200946959 六、發明說明: 【發明所屬之技術領域】 本發明是關於雷射指標器,更詳細地說,是關於可使 雷射光呈現各種重點標記的雷射指標器。 【先前技術】 學會或說明會等,在演講者等有點距離的位置上所設 φ 置的銀幕進行資料等的投影,使用雷射指標器指出銀幕上 所要說明的資料內容。 已知的雷射指標器,其構成是採用在長向延伸的殻內 收容有半導體雷射裝置、電池,透過對設置在殼外面側的 切換器進行操作’從設置在殼一端側的投光部呈現雷射光 。重點標記,除了點狀以外,還採用箭頭符號等各種的標 記’已知有可根據需求切換該等標記的雷射指標器(例如 ,參照專利文獻1 )。 〇 [專利文獻1]日本特開平1 0-23 9632號公報 【發明內容】 [發明欲解決之課題] 然而,專利文獻1所揭示的重點標記,是藉由設有以 雷射中心軸線所轉換的位置爲旋轉中心的圓板,在該圓板 的外圍附近形成有重點標記對應形狀的透空部使雷射光透 過該透空部構成重點標記。 基於此’上述中心軸線和圓板的旋轉中心軸線之間必 -5- 200946959 須設有一定距離,因此無法使圓板小型化,結果就造成雷 射指標器的殼大型化所謂的產品缺點。 [發明之目的] 本發明是有鑑於上述缺點而提案的發明,其目的是提 供一種可任意選擇各種重點標記,能夠達成小型化的雷射 指標器。 [用以解決課題之手段] 爲了達成上述目的,本發明是針對構成爲在殻本體收 容有半導體雷射裝置,在該雷射裝置所發出的雷射光的中 心軸線上配置有投光部的雷射指標器,採用下述構成, 具備有:設置在上述雷射裝置和投光部之間的同時, 上述雷射光的透過可形成有指定形狀重點標記的複數透鏡 ;及可選擇性使該等透鏡位於上述中心軸線上的透鏡支架 上述投光部是設置在上述殻本體上所安裝的旋轉構件 的旋轉中心位置,上述旋轉構件的旋轉中心是和上述中心 軸線一致。 本發明中,採用所謂可使上述透鏡支架設置成能以上 述中心軸線正交的軸線爲旋轉中心進行旋轉的構成。 此外’又以採用下述構成爲佳,即,在上述透鏡支架 和上述旋轉構件之間設有連動機構,藉由上述旋轉構件的 旋轉操作使上述透鏡支架設置成能夠旋轉。 -6- 200946959 再加上,上述連動機構,又可由:支撐在上述旋轉構 件的同時以上述中心軸線相同的軸線爲旋轉中心的第1齒 ' 輪;及支撐在形成爲上述透鏡支架旋轉中心的軸部可咬合 於上述第1齒輪的第2齒輪所構成。 此外,上述透鏡支架和上述殼本體之間,可設有上述 透鏡位於上述中心軸線上時對透鏡支架賦予旋轉阻力的節 制機構。 0 再加上,又可採用下述構成,即,上述殻本體是形成 爲內部可收容雷射裝置及電源的筒狀,上述旋轉構件是設 置成可裝接在殼本體發光側端部的蓋狀,其端面中央形成 有上述投光部。 [發明效果] 根據本發明時,設置在旋轉構件的投光部,因是設置 在該旋轉構件的旋轉中心位置,其旋轉中心是和雷射的中 〇 心軸線成爲一致,所以即使是形成可任意選擇重點標記的 構成,還是能夠避免殼本體大型化。 此外,因是構成爲可使透鏡支架以上述中心軸線正交 的軸線爲旋轉中心進行旋轉,所以當上述殼本體爲軸線方 向延伸的形狀.時,就能夠使透鏡位於該殼本體的中心透過 雷射光。 另外,因是構成爲旋轉操作旋轉構件時,透過連動機 構旋轉可旋轉透鏡支架,所以能夠容易進行重點標記的切 換0 200946959 再加上’當連動機構是由第1及第2齒輪構成時,即 使旋轉構件的旋轉方向和透鏡支架的旋轉方向不同,還是 能夠確實形成連動。 此外,構成爲設有可對透鏡支架賦予旋轉阻力的節制 機構,除了能夠避免不小心切換到重點標記以外,還能夠 以卡塔感覺辨識出透鏡位於上述中心軸線上,因此也可避 免透鏡支架停止在足以遮住雷射的位置。 又加上,因是構成上述殼本體爲筒狀的另一方面旋轉 構件爲蓋狀,於該旋轉構件的端面中央設有投光部,所以 能夠形成爲類似筆的形狀方便攜帶。 【實施方式】 [發明之最佳實施形態] 以下,一邊參照圖面一邊對本發明的實施形態進行詳 細說明。 第1圖中,圖示著本實施形態相關的雷射指標器的槪 0 略透視圖,第2圖中,圖示著上述雷射指標器的要部分解 透視圖。該等圖中,雷射指標器10,構成爲具備:殼本體 11;收容在該殻本體11的半導體雷射裝置12;位於該雷 射裝置12外圍側的保持構件13;支撐在該保持構件13的 透鏡支架15及旋轉構件16;及設置在該旋轉構件16和透 鏡支架1 5之間的連動機構1 7。 上述殻本體Π是設置成細長的筒狀(例如,直徑10 數mm程度)。該殻本體11的成爲第1圖中右端側的後 -8- 200946959 端側是透過螺絲構造裝脫自如設有尾栓20,該尾栓20 備有未圖示繩子穿通的環部19。殼本體11內,在尾栓 ' 的前方,收容有未圖示的乾電池(電源)。 上述雷射裝置12是於上述殼本體11內收容在上述 電池的前方位置。該雷射裝置12,其前端爲大致圓形的 光面12A從該發光面12A發出的雷射光的中心軸線L 設置成和殼本體11的中心軸線略爲一致。於此,本實 0 形態的雷射裝置12是採用可發出的雷射光爲相較於紅 雷射光以相同輸出就能夠獲得數倍明亮的綠色雷射光。 上述保持構件13,是由:插入在上述殼本體11前 側內圍的連結筒21;及於該連結筒21的一端側,配置 隔著周圍方向大致180度間隔位置的一對延長臂部22、 所構成。連結筒21的軸方向中間部,如第3圖所示, 成有透過段部21A延伸在周圍方向的突條部25,利用 突條部25分別管制連結筒21插入在上述殼本體11時 0 插入位置,及旋轉構件16裝接在該連結筒21時的裝接 置。此外,連結筒21是在突條部25的左側外圍面’於 著圓周方向1 20度間隔的位置形成有螺絲孔27 ’設置成 使螺絲28螺入在該螺絲孔27。於此,螺絲28的前端, 備有可突出於連結筒21內圍的長度’如此一來’就能 調整上述雷射裝置12的發光面12A的中心位置。 上述延長臂部22、23當中,一方的延長臂部22’ 第3圖所示,設置成具備有朝內側突出之隆起部30的 狀。隆起部30,設有可貫通延長臂部22內外的貫通孔 具 20 乾 發 是 施 色 端 在 23 形 該 的 位 隔 可 具 夠 如 形 32 200946959 ,同時在該貫通孔32的鄰接位置,形成有朝內側開放的 彈簧承座凹部33。貫通孔32是可插入著具有球狀頭部 34A的插銷34,利用該插銷34,使透鏡支架15的一端側 支撐成可旋轉。此外,上述彈簧承座凹部33內,收容著 螺旋彈簧36’該螺旋彈簧36是構成可使配置在其與透鏡 支架15之間的鋼珠38彈推在透鏡支架15側。 上述透鏡支架15是設置成能以上述中心軸線L正交 的軸線L1爲旋轉中心進行旋轉。該透鏡支架15,包括: 支架本體40;位於該支架本體40的第3圖中下面側位置 的小徑部4 1 ;及設置在該小徑部4 1下面側的軸部4 2。支 架本體40如第5圖所示,在隔著周圍方向120度間隔的 位置具備有透光孔45。該等透光孔45是延伸在和上述中 心軸線L平行的面內,同時是在二個透光孔45的各一端 側安裝有透鏡46、47。於此,安裝有透鏡46的透光孔45 位在中心軸線L上時,如第5 ( A )圖所示,是作用成可 透光出環狀的重點標記Ml,當未安裝有透鏡的透光孔45 ,如第5 ( B )圖所示,形成有點狀的重點標記M2,當安 裝有透鏡47的透光孔45位於中心軸線L上時,如第5 ( C )圖所示,形成有直線狀的重點標記M3。 透鏡支架15是可旋轉地支撐在上述軸部42爲形成在 延長臂部23內面的孔50內。該孔50是和上述貫通孔32 設置在同一軸線上。此外,如第4圖所示,透鏡支架15 的頂面51是在隔著圓周方向60度間隔的位置形成有凹部 51A,該凹部51A是形成可容納上述鋼珠38。凹部51A, -10- 200946959 其一端位於頂面51中心側的同時,另一端是形成朝向放 射方向,該等凹部51A是沿著上述各透光孔45的延伸方 向設置在上方。於此,利用上述凹部51A、鋼珠38及可 使該鋼珠38彈推在凹51A的螺旋彈簧36構成節制機構。 上述旋轉構件16是透過上述一對延長臂部22、23以 可旋轉的狀態安裝在上述殻本體11的發光側端部。該旋 轉構件16是形成爲蓋形狀,其蓋形狀,具備:可使延長 0 臂部22、23容納在內圍側的筒狀部55 ;及位於該筒狀部 5 5 —端側的端面5 6。