10〇年9月7曰修正替換 五、新型說明: 【新型所屬之技術領域】 的列^作係關於—種以雷射光料準起造基點精確 有钭卢if定物件的距離之裝置者;尤指,該裳置設 f斜度自動調整構成使測距雷射光線呈精確水 2斜度的對準預定物件’並在物件處與基點處同時測 ;距離’亚可在同軸線上不同距離的變換之測領 顯示出連續物件關連的不同距離者。 ”、 【先前技術】 旺習用的營造場所(例如··建築基地或室内裝潢等) ^標線和f距作為起造基點和關連角度、距離Ϊ坡度 時,以往使用的量尺和角尺,及重垂、水準器等人二 器具的量測作業’ t因量具的誤差和量測方位的水平 度、垂直度或角度等距離尺寸不易擺正,及場地環境 口 π或人為的铁差而不易精確;即使,有經緯線雷射 光顯射裝置以精確的水平度及垂直度顯射標示在預定 物件上^但由起造基點到該預定物件的距離和向位或 坡度之夏測需要兩人以上操作,一次測量只有一個數 據,不能連續分段或逐段測量,且只有一個顯示螢幕在 基點儀器上顯示,則是常因量尺在場地擺放直度不 易或里尺夕-人延測的累加誤差,使人工量測距離和 坡度的作業發生困L有雷射光線的手持測距 裝置發展使用。 然而,在營造場地定位起造時,以人工手持該雷 M417538 ' ·* ------------ 100年9月7日修正替換 .射光測距裝置對準起造基準點,以及!~ 和上下左右等方位角度對準預定物件,實是難以精ς 的操作,而令人不能確認量測的精準度;且若需有方 位或距離位置的變換之關連量測時,即無逐段:分段 取得間段距離可以放樣、定位、刻記的功能,而μ \ $認其關連性的精確度,致使該手持雷射㈣距褒置 無實用的效能而顯其缺失。 饞 本案創作人有鑑於此’仍詳加研究改進,揭示出 w 本創作一種施工定位雷射光測距裝置。 【新型内容】 本創作之主要目的在於提供—種施工定位雷射光 測距政置使射光線測距構造能自動調整精確的 水平度和預定的坡度,並以定位的顯射雷射光點線對 準起造基點確保測距的精準距離者。 本創作之次一目的在於提供—種施工定位雷射光 測距裝置,使該雷射光測距構栌^ 尤j此稱&以可移動的標測物件 放置於預定量測位置,可依客 ^ J依夕點分段測量的相關連數 值據以疋位和刻記放樣者。 本創作之再一目的在於提供 .§(i,, ^ 種轭工定位雷射光 測距/、置,使該雷射光咖構造可操㈣旋轉, 精:的水:度或預定的坡度’和精準的向位變換之距 離置測和定位放樣者。 本創作的技術方案是·· 一種施工定位雷射光測距裝置,包括: ^^538 座體’容置機構和組件的承座者; -水平和坡度自動調整機構,能自動調整 水平或預定坡度者; 基點雷射光器,向下顯射雷射光線對準起造美 一雷射光測距構造,顯射雷射光線測距光點者· 一標測物件,反射雷射光測距構造顯射的雷射光September 7th, 2010, Amendment and Replacement 5, New Type Description: [The new technical field of the system] is a device that uses the laser light source to make the base point accurate and has the distance of the object. In particular, the skirt is set to automatically adjust the slope to form a predetermined object that makes the ranging laser light have a precise water 2 slope and is simultaneously measured at the object and the base point; the distance 'Asia can be different distance on the coaxial line The transformed leader shows the different distances associated with successive objects. "Previous technique" Construction site for the use of the master (for example, construction base or interior decoration, etc.) ^The ruler and the square of the mark used as the starting point, the connected angle, and the slope of the distance, and the scales and squares used in the past, and The measurement operation of the heavy equipment, leveling device, etc. is not easy to correct due to the error of the measuring tool and the horizontal, vertical or angular distance of the measuring azimuth, and the site environment π or artificial iron is not easy. Accurate; even if there is a latitude and longitude laser light projection device with a precise level and verticality marked on the predetermined object ^ but the distance from the base point to the predetermined object and the summer position of the orientation or slope need two people The above operation, only one data in one measurement, can not be continuously segmented or measured piece by piece, and only one display screen is displayed on the base point instrument, it is often difficult to measure the straightness of the scale at the site or the mile-person extension The accumulating error makes the manual measuring distance and the slope of the work difficult to develop. The handheld distance measuring device with laser light is developed and used. However, when constructing the site for positioning, the hand is manually held. 417538 ' ·* ------------ Correction and replacement on September 7th, 100. The illuminating distance measuring device is aligned with the starting reference point, and the !