M317562 7v、新型說明: 【新型所屬之技術領域】 本創作係關於一種可以確實的調整水平檯基準面的 水平度精準支撐機構者;尤指,該水平檯以球體支撐連結 的基座腳勿論放置在預設範圍内的任何角度的承載面 上,&可以精準的調整水平檯基準面水平度的操作,提供 更確貫簡捷的運動操控作業者。 【先前技術】 • 〜傳統的水平角度的檯板面係為放置不同類型的測量 儀器搜取其他關連工程所需的資料之使用,其調整在早期 係由人工校準水平度後放置測量儀器於纟平檯板面上進 订作業’然人工校準作冑,常有人為目視及手動的誤差, =數位化的演進,但其水平準度㈣支撐放置各類型測 里儀益的水平檯機構不儘完善,於調整移動水平檯基準面 :方㈣作時發生樞持料實,使㈣後的水平度和水平 • 袪測态的感測精度值有誤差而現其缺失。 本案創作人有鑑於此, 驗,終而揭示出本創作一種 【新型内容】 仍詳加研究改進,幾經實作試 水平檯之水平調整機構。 本創作之主要目的係在於提水 整機構,以水平檢知杜* 厂十杈之水千凋 使放署絲荆 精歧合確實_持機構, 置各❹的水平檯板基準 值化操控的狀況作孝,皆能于動4數 水平精度者。 “確_整水平檯板基準面的 M317562 本創作之次要目的係在於提供一種水平檯之水平調 整機構,錢置各㈣測量儀㈣水平檯板基準面調整水 ㈣’能全方位的確實且财的抓持,而不會有習用者不 確實的樞持構造致形成調整後的誤差者。 本創作之另-目的係在於提供—種水平檯之水平調 合的㈣構成’使水平檯板基準面在水 動的各種角度方位變化中,都能保持各個作動件 二的a合而沒有間隙虛動聽件互相干涉的現象,以避 實^檢知的水平精度和調整後的水平度發生誤差者。 本創作的技術方案是·· 一種水平檯之水平調整機構,係包括·· 基座,其座板底面對稱的固設數支腳者; 於1支柱、、且’其固定支柱和二活動支柱等份對稱的設置 於该基座的座板頂面者; 口摊檯板,對應_支柱組各支柱的位置各挖設一開 部,9各叹置一連桿球體體滑合樞接該支柱組各支柱頂 及於其基準面上設置一水平檢知器者; ^ —傳動組,其二傳動螺桿樞設於該基座的座板上旋接 桎組二活動支柱底部,操作的昇降該水平檯板基準面 付5水平檢知器之水平精度者; 、茲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】 參閱第一〜三圖所示,本創作主要係於一基座(1)上 M317562 設置一支柱組(2),使該支柱組(2)連結樞撐一水平檯板 (3),而由一傳動組(4)連接該支柱組(2)操作該水平檯板 (3)。昇降,使依據設置於該水平檯板(3)基準面的一水平檢 头(31 ),操作该傳動組(4)作動該支柱組(?)調整該水平 檯板(3)基準面的符合該水平檢知器(31)的水平精度者。 该基座(1)的座板(11)底面對稱的固設數柱腳(12)支 持整體,而該支柱組(2)則是以一固定支柱(21)和二活動 支柱(22)、(23)對稱等份的設置在該基座(1)的座板(η) 頂面,使該各支柱(21)、(22)、(23)的頂部各穿設一孔道 (211)、(221)、(231)的中心線正對其中心點,及於該水 平檯板(3)對應該三支柱(21)、(22)、(23)對稱等份設置 的角度方位穿設三個開口槽(31)以遊置該各支柱(21)、 (22)、(23)的頂部。(如第一〜三圖所示) 該水平檯板(3)各開口槽(32)内緣面各挖設一深孔 (33)正合該三支柱(21)、(22)、(23)對稱等份設置的角度 方位的中心線上,各緊固的插置一連桿球體(34)的連桿端 (341),使該各連桿球體(34)的球體端(342)緊密的滑置於 該各支柱(21)、(22)、(23)頂部的孔道((211)、(221)、 (231)内,以滑動樞撐的連結呈可活動的一體。 該固定支柱(21)的底面係固連在該基座(1)的座板 (11)頂面上預定位置,而二活動支柱(22)、(23)底緣面中 心各挖設一螺孔(222)、(232)及偏心挖設一梢孔(223)、 (233),使該二梢孔(223)、(233)各滑套在該座板(11)頂 面對應固設的二定位梢(13),而該二活動支柱(22)、(23) M317562 •的螺孔(2 2 2)、( 2 3 2)螺接設置在該座板(11)上的該傳動組 -(4)傳動。 該傳動組(4)以二傳動螺桿(41)對應該支柱組(2)二 活動支柱(22)、(23)位置,樞設在該基座(1)的座板(n) 上螺接該二活動支柱(22)、(23)螺孔(222)、(232)(如第 三圖所示),使各伸設一螺桿柄(42)備供操作該二活動支 柱(22)、(23)昇或降該水平檯板(3),並依據該水平檯板 (3)基準面上設置的該水平檢知器(31)的預定水平精度, •微調該二活動支柱(22)、(23)昇或降。該水平檯板(3)和 該基座(1)的座板(11)上對應的適當位置各穿設一辅助穿 孔(35)、(14)供測量儀器垂直或其他相關功能之備件穿透 使用。 使用本創作時’將該基座(1)的柱腳(11)放置於儀器 欲檢測的面(FL)上,(如第四圖所示),即由該水平檢知器 (31)顯知該水平檯板(3)基準面於放置後的水平程度,即 鲁 了操作旋動该一螺桿柄(42)昇或降該二活動支柱(22)、 (23),由該各連桿球體(34)的球體端(342)在該各支柱 (21)、(22)、(23)的孔道(211)、(221)、(231)内自行樞 動調整其支撐的角度和位置,直至該水平檢知器(31)達到 預定水平精度後,即可停止供測量儀器放置使用(該水平 松知杰(31)可為傳統的氣泡式構成或數位化的水平器)。 、本創作亦可使用一控制裝置(5)的二減速動力器(51) 連結該傳動組(4)二傳動螺桿(41)的螺桿柄(42)可自動或 手動的操控旋動(如各圖的假想線所繪示者),以昇或降該 M317562 支柱組(2)的二活動支柱(22)、(23)連動該水平檯板(3), 使設置該水平檯(3)基準面上的該水平檢知器(31)檢知其 水平程度的數位信號,傳送該控制裝置(5)適當的操控該 一減速動力(51)昇或降該水平檯板(3),使該水平檯板 的基準面符合該水平檢知器(31)預定的水平精度。 本創作該各支柱(21)、(22)、(23)和該水平檯板(3) 連結拖擇另一實施例(如第五圖所示)係於該支柱組(2a) 的各支柱(21a)、(22a)、(23a)頂部對應該連桿球體(34) 球體端(342)形狀挖設一球面底孔槽(2iia)、(221a)、 (231a),及各延設一喇 σ八口(21〇a)、(22〇a)、(23〇a)穿通, 並旋設一球形内面螺塞(2〇a)塞阻於該各孔槽(211a)、 (221a)、(231a) 口,使可樞動的夾持該連桿球體(34)的球 體端(342),而該各連桿端(341)則穿過該各喇队口 (210a)、(220a)、(230a)滑置於該水平檯板(3)開口槽(32) 内對應挖設的滑合孔道(33a),使該二活動支柱(22)、(23) 昇降操作時,樞持該連桿球體(34)球體端(342),而該連 桿端(341)為滑動的調整支撐該水平檯板(3a)方位。 本創作該各支柱(21)、(22)、(23)和該水平檯板(3) 連結樞撐又一實施例(如第六圖所示)係於該支柱組(2b) 的各支柱(21b)、(22b)、(23b)頂部設置一球面軸承 (34b),由一中心穿孔的螺塞(2〇b)堵住,一連桿支軸(341b) 一端固插在該水平檯板(3)開口槽(32)内對應挖設的深孔 (33)内,另端精密的滑穿過該球面軸承(34b)的軸孔 (342b),於該二活動支柱(22b)、(23b)昇降操作時,其該 M317562 連桿支軸(341b)隨著該水平檯板(3)移動,使滑移的樞動 •該球面軸承(34b)調整該水平檯板(3)水平度的方位。 练上所述,本案創作實施例所揭露之構造,其得發揮 以最精簡之構造,配合最簡捷容易之操作,促使調整^量 儀器水平檯最精準的水平面,並可獲致快速、穩固地定 位,而製造成本亦可大幅降低,尤其更具有適用範圍廣之 ,點,所以本創作之實用性已毋庸置疑;此外,本案創作 實施例所揭露之構造,申請前並未見諸刊物,亦未曾公開 使用,加之又具有如上功效增進之事實,是故,本創作之 新穎性及進步性又均已符合,麦依法提出新型專利之.