端面5 6的中心,形成有和上述中心 軸線L 一致的圓形孔所形成的投光部58,在以該投光部 5 8爲中間的徑方向對稱位置,形成有螺絲插入孔5 9,透 過插入在該螺絲插入孔59的螺絲60使圓盤62固定在上 述端面5 6的內面側。 上述圓盤62,具備有對應上述投光部58的段式中心 孔63,另一方面外圍具備有圓周溝槽65所構成。段式中 Q 心孔63裝接有具透光性的圓形窗材66。圓盤62的前端面 ,形成有對應上述螺絲插入孔5 9的螺絲孔69,將上述螺 絲6 0螺入在該螺絲孔69就能夠使圓盤62和旋轉構件16 成爲一體。此外,圓周溝槽65容納著鋼珠72,該鋼珠72 是配置在上述延長臂部22、23前端側上形成的孔7〇內, 藉此構成能夠順暢執行旋轉構件16及圓盤62的旋轉。 上述連動機構17,是由:透過黏合劑等固定在上述圓 盤62後端面的第1齒輪75;及固定在上述透鏡支架15軸 部42外圍側的同時,可咬合於上述第1齒輪75形成旋轉 -11 - 200946959 的第2齒輪76所構成。第1齒輪75是構成爲在具備有可 對應上述投光部58及段式中心孔63之透孔77的旋轉板 80外圍側設置第1齒部81。此外,第2齒輪76是構成爲 在第3圖中平面內旋轉的圓形板83外圍設置第2齒部84 〇 另,第1圖中圖號90是表示雷射裝置12的ON-OFF 執行用按鈕式開關,圖號91是表示按壓開關90時執行亮 燈顯示的顯示器。此外,圖號92是表示可插入在口袋等 u 的夾具。 其次,針對本實施形態的雷射指標器10使用方法進 行說明。 針對上述透鏡支架15設定在第5(A)圖位置時的狀 況,當按壓操作上述開關90從發光面12A發光時,透鏡 支架15會讓透鏡46位於上述中心軸線L上使重點標記 Ml呈現在銀幕等。200946959 VI. Description of the Invention: TECHNICAL FIELD The present invention relates to a laser indexer, and more particularly to a laser indexer that can display various highlight marks of laser light. [Prior Art] For the purpose of projecting or explaining, etc., a screen placed at a distance of a distance such as a speaker is used to project data, and a laser pointer is used to indicate the content of the data to be described on the screen. A known laser index device is constructed by accommodating a semiconductor laser device and a battery in a housing extending in a long direction, and operating through a switch provided on an outer surface side of the housing. The department presents laser light. In addition to the dot shape, various points such as an arrow symbol are used. A laser indexer that can switch the marks according to requirements is known (for example, refer to Patent Document 1). [Patent Document 1] Japanese Laid-Open Patent Publication No. Hei. No. Hei. No. Hei. No. Hei. No. Hei. No. Hei. The position is a circular plate of the center of rotation, and a through-hole portion having a corresponding shape of a key mark is formed in the vicinity of the periphery of the disk to allow the laser light to pass through the through-hole portion to constitute a key mark. Based on this, the above-mentioned central axis and the central axis of rotation of the circular plate must be provided with a certain distance, so that the circular plate cannot be miniaturized, resulting in a so-called product defect in the enlargement of the shell of the laser indexer. [Object of the Invention] The present invention has been made in view of the above-described disadvantages, and an object of the invention is to provide a laser indexer which can arbitrarily select various key marks and can achieve miniaturization. [Means for Solving the Problems] In order to achieve the above object, the present invention is directed to a thunder that is configured such that a semiconductor laser device is housed in a case body, and a light projecting portion is disposed on a central axis of the laser beam emitted from the laser device. The indexing device has a configuration in which a laser is disposed between the laser device and the light projecting portion, and the plurality of lenses are formed by transmitting the laser light with a predetermined shape key mark; and The lens holder on which the lens is located on the central axis is a rotation center position of a rotating member provided on the housing body, and a rotation center of the rotating member coincides with the center axis. In the present invention, a configuration is adopted in which the lens holder is provided so that the axis