~ and the azimuth angles of the up, down, left and right are aligned with the predetermined object. It is difficult to carry out the operation, and it is impossible to confirm the accuracy of the measurement; and if there is a related measurement of the change of the position or distance position, there is no segment: the segment distance can be staked and positioned. The function of engraving, and μ \ $ recognizes the accuracy of its relevance, resulting in the lack of practical performance of the handheld laser (four) distance. 馋 The creator of this case has been researched and improved. It is revealed that a construction positioning laser light distance measuring device is created. [New content] The main purpose of this creation is to provide a kind of construction positioning laser light ranging political setting so that the light light ranging structure can automatically adjust the precise level and schedule. The slope, and the positioning of the projected laser spot line to align with the base point to ensure the precise distance of the distance measurement. The second purpose of this creation is to provide a kind of construction positioning laser light distance measuring device, so that the laser light distance measurement栌 尤 j this is called & The moving test object is placed at a predetermined measurement position, and the relevant value of the segment measurement can be used to clamp and engrave the staked person. Another purpose of the creation is to provide. §(i, , ^ 轭 工 定位 定位 定位 定位 定位 定位 定位 定位 定位 定位 定位 定位 定位 定位 定位 定位 定位 定位 定位 定位 定位 定位 定位 定位 定位 定位 定位 定位 定位 定位 定位 定位 定位 定位 定位 定位 定位 定位 定位 定位 定位 定位 定位 定位 定位 定位 定位 定位 定位 定位 定位 定位 定位The technical solution of the creation is: · A construction positioning laser light distance measuring device, comprising: ^^538 seat 'receiving mechanism and component holder; - horizontal and slope automatic adjustment mechanism, can automatically adjust the level or predetermined Slope; base point laser illuminator, downward projection laser ray alignment to create a laser light ranging structure, laser light ray distance measuring spot, a standard object, reflective laser light ranging structure Shot of laser light
線或直接的接&雷射域量測韓以螢幕顯示其距離 者; 一刼控電路,依該水平和坡度自動調整機構、基 點雷射光器和雷射光測距構造等設置相對應的積體ς 路者; 、且兒 一手動#作構造,設於該座體上操控順序動作者; 一遙控裝置,能發射操作信號遙控該操控電路順 序和放樣標記作動者。 、Line or direct connection & laser field measurement Han shows the distance by the screen; a control circuit, according to the horizontal and slope automatic adjustment mechanism, base point laser and laser light ranging structure and other settings corresponding to the product Body ς ; ; ; ; ; ; ; ; ; ; ; ; ; ; ; ; ; ; ; ; ; ; ; ; ; ; ; ; ; ; ; ; ; ; ; ; ; ; ; ; ; ; ; ; ; ; ; ; ; ; ; ; ; ; ; ; ; ; ; ; ; ; ; ; ; ; ; ; ; ; ; ; ; ; ; ,