申 請。 惟本案為說明方便所揭露之說明,實施例及圖式,僅 為本創作為便於說明所舉較佳之數實施例,#不能以此形 $、數量、位置限^本創作之實施範圍,凡熟習此項技蔽 者,依据以上說明及以下申請專利範圍所述之特徵: 各種變換與應用均應涵蓋於本創作之專利範圍。 【圖式簡單說明】 第一圖係本創作的外觀示意圖。 第二圖係本創作的俯視部份剖示圖。 第三圖係第二圖卜1方向的側視剖示圖。 第四圖係本創作的操作示意圖。 f五圖係本創作支撐機構的另—實施例剖示圖。 第六圖係本創作支撐機構的又-實施例剖示圖。 【主要元件符號說明】 M317562 (1) …基座 (13)…定位梢 (2) ···支柱組 (22)、(23)…活動支柱 (222)、(232)…螺孔 (12)···柱腳 (3) ···水平檯板 (33)···深孔 (342)···球體端 (4) ···傳動組 (5) ···控制裝置 (11)…座板 (14)…輔助穿孔 (21)…固定支柱 (211)、(221)、(231)···孔道 (223)、(233)…梢孔 (31)…水平檢知器 (34) …連桿球體 (35) …辅助穿孔 (41)…傳動螺桿 (51)…減速動力器 (32)…開口槽 (341)···連桿端 (42)…螺桿柄M317562 7v, new description: [New technical field] This creation is about a kind of accurate support mechanism that can adjust the horizontal plane of the water platform. Especially, the base of the water platform is supported by the ball. & can accurately adjust the level of the water platform datum level on the bearing surface at any angle within the preset range, providing a more accurate and simple motion control operator. [Prior Art] • The traditional horizontal angle of the platen surface is used to locate different types of measuring instruments to retrieve the data required for other related projects. The adjustment is made by manually calibrating the level after the measurement instrument is placed in the early stage. The job of ordering on the platform board is 'manually calibrated. It is often used for visual and manual errors, = digital evolution, but its level of accuracy (4) supports the placement of various types of water platform Perfect, adjust the reference surface of the mobile water platform: the square (4) is pivoted, so that the level and level after (4) are incorrect. In view of this, the creators of this case have revealed that a new type of creation is still subject to detailed research and improvement, and has been implemented as a level adjustment mechanism for the test platform. The main purpose of this creation is to raise the water and water level, to detect the level of the water in the Du* factory, and to make the stipulations of the water system. If you are filial, you can move 4 levels of accuracy. "Make surely _ the platform surface of the water platform plate M317562 The second purpose of this creation is to provide a horizontal adjustment mechanism for the water platform, money set each (four) measuring instrument (four) water platform plate reference surface adjustment water (four) 'can be comprehensive and The grasp of the wealth, without the unrealistic pivotal structure of the learner, leads to the adjustment of the error. The other purpose of this creation is to provide the horizontal integration of the water platform (IV) to make the water platform plate reference In the various angular orientation changes of the water movement, it is possible to maintain the phenomenon that each of the two actuators a is closed without the gap between the virtual and the audible components, so as to avoid the horizontal accuracy of the detection and the error of the adjusted level. The technical solution of the creation is a horizontal adjustment mechanism of the water platform, which includes a base, and a plurality of feet on the bottom surface of the seat plate are symmetrically fixed; 1 pillar, and 'the fixed pillar and the second activity The pillars are symmetrically disposed on the