orthogonal to the central axis can be rotated as a center of rotation. Further, it is preferable to provide a configuration in which an interlocking mechanism is provided between the lens holder and the rotating member, and the lens holder is rotatably provided by a rotation operation of the rotating member. -6- 200946959 In addition, the interlocking mechanism may be: a first tooth 'wheel that supports the rotating member while rotating at the same axis of the central axis; and the support is formed at a rotation center of the lens holder The shaft portion is configured to be engaged with the second gear of the first gear. Further, between the lens holder and the case body, a control mechanism for imparting rotational resistance to the lens holder when the lens is positioned on the central axis may be provided. Further, in addition, the case body may be formed in a cylindrical shape in which the laser device and the power source are housed, and the rotating member is a cover that is provided to be attached to the end portion of the light emitting side of the case body. In the shape of the end surface, the light projecting portion is formed at the center of the end surface. [Effect of the Invention] According to the present invention, the light projecting portion provided in the rotating member is provided at the center of rotation of the rotating member, and the center of rotation thereof coincides with the center axis of the center of the laser, so that even if it is formed By arbitrarily selecting the composition of the key mark, it is possible to avoid the enlargement of the shell body. Further, since the lens holder is configured to rotate the axis of the lens holder so as to be orthogonal to the axis of the central axis, when the case body has a shape extending in the axial direction, the lens can be positioned to pass through the center of the case body. Shoot light. In addition, when the rotating member is rotated, the rotatable lens holder can be rotated by the interlocking mechanism, so that the key mark can be easily switched. 0 200946959 In addition, when the interlocking mechanism is composed of the first and second gears, even if The rotation direction of the rotating member is different from the rotation direction of the lens holder, and the interlocking can be surely formed. In addition, the control mechanism is provided with a control mechanism for imparting rotational resistance to the lens holder. In addition to avoiding accidental switching to the key mark, the lens can be recognized by the kata feeling that the lens is located on the central axis, thereby preventing the lens holder from being stopped. In a position sufficient to cover the laser. Further, since the rotating body member has a cylindrical shape and the rotating member has a lid shape, and the light projecting portion is provided at the center of the end surface of the rotating member, it can be formed into a pen-like shape and can be easily carried. [Embodiment] BEST MODE FOR CARRYING OUT THE INVENTION Hereinafter, embodiments of the present invention will be described in detail with reference to the drawings. In the first drawing, a perspective view of a laser pointer according to the present embodiment is shown, and in Fig. 2, a perspective view of a portion of the above-described laser pointer is shown. In the figures, the laser pointer 10 is configured to include a case body 11 , a semiconductor laser device 12 housed in the case