100年9月7曰修正替換 準點者; 兹就所附諸圖式配合下列說明,將本創作可行的 實施例進一步說明而得以具體明晰之。 【實施方式】 參閱第1〜6圖所示’本創作主要係包括:一座體 ^) ’ 一水平和坡度自動調整機構(2),一基點雷射光 克(3),一雷射光測距構造(4),一標測物件(5),一操 控電路(6),一手動操作構造(7), —遙控裝置(8)等部 h所構成者。 翏閱第2〜4圖所示,該座體(1)基座(11;)底部等 5 M417538 ____ 100年9月7日修正替換 伤设置二微調支腳(111 ),内部樞設一微調環盤(1 2 )。 該微調環盤(12)外周緣面固設一蝸齒輪(121)嚙合樞 置於該基座(11)上對應樞設的蝸桿(122),並延伸出二 Μ 5周紐(123)於該基座(11)外,並於該微調環盤(12)的 内周緣面底部等份的挖設四個定位凹孔(124)(該四個 ' 定位凹孔(丨24)位置是呈精準的90度對稱角度設置, . 但亦可細分為大於4個以上之等份角度),各該定位凹 ' 孔(124)底面各設置一感測桿(125)。 春 該微調環盤(12)内周緣面頂部樞連一旋轉環座 (13),該旋轉環座(13)頂面連設一凸環盤(131)位於該 基座(11)上方適當間距。該旋轉環座(13)近底緣面等 份的設置四支插銷(丨32)對合該微調環盤(丨2)四個定 位凹孔(124),能操作的伸縮該四支插銷(132)伸出扣 &且各壓觸邊感測桿(125),或縮退解扣和離開該各感 測桿(125)。 • 該旋轉環座(13)内周緣面頂部固設一内齒輪(133) ' 嚙合固設在該基座(11)上的減速馬達(14)驅轉的小齒 輪(141)傳動旋轉。該凸環盤(131)頂面套置一筒殼(15) 包容該水平和坡度自動調整機構(2)、基點雷射光器 • (3)、雷射光測距構造(4)、操控電路(6)等各組件,及 設置動力電源容室(丨6)。 該水平和坡度自動調整機構(2)支持座(21)對稱 的固設在該座體(1)旋轉環座(13)頂面’其校準台(2幻 設置一水平斜度檢測器(23)(該水平斜度檢測器(23) 6 M417538 100年9月7日修正替換 可為傳統的氣泡式或數位化的水平斜度檢知構成),由 二支柱(24)對稱等份的樞連在該支持座(2丨)上,且可 由該水平斜度檢測器(23)感測操控動力器(25)(該動 力器(25)可使用步進或伺服馬達之裝置)驅動該各支 柱(24)昇降的自動調整該校準台(22)的水平度。 一基點雷射光器(3)固置在該水平和坡度自動調 整機構(2)的校準台(22)中心點,其雷射光線(31)通過 該水平和坡度自動調整機構(2)支持座(21)中心穿孔 (211)及該座體(丨)基座(11)窗孔(112)向下顯射於外。 該雷射光測距構造(4)固置於該水平和坡度自動 調整機構⑴校準台(22),其雷射光投射器⑷)的雷射 光線是正交該基點雷射光器⑶的雷射光線,及一反射 光集收器(4 2)和該雷射光投器⑷)的雷射光線呈預定 角度。又置,且於該筒殼(丨5)對應位置穿設有窗口 (151)。 、苓閱第6圖所示’該標測物件(5)設置一反射板(51) 為反射忒雷射光測距構造雷射光投射器(4丨)顯射 =雷射光線(411)給該反射W收器(42)接收,或設置 一雷射光集收器(52)直接的接收該雷射光投射器(41) 的雷射光點(412 )。 ▲该操控電路(6)依該旋轉環座(13)、水平和坡度自 動^正機構⑵、基點雷射光器⑶和雷射光測距構造 ⑷等的順序操作和運動,於該旋轉環座(13)上設置其 相對應的㈣電路⑹)’錢置―接收器⑽)接受該 Μ,417538 100年9月7日修正替換 遙控裝置⑻操作各組件作動的信號。該' ⑺對應該各組件預定操作的作業程序設置—手= 和一距離顯示營幕(72)於該筒殼(15)上' 月匕手動刼控該操控電路(6)順序動作。 該遙控裝置(8)設置按鍵 (82),能發射信號遙控該操控電 件。Correction and replacement of the punctuality on September 7th, 100th; The following descriptions are attached to the accompanying drawings to further clarify the embodiments of the present invention. [Embodiment] Referring to Figures 1 to 6, 'this creation mainly includes: a body ^) 'A horizontal and slope automatic adjustment mechanism (2), a base point laser light (3), a laser light ranging structure (4) A test object (5), a control circuit (6), a manual operation structure (7), a remote control device (8) and the like. Referring to Figures 2 to 4, the base (1) base (11;) bottom, etc. 5 M417538 ____ September 7, 100 correction replacement injury set two fine-tuning feet (111), internal pivoting a fine-tuning Ring plate (1 2 ). A worm gear (121) is fixed on the outer peripheral surface of the fine adjustment ring (12) to engage a correspondingly disposed worm (122) pivoted on the base (11), and extends two to five weeks (123) Outside the base (11), four positioning recessed holes (124) are equally divided in the bottom of the inner peripheral surface of the fine adjustment ring (12) (the positions of the four 'positioning recessed holes (丨24) are The precise 90 degree symmetry angle setting, but can also be subdivided into more than 4 equal angles, each of which is provided with a sensing rod (125) on the bottom surface of each of the positioning recesses (124). In the spring, the top of the inner peripheral surface of the fine-tuning ring disk (12) is pivotally connected to a rotating ring seat (13), and a top ring surface of the rotating ring seat (13) is connected with a convex ring disk (131) at an appropriate spacing above the base (11). . The rotating ring base (13) is provided with four pins (丨32) in the same portion of the bottom edge of the bottom ring to match the four positioning recessed holes (124) of the fine adjustment ring disk (丨2), and the four pins can be operated and retracted ( 132) Extending the buckle & and each pressure-touching sensing rod (125), or retracting and disengaging the