top surface of the base plate of the base; the mouth spreader plate, corresponding to each of the positions of the pillars of the pillar group, an opening portion is respectively arranged, and each of the nine slats is connected to the ball body and is pivoted and pivoted. The pillars of the pillar group And a level detecting device is disposed on the reference surface thereof; ^ - the transmission group, the second driving screw is pivoted on the seat plate of the base, and the bottom of the two movable pillars is screwed, and the water platform plate reference is operated and lowered. The level accuracy of the 5 level detector is paid; the following descriptions are attached to the following descriptions, and the embodiments of the present invention are further described and clarified. [Embodiment] Referring to the first to third figures The creation is mainly based on a pedestal (1) on which M317562 is provided with a pillar group (2), such that the pillar group (2) is connected to the pivoting water platform plate (3) and connected by a transmission group (4). The strut group (2) operates the water platform plate (3), and moves up to operate the transmission group (4) according to a horizontal inspection head (31) disposed on the reference surface of the water platform plate (3). (?) Adjusting the horizontal accuracy of the reference surface of the water platform plate (3) in accordance with the horizontal detector (31). The base plate (11) of the base (1) is symmetrically fixed with a plurality of legs (12) Supporting the whole, and the pillar group (2) is a fixed pillar (21) and two movable pillars (22), (23) An aliquot is disposed on a top surface of the seat plate (n) of the base (1), and a hole (211), (221) is disposed on each of the tops of the pillars (21), (22), and (23). The center line of (231) is provided with three open slots for its center point and the angular orientation of the water platform plate (3) corresponding to the symmetrical portions of the three pillars (21), (22), and (23) ( 31) to swim the tops of the pillars (21), (22), (23). (As shown in the first to third figures) The inner edge surfaces of the open slots (32) of the water platform plate (3) are each dug. A deep hole (33) is disposed on the center line of the angular orientation provided by the three pillars (21), (22), and (23) symmetrically, and each of the fastening rods of the connecting rod sphere (34) is inserted The end (341) causes the ball ends (342) of the respective link balls (34) to closely slide on the holes at the top of the legs (21), (22), and (23) ((211), (221) In (231), the connection with the sliding pivot is a movable integral. The bottom surface of the fixed pillar (21) is fixedly attached to a predetermined position on the top surface of the seat plate (11) of the base (1), and a snail is respectively arranged at the center of the bottom edge of the two movable pillars (22) and (23). Holes (222), (232) and eccentrically excavate a tip hole (223), (233), so that the sliding holes of the two tip holes (223) and (233) are correspondingly fixed on the top surface of the seat plate (11) Two positioning tips (13), and the two movable legs (22), (23) M317562 • screw holes (2 2 2), (23 2 2) are screwed to the transmission plate (11) Group - (4) transmission. The transmission set (4) is pivotally connected to the seat plate (n) of the base (1) by two transmission screws (41) corresponding to the positions of the two movable legs (22) and (23) of the column set (2). The two movable pillars (22) and (23) screw holes (222) and (232) (as shown in the third figure) are provided with a screw handle (42) for operating the two movable pillars (22), (23) raising or lowering the water platform plate (3), and according to the predetermined horizontal precision of the horizontal detector (31) provided on the reference surface of the water platform plate (3), fine-tuning the two movable pillars (22) (23) rise or fall. The auxiliary platform (35) and (14) are respectively disposed at corresponding positions on the water platform plate (3) and the seat plate (11) of the base (1) for spare parts of the measuring instrument vertical or other related functions. Through use. When using this creation, 'put the column foot (11) of the base (1) on the surface (FL) to be detected by the instrument (as shown in the fourth figure), that is, the level detector (31) Knowing the level of the reference surface of the water platform plate (3) after being placed, that is, rotating the screw handle (42) to raise or lower the two movable pillars (22), (23), by the respective connecting rods The spherical end (342) of the sphere (34) pivots itself to adjust the angle and position of the support in the holes (211), (221), and (231) of the pillars (21), (22), and (23). Until the level detector (31) reaches a predetermined level of accuracy, the measurement instrument can be stopped for use (the level Song Zhijie (31) can be a conventional bubble type or digital leveler). The creation can also use a two-reduction power unit (51) of a control device (5) to connect the transmission set (4). The screw handle (42) of the two drive screws (41) can be rotated automatically or manually (eg each The imaginary line of the figure is shown), in order to raise or lower the two movable pillars (22) and (23) of the M317562 pillar group (2), the water platform plate (3) is linked to set the water platform (3) reference. The horizontal detector (31) on the surface detects the digital signal of the horizontal level, and transmits the control device (5) to appropriately control the decelerating power (51) to raise or lower the water platform plate (3), so that the The reference surface of the water platform plate conforms to the predetermined horizontal accuracy of the level detector (31). In this creation, the pillars (21), (22), (23) and the water platform plate (3) are linked and dragged to another embodiment (as shown in the fifth figure) to be attached to the pillars of the pillar group (2a). (21a), (22a), (23a) top corresponding to the ball body (34) ball end (342) shape to dig a spherical bottom hole (2iia), (221a), (231a), and each extension Σσ八口(21〇a), (22〇a), (23〇a) are pierced, and a spherical inner surface screw plug (2〇a) is screwed into the holes (211a), (221a) And (231a), the ball end (342) of the link ball (34) is pivotally clamped, and the respective link ends (341) pass through the respective port openings (210a), (220a) And (230a) slidingly disposed in the opening groove (32) of the water platform plate (3) corresponding to the sliding hole (33a), so that the two movable pillars (22), (23) are lifted and operated, pivoted The link ball (34) has a ball end (342) and the link