body 11 , a holding member 13 on a peripheral side of the laser device 12 , and a support member. The lens holder 15 and the rotating member 16 of 13; and the interlocking mechanism 17 provided between the rotating member 16 and the lens holder 15 are provided. The casing body 上述 is provided in an elongated cylindrical shape (for example, a diameter of about 10 mm). The rear end -8-200946959 end side of the case body 11 which is the right end side in Fig. 1 is provided with a tail bolt 20 which is detachably attached via a screw structure, and the tail plug 20 is provided with a ring portion 19 through which a rope is not shown. In the case body 11, a dry battery (power source) (not shown) is housed in front of the tail plug '. The laser device 12 is housed in the casing body 11 at a position in front of the battery. The laser device 12 has a front end of a substantially circular surface 12A. The central axis L of the laser light emitted from the light-emitting surface 12A is disposed to be slightly coincident with the central axis of the casing body 11. Here, the laser device 12 of the present invention is capable of obtaining several times bright green laser light by using the laser light that can be emitted with the same output as the red laser light. The holding member 13 is a connecting tube 21 that is inserted into the inner side of the front side of the case body 11 and a pair of extended arm portions 22 that are spaced apart from each other by a distance of 180 degrees in the peripheral direction on one end side of the connecting tube 21, Composition. As shown in Fig. 3, the intermediate portion of the connecting cylinder 21 in the axial direction has a protruding portion 25 extending in the peripheral direction of the transmitting portion 21A, and the protruding portion 25 is used to control the connecting cylinder 21 to be inserted into the casing body 11 The insertion position and the attachment of the rotating member 16 when the connecting barrel 21 is attached. Further, the connecting cylinder 21 is formed with a screw hole 27' at a position on the left outer peripheral surface of the ridge portion 25 at a distance of 20 degrees in the circumferential direction so that the screw 28 is screwed into the screw hole 27. Here, the center of the light-emitting surface 12A of the laser device 12 can be adjusted by providing the front end of the screw 28 with a length "which can protrude from the inner circumference of the connecting cylinder 21". Among the above-described extension arm portions 22, 23, as shown in Fig. 3, one of the extension arm portions 22' is provided with a raised portion 30 that protrudes inward. The ridge portion 30 is provided with a through hole member 20 that can penetrate the inside and the outside of the extension arm portion 22. The dry hair is a coloring end in the shape of a 23-shaped space which can have a shape 32 200946959, and is formed at an adjacent position of the through hole 32. There is a spring retainer recess 33 that opens toward the inside. The through hole 32 is inserted into a pin 34 having a spherical head portion 34A, and the one end side of the lens holder 15 is supported to be rotatable by the pin 34. Further, the spring retainer recess 33 accommodates a coil spring 36' which is configured such that the steel ball 38 disposed between the lens holder 15 and the lens holder 15 can be pushed toward the lens holder 15 side. The lens holder 15 is provided to be