sensing rods (125). • An internal gear (133) is fixed to the top of the inner peripheral surface of the rotating ring seat (13). The small gear (141) driven by the reduction motor (14) fixed to the base (11) is driven to rotate. The top surface of the convex ring disk (131) is sleeved with a casing (15) for containing the horizontal and slope automatic adjusting mechanism (2), the base point laser device (3), the laser light ranging structure (4), and the control circuit ( 6) Wait for each component and set the power supply room (丨6). The horizontal and slope automatic adjustment mechanism (2) supports the seat (21) symmetrically fixed on the seat body (1) the top surface of the rotating ring seat (13) 'the calibration table (2 magic setting a horizontal slope detector (23) (The horizontal slope detector (23) 6 M417538 September 7th, 100th correction replacement can be constructed for the traditional bubble or digital horizontal slope detection), by the two pillars (24) symmetric unequal pivot Connected to the support (2丨), and the horizontal tilt detector (23) can be used to sense the control of the power unit (25) (the power unit (25) can be driven by a stepper or servo motor) The struts (24) are automatically adjusted to adjust the level of the calibration table (22). A base point laser illuminator (3) is fixed at the center point of the calibration table (22) of the horizontal and slope automatic adjustment mechanism (2) The ray (31) passes through the horizontal and slope automatic adjustment mechanism (2), the support (21) center through hole (211) and the base (11) pedestal (11) window (112) are exposed downward. The laser light ranging structure (4) is fixed to the horizontal and slope automatic adjustment mechanism (1) calibration table (22), and the laser of the laser projector (4) The light is a laser beam that is orthogonal to the base point laser (3), and a laser beam of a reflected light collector (42) and the laser light projector (4) is at a predetermined angle. Further, a window (151) is placed at a corresponding position of the casing (丨5). Referring to Figure 6, the measuring object (5) is provided with a reflecting plate (51) for the reflected 忒 laser light ranging structure, the laser projector (4 丨), the projection = the laser beam (411) The reflective W receiver (42) receives or sets a laser light collector (52) to directly receive the laser spot (412) of the laser light projector (41). ▲ The control circuit (6) operates and moves in sequence according to the rotating ring seat (13), the horizontal and slope automatic positive mechanism (2), the base point laser lighter (3), and the laser light ranging structure (4), etc., in the rotating ring seat ( 13) Set the corresponding (four) circuit (6)) 'money set-receiver (10)) to accept the Μ, 417538 September 7, 100 modified the replacement remote control device (8) to operate the components to act. The '(7) setting of the operating program corresponding to the predetermined operation of each component - hand = and a distance display camp (72) on the casing (15) manually control the control circuit (6) in sequence. The remote control device (8) is provided with a button (82) that can transmit a signal to remotely control the control device.
