,藉由運輸裝置或人工方式將一目標物9置放於該銑高裝置1之定位結構22上,並使該固定部220同時旋轉降低以壓制該目標物9之第二表面9b,且該止擋部221抵靠該目標物9之側面9c。When the height milling device 1 is used on the production line, as shown in Figures 3A and 3B, a
接著,將該動力組28朝右側位移至定點,如圖3C所示,使該傳動齒輪282嚙合該傳動齒條25,以藉由該動力組28轉動該傳動軸28a而一併升降該調整架27b及其上之支撐結構23,因而得以微調該銑刀200之高度位置,致使該銑刀工具20升降至所需之銑高加工量之高度位置。Then, the
待該銑高加工量設定完成後,將該動力組28朝左側位移至定點,如圖3D所示,使該作用螺紋部281嚙合該作用齒條29,以藉由該動力組28轉動該傳動軸28a而前後位移該支撐結構23,且令該驅動組26轉動該銑刀工具20之銑刀200對該目標物9之四個腳座90之端面9d銑削毛邊,使該銑高組件2a加工處理該高架地板至所需的高度尺寸。After the setting of the milling height processing amount is completed, the
綜上所述,本發明之銑高裝置1,主要藉由該傳動齒條25(升降/調整高度用)、作用齒條29(遠近/調整水平位移用)與調整機制(該調整結構27帶動傳動軸28a位移以切換調整項目)之設計,以利於調整該銑高組件2a之位置,使該銑高組件2a於針對高架地板進行腳座90之高度之加工處理時,能加快生產時程而提高生產效率,同時減少人力成本。To sum up, the height milling device 1 of the present invention is mainly driven by the transmission rack 25 (for lifting/adjusting height), the action rack 29 (for distance/adjusting horizontal displacement) and the adjustment mechanism (the
上述實施例係用以例示性說明本發明之原理及其功效,而非用於限制本發明。任何熟習此項技藝之人士均可在不違背本發明之精神及範疇下,對上述實施例進行修改。因此本發明之權利保護範圍,應如後述之申請專利範圍。The above embodiments are used to illustrate the principles and effects of the present invention, but are not intended to limit the present invention. Anyone skilled in the art can make modifications to the above embodiments without departing from the spirit and scope of the invention. Therefore, the scope of protection of the rights of the present invention should be as follows: the scope of the patent application described below.
1:銑高裝置
2a:銑高組件
20:銑刀工具
20a:本體
200:銑刀
21:基台
21c:側面
22:定位結構
22a:架體
220:固定部
221:止擋部
23:支撐結構
23a:限位擋板
23b:限位器
24:承載架
25:傳動齒條
25a:導引結構
250:滑軌
251:滑座
252:定位件
26:驅動組
260:皮帶
27:調整結構
27a:帶動組
27b:調整架
270:伸縮桿
271:板件
272:軌道
273:開口
28:動力組
28a:傳動軸
280:固定座
281:作用螺紋部
282:傳動齒輪
29:作用齒條
29a:導軌與滑座之組合
290:滑塊
291:滑軌
9:目標物
9a:第一表面
9b:第二表面
9c:側面
9d:端面
90:腳座
91:凸緣
d:寬度
h:高度差
S:工作面
X,Y,Z:箭頭方向
1: Milling
圖1A係為本發明之銑高裝置之立體示意圖。Figure 1A is a schematic three-dimensional view of the height milling device of the present invention.
圖1B係為本發明之銑高裝置欲處理之目標物之上視立體示意圖。Figure 1B is a schematic top perspective view of the target object to be processed by the milling and heightening device of the present invention.
圖1C係為圖1B之下視示意圖。Figure 1C is a schematic bottom view of Figure 1B.
圖1D係為圖1B之左視示意圖。Figure 1D is a schematic left view of Figure 1B.
圖2A係為圖1A之立體局部分解示意圖。Figure 2A is a three-dimensional partially exploded schematic view of Figure 1A.
圖2B係為圖2A之局部放大示意圖。Figure 2B is a partially enlarged schematic diagram of Figure 2A.
圖2C係為圖2A之局部立體示意圖。Figure 2C is a partial perspective view of Figure 2A.
圖2D係為圖2A之局部立體示意圖。Figure 2D is a partial perspective view of Figure 2A.
圖3A係為圖1A之銑高裝置於使用中之立體示意圖。Figure 3A is a schematic three-dimensional view of the milling and heightening device of Figure 1A in use.
圖3B係為圖3A之左視示意圖。Figure 3B is a schematic left side view of Figure 3A.
圖3C係為圖3A之銑高裝置於其中一狀態之局部上視示意圖。FIG. 3C is a partial top view of the milling and heightening device of FIG. 3A in one state.
圖3D係為圖3A之銑高裝置於另一狀態之局部上視示意圖。Figure 3D is a partial top view of the milling and heightening device of Figure 3A in another state.
1:銑高裝置 1: Milling height device
2a:銑高組件 2a: Milling high components
20:銑刀工具 20:Milling cutter tool
20a:本體 20a:Ontology
200:銑刀 200:Milling cutter
21:基台 21:Abutment
21c:側面 21c: Side
22:定位結構 22: Positioning structure
22a:架體 22a: Frame
220:固定部 220: Fixed part
221:止擋部 221: Stopper
23:支撐結構 23:Support structure
23a:限位擋板 23a:Limiting baffle
23b:限位器 23b:Limiter
24:承載架 24: Bearing frame
25:傳動齒條 25: Transmission rack
25a:導引結構 25a: Guidance structure
26:驅動組 26:Driver group
260:皮帶 260:Belt
27:調整結構 27:Adjust structure
27a:帶動組 27a: Drive the group
27b:調整架 27b: Adjustment stand
28:動力組 28: Power group
280:固定座 280: Fixed seat
29a:導軌與滑座之組合 29a: Combination of guide rail and slide seat
290:滑塊 290:Slider
291:滑軌 291:Slide rail
S:工作面 S: working surface
X,Y,Z:箭頭方向 X,Y,Z: Arrow direction
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