rotatable about an axis L1 orthogonal to the central axis L. The lens holder 15 includes: a holder body 40; a small-diameter portion 4 1 located at a lower surface side in the third view of the holder body 40; and a shaft portion 42 provided on a lower surface side of the small-diameter portion 41. As shown in Fig. 5, the holder main body 40 is provided with a light transmission hole 45 at a position spaced apart from each other by 120 degrees in the peripheral direction. The light-transmitting holes 45 extend in a plane parallel to the center axis line L, and lenses 46 and 47 are attached to the respective one end sides of the two light-transmissive holes 45. Here, when the light-transmitting hole 45 in which the lens 46 is mounted is located on the central axis L, as shown in FIG. 5(A), it is a key mark M1 which acts to transmit a ring-shaped ring, when the lens is not mounted. The light transmission hole 45, as shown in FIG. 5(B), forms a dot-shaped key mark M2, and when the light transmission hole 45 to which the lens 47 is mounted is located on the central axis L, as shown in FIG. 5(C), A linear highlight mark M3 is formed. The lens holder 15 is rotatably supported by the shaft portion 42 in a hole 50 formed in the inner surface of the extension arm portion 23. The hole 50 is disposed on the same axis as the through hole 32. Further, as shown in Fig. 4, the top surface 51 of the lens holder 15 is formed with a concave portion 51A at a position spaced apart from each other by 60 degrees in the circumferential direction, and the concave portion 51A is formed to accommodate the steel ball 38. The concave portion 51A, -10-200946959 has one end located on the center side of the top surface 51, and the other end is formed to face the emission direction, and the concave portions 51A are provided above the extending direction of the respective light transmission holes 45. Here, the concave portion 51A, the steel ball 38, and the coil spring 36 that can push the steel ball 38 in the concave portion 51A constitute a restraining mechanism. The rotating member 16 is rotatably attached to the light-emitting side end portion of the casing body 11 through the pair of extension arm portions 22, 23. The rotating member 16 is formed in a lid shape and has a lid shape, and includes a tubular portion 55 that can accommodate the extended arm portions 22 and 23 on the inner circumference side, and an end surface 5 on the end side of the cylindrical portion 55. 6. At the center of the end surface 156, a light projecting portion 58 formed by a circular hole that coincides with the central axis L is formed, and a screw insertion hole 5 is formed at a symmetrical position in the radial direction with the light projecting portion 58 as a center therebetween. The disk 62 is fixed to the inner surface side of the end surface 56 by a screw 60 inserted into the screw insertion hole 59. The disk 62 is provided with a segment center hole 63 corresponding to the light projecting portion 58, and a peripheral groove 65 is provided on the outer periphery. In the segment type, the Q-hole 63 is attached with a light-transmissive circular window member 66. A screw hole 69 corresponding to the screw insertion hole 5.9 is formed in the front end surface of the disk 62, and the screw 60 and the rotating member 16 can be integrated by screwing the screw 60 into the screw hole 69. Further, the circumferential groove 65 accommodates the steel ball 72 which