組(81)及數位化螢幕 路(6)順序的操作各組 使用本創作時,可放置於腳架或其他架體上(參閱 弟5圖所示),因應放置狀況可將該三微調支腳⑴” 先行微調近似水平’於開機後(可由該遙控裝置⑻的 按鍵組(81)或設置於該筒殼(15)上的手動操作鍵盤 (71)操作),該水平和坡度自動調整機構(幻的水平斜 度^測器⑽即先自動檢知水平狀態,分別操作各動 力器(25)昇降對應的支柱(24),將該校準台(22)運動 呈精準的水平度,而連動該基點雷射光器(3)和該雷射 光測距構造(4)亦呈精準的垂直和水平狀態後,將該基 點雷射光器(3)雷射光線(31)的雷射光點(Μ丨)對準起 造基點定位,再顯射該雷射光測距構造(4)雷射光投射 器(41)的雷射光線(411)投射於預定位置上量距和刻 記,亦可操控該各動力器(25)使該校準台(22)呈正或 負角度的預定坡度顯射該雷射光測距構造(4)雷射光 投射器(41)的雷射光線(411)。 若該雷射光測距構造(4)的雷射光投射器(41)投 射於預定位置上的位置稍有偏移,則可由該遙控裝置 M417538 100年9月7曰修正替換 按鍵、·且(81)或筒殼(⑸上設置的手動操作鍵盤⑺) :乍’旋轉該旋轉環座⑽方位連動該雷射光測距構 乂(4)雷射光線(411)對準預定的量測位置。 右仍有些Μ的誤差,可轉動該微調鈕(123)精確的 目視f準,並於對準量測後欲90角度的方位變換另一 ^位置測和刻記時’可操控該旋轉環座(13)旋轉(參閱 =5 _線所示,度角的方位變換再測量是一般建 二或至内I 最常使用)’且自動的先將該旋轉環座 各插銷(132)縮退出該微調環盤(12)各定位凹孔 ⑴4)解扣後’即由減速馬達(⑷傳動小齒輪⑽)連 座⑽旋轉’並於旋轉後解除該各插銷 (132)的縮退操作而彈性的伸出;當該各插銷⑽)旋 動再次扣人該各定位凹孔⑽)時,觸壓到該各定位凹 = (124)㈣“桿(125),即傳遞縣信i給該操控 电路⑻的積體電路(61)操控停止該減速馬達(⑷的 ,動’使另-接續方位的㈣,能以精準的⑽度方位 變換檢出量距和刻上記號。 4、剔π右便用於同一向位的多點測距時(參閱第6 圖假想線所示),該標測物件⑸放在預定量測的位置 附近,由該標測物件⑸内設置的反射板⑸)或 集收器⑽錢的接㈣雷射_距構造⑷ 投射器⑷)投射的f射光點(412)量測距離,且 控裝置⑻數位化螢幕⑽或該手動操作構 = 離顯示螢幕⑽顯示數值,可—人操作的快速直接將巨 M417538 100年9月7日修正替換 該標測物件(5)移至準確位 --- ^ kA- ^ 使免除5玄雷射光測距構 ^ ^投射器(41)雷射光點(412)對準該反射光 集收器(42)的反射备谇奸从i 干/汉射先 夂射角度刼作和縮短挪移的時間, 在現測位置立即顯目?s絲 罢⑴值;而於刻記和儲存入該 l工二θ、内的計异程式後,再移動該標測物件(5) ^預疋里測的第二位置,操作該遙控裝置⑻預定的功 能按鍵即能顯示所需的距離數值(例如:歸零和累加方The operation of the group (81) and the digital screen (6) sequence can be placed on the tripod or other frame when using this creation (see the figure shown in Figure 5), and the three fine adjustments can be made according to the placement conditions. The foot (1)" first fine-tunes the approximate level' after the power-on (can be operated by the button group (81) of the remote control device (8) or the manual operation keyboard (71) provided on the casing (15)), the horizontal and slope automatic adjustment mechanism (The phantom horizontal slope detector (10) automatically detects the horizontal state first, respectively operates the corresponding pillars (24) of each power generator (25), and moves the calibration table (22) to a precise level, and linkage The base point laser (3) and the laser light ranging structure (4) are also in a precise vertical and horizontal state, and the base spot laser (3) laser light (31) laser spot (Μ丨) Aligning with the origin of the base point, and then projecting the laser light ranging structure (4) the laser beam (411) of the laser projector (41) is projected at a predetermined position for measurement and engraving, and can also be manipulated. The power unit (25) causes the calibration table (22) to exhibit the laser light at a predetermined gradient of positive or negative angle Ranging structure (4) Laser light (411) of the laser light projector (41). If the laser light projector (41) of the laser light ranging structure (4) is projected at a predetermined position, the position is slightly offset. Then, the remote control device M417538 can be replaced by the replacement button, and (81) or the cartridge (the manual operation keyboard (7) provided on the (5)): 乍 'rotate the rotation ring seat (10) to link the laser light The configuration of the (4) laser beam (411) is aligned with the predetermined measurement position. There is still some flaw in the right, and the fine adjustment knob (123) can be rotated to accurately determine the visual appearance, and after the alignment measurement, 90 The azimuth transformation of the angle is another position measurement and engraving. 