end (341) supports the water platform plate (3a) orientation for sliding adjustment. In this creation, each of the pillars (21), (22), (23) and the water platform plate (3) is connected to the pivotal support. Another embodiment (as shown in the sixth figure) is attached to each pillar of the pillar group (2b). (21b), (22b), (23b) is provided with a spherical bearing (34b) at the top, which is blocked by a central perforated screw plug (2〇b), and one end of the connecting rod support shaft (341b) is fixed on the water platform. In the open hole (33) of the plate (3) opening groove (32) corresponding to the digging, the other end is precisely slid through the shaft hole (342b) of the spherical bearing (34b), and the two movable pillars (22b), (23b) During the lifting operation, the M317562 connecting rod support shaft (341b) moves with the water platform plate (3) to make the sliding pivoting. The spherical bearing (34b) adjusts the water platform plate (3) level. Degree of orientation. As described above, the structure disclosed in the creation example of the present case can be utilized in the most streamlined structure, with the simplest and simpler operation, and the adjustment of the water level of the instrument water platform can be adjusted to obtain the most accurate water level, and can be quickly and stably positioned. However, the manufacturing cost can be greatly reduced, especially the scope of application is wide, so the practicality of this creation is beyond doubt; in addition, the structure disclosed in the creation example of this case has not been seen before the application, nor has it ever been The public use, combined with the fact that the above effects are enhanced, is that the novelty and progressiveness of the creation have been met, and Mai applied for a new patent. However, the descriptions of the present invention are for illustrative purposes only, and the embodiments and drawings are merely preferred embodiments of the present invention for convenience of explanation. Those skilled in the art are entitled to the features described in the above description and the scope of the following claims: Various variations and applications are intended to cover the scope of the present invention. [Simple description of the diagram] The first diagram is a schematic diagram of the appearance of the creation. The second figure is a top cross-sectional view of the present creation. The third figure is a side cross-sectional view of the second figure in the 1 direction. The fourth picture is a schematic diagram of the operation of this creation. Figure 5 is a cross-sectional view of another embodiment of the present invention. The sixth drawing is a cross-sectional view of a further embodiment of the present creative support mechanism. [Description of main component symbols] M317562 (1) ... base (13)... positioning tip (2) ··· pillar group (22), (23)... movable pillar (222), (232)... screw hole (12) ···Column foot (3) ···Water platform plate (33)···Deep hole (342)···Sphere end (4) ···Transmission group (5) ···Control device (11)... Seat plate (14)...Auxiliary perforation (21)...fixed strut (211), (221), (231)···hole (223), (233)...tip hole (31)...level detector (34) ...link ball (35) ... auxiliary perforation (41)... drive screw (51)... deceleration power (32)...open slot (341)···link end (42)...screw handle