is disposed in the hole 7〇 formed on the distal end side of the extension arm portions 22 and 23, whereby the rotation of the rotating member 16 and the disk 62 can be smoothly performed. The interlocking mechanism 17 is a first gear 75 that is fixed to the rear end surface of the disk 62 by an adhesive or the like, and is fixed to the outer side of the shaft portion 42 of the lens holder 15, and is engageable with the first gear 75. Rotating -11 - 200946959 is the second gear 76. The first gear 75 is provided with a first tooth portion 81 provided on the outer peripheral side of the rotary plate 80 including the through hole 77 that can correspond to the light projecting portion 58 and the segment center hole 63. Further, the second gear 76 is configured such that the second tooth portion 84 is provided on the periphery of the circular plate 83 that rotates in the plane of Fig. 3, and the reference numeral 90 in Fig. 1 shows the ON-OFF execution of the laser device 12. With a push button switch, reference numeral 91 denotes a display that performs a lighting display when the switch 90 is pressed. Further, reference numeral 92 denotes a jig which can be inserted into a pocket or the like. Next, a method of using the laser pointer 10 of the present embodiment will be described. When the lens holder 15 is set to the position of the fifth (A) position, when the switch 90 is pressed to emit light from the light-emitting surface 12A, the lens holder 15 causes the lens 46 to be positioned on the central axis L to cause the key mark M1 to be present. Screen and so on.
於此,若要變更重點標記Ml時,只要在每次變更時 Q 對上述旋轉構件16進行各60度旋轉操作即可。如此一來 ,第1齒輪75會一體旋轉,使咬合於該第1齒輪75的第 2齒輪76在上述中心軸線L平行面內旋轉。因此,與第2 齒輪76成爲一體的透鏡支架15就會和第2齒輪76 —體 旋轉,如第5(B)圖或第5(C)圖所示,使未設有透鏡 的透光孔45或透鏡47位於上述中心軸線L上,讓該等對 應的重點標記M2或M3呈現在銀幕等。 另,透鏡支架15,因是維持成節制機構構成用的鋼珠 -12- 200946959 38透過螺旋彈簧36的彈簧力著位在凹部51A的狀態,所 以操作者根據卡塔感覺就能夠辨識出鋼珠3 8是位於著位 在凹部51的位置,還是鋼珠38位於離開凹部51的位置 。因此,上述透光孔45是否位於和上述中心軸線L 一致 的位置是可透過上述卡塔感覺掌握,所以就能夠經常針對 任一重要標記的呈現位置設定透鏡支架15的位置。 因此,根據上述的實施形態時,藉由旋轉構件1 6的 0 旋轉操作,可獲得所謂能夠選擇不同重點標記的效果。再 加上,透鏡支架1 5是構成以上述中心軸線L正交的軸線 L 1爲旋轉中心進行旋轉,所以就能夠提供一種可使中心 軸線L和投光部5 8 —致位於殼本體1 1的中心構成細徑化 的雷射指標器1 0。 本發明最佳的實施構成、方法等是揭示在以上記載, 但本發明並不限於上述記載。 即,本發明,主要是對特定的實施形態加以圖示並且 ❹ 說明,但只要不脫離本發明的技術思想及目的範圍,相關 業者是可對以上所述的實施形態,針對形狀、材料、數量 、其他的詳細構成加以各式各樣的變更。 因此,對上述所揭示的形狀、材質等限定的記載是爲 了讓讀者容易理解本發明所揭示的例示性記載,所以本發 •明並不受限於該記載,基於此該等的形狀、材料等限定的 一部份或全部限定除外後的構件名稱的記載是包括在本發 明的範圍。 例如:上述實施形態中,本發明的雷射指標器是形成 -13- 200946959 爲能夠呈現三種類重點標記的構成,但若採用至少二種類 重點標記的構成時還是足以構成本發明。此外,重點檩言己 的形狀也不限於圖示構成例,是可採用各種的透鏡。 【圖式簡單說明】 第1圖爲表示本實施形態相關的雷射指標器全體構成 槪略透視圖。 第2圖爲上述雷射指標器的要部放大分解透視圖。 q 第3圖爲上述雷射指標器的要部縱剖面圖。 第4圖爲透鏡支架從頂面側看時的局部平面圖。 第5圖爲根據透鏡支架位置切換重點標記的說明圖。 【主要元件符號說明】 I 〇 :雷射指標器 II :殻本體 1 2 :雷射裝置 〇 15 :透鏡支架 1 6 :旋轉構件 17 :連動機構 3 6 :螺旋彈簧(節制機構) 3 8 :鋼珠(節制機構) 4 2 ·‘軸部 5 8 :投光部 46、47 :透鏡 -14- 200946959Here, when the key mark M1 is to be changed, it is only necessary to perform a 60-degree rotation operation on the rotating member 16 every time the change is made. As a result, the first gear 75 rotates integrally, and the second gear 76 that is engaged with the first gear 75 rotates in parallel with the central axis L. Therefore, the lens holder 15 integrated with the second gear 76 rotates integrally with the second gear 76, and as shown in FIG. 5(B) or FIG. 5(C), the light-transmitting hole without the lens is provided. 