'The rotation of the rotation ring seat (13) can be manipulated (see the =5 _ line, the azimuth transformation of the angle angle is re-measured to be the general second or the inner I. Using] and automatically retracting the respective rotation pins (132) of the rotary ring seat from the positioning holes (1) 4 of the fine adjustment ring disk (12) after unscrewing, that is, the speed reduction motor ((4) transmission pinion (10)) is rotated (10) 'And after the rotation, the retracting operation of the latches (132) is released and elastically extended; when the latches (10) are rotated When the positioning recessed holes (10) are again buckled, the positioning recesses are touched to the positioning recesses = (124) (4) "rods (125), that is, the transmission of the county letter i to the control circuit (8) of the integrated circuit (61) is stopped. The deceleration motor ((4), move 'make another-continuous orientation (four), can detect the distance and mark with a precise (10) degree azimuth. 4. Tick π right for multi-point ranging in the same position (refer to the imaginary line in Fig. 6), the mapping object (5) is placed near the predetermined measurement position, the reflection plate (5) provided in the measurement object (5) or the collector (4) money (four) laser _ from the structure (4) projector (4)) projected f-light spot (412) to measure the distance, and the control device (8) digital display screen (10) or the manual operation structure = display screen (10) display value, can be - human operation of the rapid direct will be huge M417538 On September 7th, 100th, the replacement of the test object (5) was moved to the exact position --- ^ kA- ^ to make the 5 Xuan Lei shooting rangefinder ^41 projector (41) laser spot (412) pair The reflection of the reflected light collector (42) is prepared from the i-dry/Han-ray first-shot angle and shortens the time of the shift. Set it immediately? s (1) value; and after engraving and storing the calculation program in the work, the movement object (5) is moved to the second position, and the remote control device (8) is operated. The predetermined function button can display the required distance value (for example: zero and accumulate
式的逐&或分段収),而能任意的在不同_位置取 得間距數值;或不同方位的多點測距時(參閱第6圖虛 線所於標測物件⑸的預定位置量測後,再移動 方位到第:量測位置,可依該遙控裝置⑻顯示斜邊和 短邊的數值挪移到準確位置(即依據該雷射光測距構 造(4)内含的畢氐定理量測功能),而能任意角度方位 取得距離數值。For the range of the position of the object (5) And then move the azimuth to the first: measuring position, according to the remote control device (8), the values of the hypotenuse and the short side are displayed to be moved to the exact position (ie, according to the measurement function of the Bis' theorem contained in the laser light ranging structure (4) ), and the distance value can be obtained at any angular orientation.
本創作另一實施例(參閱第7、8圖所示)係於該水 平和坡度自動調整構造(2)上增設一組以上的經緯線 顯射構造(3a),使該經緯線顯射構造(3a)含有的各水 平光射、’泉為(31 a)水平雷射光線(32a)和垂直光射線器 (33a)的垂直雷射光線(34a)通過該座體(ia)筒殼(15a) 對應穿設的窗口( 151a)顯射,且該各垂直光射線器 (33a)係以該基點雷射光器(3)雷射光線(31)為中心, 才月準的分置於90度角位置,而其垂直雷射光線(34a) 是和该基點雷射光器(3)的雷射光線(31)是同軸線的 投影登合’及該各水平光射線器(31a)水平雷射光線 10 M417538 % 100年9月7日修正替換 (32a)是平行於該雷射光測距構造(4)雷射光投射器 (41)雷射光線(411 ),並使該雷射光測距構造(4)雷射 光投射器(41)的雷射光點(412 )和一垂直光射線哭 (3 2a)的垂直雷射光線(34a)疊合。(參閱第9圖所示) 綜合所陳’本創作依上述之構成、功能及各項目 的之敘述’較之習用者更趨完善、實用,且具有進步 性’己足資証明本創作之構造裝置新穎、實用、簡單, 既能增進功效,以進一步的提昇實用功效,從而充分 利用自動校準光射線測距裝置精確的顯射水平度和坡 度’及配合經緯線水平垂直之光射線方位的變換效 能,能達到以雷射光同一或不同方位精準的逐段和分 段距離量測功能,又未曾有相同或類似特徵之物品 於國内外刊物或公開使用’實已符合專利之要件 惟本創作為說明方便所揭露的各構組件的機 【圖式簡單說明】Another embodiment of the present invention (see FIGS. 7 and 8) is to add more than one set of latitude and longitude ray-exposed structures (3a) to the horizontal and slope automatic adjustment structure (2) to make the latitude and longitude line projection structure (3a) The horizontal laser light (34a) contained in each horizontal light, 'spring (31 a) horizontal laser light (32a) and vertical light ray device (33a) passes through the seat (ia) shell ( 15a) The corresponding window (151a) is exposed, and the vertical light rayers (33a) are centered on the base laser (3) laser light (31), and the minute is placed at 90 Angle position, and its vertical laser beam (34a) is the projection of the coaxial line with the laser beam (31) of the base point laser (3)' and the horizontal light ray (31a) horizontal thunder Ray ray 10 M417538 % September 7th, 100th correction replacement (32a) is parallel to the laser light ranging structure (4) laser light projector (41) laser light (411), and the laser light ranging structure (4) The laser spot (412) of the laser projector (41) is superimposed with a vertical laser beam (34a) of a vertical beam of light (32A). (Refer to Figure 9) The book's description of the composition, function and purpose of the above is more perfect, practical, and progressive than the applicator. The device is novel, practical and simple, which not only enhances the efficiency, but also further enhances the practical effect, so as to make full use of the accurate level and slope of the automatic calibration light ray distance measuring device and the transformation of the horizontal and vertical light ray directions with the latitude and longitude lines. Efficacy, which can achieve the segment-by-segment and segment distance measurement functions with the same or different orientations of the laser light, and the articles with the same or similar features have not been published in domestic and foreign publications or publicly used. The machine that facilitates the disclosed components [simplified description]