45 or lens 47 is located on the above-mentioned central axis L, so that the corresponding key marks M2 or M3 are presented on a screen or the like. Further, since the lens holder 15 is held in the concave portion 51A by the spring force of the coil spring 36 by the steel ball 12-200946959 38 for maintaining the structure of the throttle mechanism, the operator can recognize the steel ball 3 8 according to the feeling of the kata. It is located at the position of the recess 51 or the position where the steel ball 38 is located away from the recess 51. Therefore, whether or not the light-transmitting hole 45 is located at a position coincident with the center axis L is permeable to the above-described feeling of the kata, so that the position of the lens holder 15 can be set constantly for the presentation position of any important mark. Therefore, according to the above embodiment, the effect of being able to select different key marks can be obtained by the 0 rotation operation of the rotating member 16. Further, since the lens holder 15 is configured to rotate about the axis L 1 orthogonal to the central axis L, it is possible to provide the center axis L and the light projecting portion 58 in the case body 1 1 . The center constitutes a thinned laser indexer 10. The preferred embodiments, methods, and the like of the present invention are disclosed above, but the present invention is not limited to the above description. That is, the present invention is mainly illustrated and described with respect to specific embodiments, but the relevant embodiments can be applied to the above-described embodiments, regardless of the shape, material, and quantity, without departing from the technical scope and the scope of the present invention. Other detailed configurations are subject to various changes. Therefore, the description of the shapes, materials, and the like described above is intended to facilitate the reader's understanding of the exemplary description disclosed in the present invention. Therefore, the present invention is not limited to the description, and the shapes and materials are based on the above. The description of the component names after the exclusion of a part or all of the definitions is included in the scope of the present invention. For example, in the above embodiment, the laser indexer of the present invention is configured to form three types of key marks from -13 to 200946959, but it is sufficient to constitute the present invention when at least two types of key marks are used. Further, the shape of the rumor is not limited to the illustrated configuration, and various lenses can be employed. BRIEF DESCRIPTION OF THE DRAWINGS Fig. 1 is a schematic perspective view showing the overall configuration of a laser pointer according to the present embodiment. Fig. 2 is an enlarged perspective exploded view of the main part of the above laser indexer. q Figure 3 is a longitudinal section of the main part of the above laser indexer. Fig. 4 is a partial plan view of the lens holder as seen from the top side. Fig. 5 is an explanatory diagram of switching the key mark according to the position of the lens holder. [Main component symbol description] I 〇: Laser indexer II: Shell body 1 2: Laser device 〇 15: Lens holder 1 6 : Rotating member 17: Linkage mechanism 3 6 : Coil spring (control mechanism) 3 8 : Steel ball (Regulatory mechanism) 4 2 · 'Shaft part 5 8 : Projection unit 46, 47: Lens-14- 200946959
5 1 A :凹部(節制機構) 75 :第1齒輪 76 :第2齒輪 L ·中心、軸線 Μ、Μ1、Μ 2 :重點標記 -155 1 A : recess (control mechanism) 75 : 1st gear 76 : 2nd gear L · center, axis Μ, Μ 1, Μ 2 : Key mark -15