二配置、數量和整體效用之精神及範疇,可作均等 之變更與轉換’亦應視為本創作相同的表現範鳴。、 I方向的剖面示意圖。 Π方向的剖面示意圖。 一使用示意圖。 另一使用示意圖。 另一實施例的外觀示意圖。 施例的組合剖示圖。 施例的使用示意圖。 M417538 100年9月7日修正替換The spirit and scope of the second configuration, quantity and overall utility, which can be changed and transformed equally, should also be regarded as the same performance of the creation. Schematic diagram of the I direction. Schematic diagram of the Π direction. A schematic diagram is used. Another use diagram. A schematic view of the appearance of another embodiment. A combined sectional view of the embodiment. Schematic diagram of the use of the example. M417538 revised replacement on September 7, 100
【主要元件符號說明】 〔本創作〕 (1) …座體 (111)···微調支腳 (12) …微調環盤 (122)…蝸桿 (124)…定位凹孔 (13) ···旋轉環座 (132)…插銷 (14) …減速馬達 (15) …筒殼 (16) ···動力電源容室 (2) …水平和坡度自動調整機構 (211) · · ·中心穿孔 (23)···水平斜度檢測器 (25)…動力器 (3) …基點雷射光器 (311)···雷射光點 (4) …雷射光測距構造 (411)…雷射光線 (42)···反射光集收器 (5) …標測物件 (52)…雷射光集收器 (6) …操控電路 (62)···接收器 (7) …手動操作構造 (72)…距離顯示螢幕 (8) …遙控裝置 (11)…基座 (112)···窗孔 (121)···蝸齒輪 (123)···微調鈕 (125)···感測桿 (131)···凸環盤 (133)···内齒輪 (141)···小齒輪 (151)…窗口 (21) …支持座 (22) ···校準台 (24)…支柱 (31)…雷射光線 (41)…雷射光投射器 (412)···雷射光點 (51)···反射板 (61)…積體電路 (71)…手動操作鍵盤 (81)…按鍵組 M417538 100年9月7日修正替換 (82)…數位化營幕 〔本創作其他實施例〕 (la)…座體 (151a)…窗口 (3a)…經緯線顯射構造 (32a)…水平雷射光線 (34a)…垂直雷射光線 (15a)···筒殼 (31a)···水平光射線器 (33a)···垂直光射線器[Description of main component symbols] [This creation] (1) ... Seat (111)··· Fine-tuning feet (12) ... Fine-tuning ring disk (122)... Worm (124)... Positioning hole (13) ··· Rotating ring seat (132)...Latch (14) ...Deceleration motor (15) ...Casing case (16) ··· Power supply room (2) ...Horizontal and slope automatic adjustment mechanism (211) · · · Center perforation (23 )···Horizontal slope detector (25)...Powerplant (3)...Base point laser (311)···Laser spot (4) ...Laser light ranging structure (411)...Laser light (42 )···Reflective light collector (5) ... mapping object (52)... laser light collector (6) ... control circuit (62) · receiver (7) ... manual operation structure (72)... Distance display screen (8) ... remote control device (11)... pedestal (112) · window (121) · worm gear (123) · · · fine-tuning button (125) · · · sensing rod (131 )··· convex ring disk (133)···internal gear (141)···pinion gear (151)...window (21) ...support base (22) ···calibration table (24)...pillar (31) ...laser light (41)...laser light projector (412)···laser spot (51)···reflector (61)...integrated circuit (71)...manual Operation keyboard (81)... button group M417538 September 7th, 100th revision replacement (82)... digitalization camp [other embodiments of this creation] (la)... seat (151a)... window (3a)... latitude and longitude display Shooting structure (32a)...horizontal laser light (34a)...vertical laser beam (15a)···cylinder shell (31a)···horizontal light ray device (33a)···vertical light ray