TWI745053B - Magnitude tester - Google Patents
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- TWI745053B TWI745053B TW109129353A TW109129353A TWI745053B TW I745053 B TWI745053 B TW I745053B TW 109129353 A TW109129353 A TW 109129353A TW 109129353 A TW109129353 A TW 109129353A TW I745053 B TWI745053 B TW I745053B
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Abstract
本發明係在提供一種稜鏡度測試儀,其光源元件及取像元件之間設有可調稜鏡座,該可調稜鏡座設置眼鏡元件,該可調稜鏡座設有眼距調整元件、眼高調整元件、傾斜調整元件及遮光調整元件,該可調稜鏡座之下方設有脫接部,該脫接部設有定位標示,該脫接部對應有結合部,該結合部設有對位標示,該可調稜鏡座之一側設有可調對位器,該可調對位器設有十字雷射元件、指針調光元件、上下調整元件及左右調整元件;如此,先以該十字雷射元件將該眼鏡元件準確對位,再將該可調稜鏡座旋轉面向該光源元件,並透過該取像元件作稜鏡度測試,達到精準客製化。 The present invention is to provide a measuring instrument for measuring the degree of light, the light source element and the image capturing element are provided with an adjustable lens holder, the adjustable lens holder is provided with glasses elements, and the adjustable lens holder is provided with eye distance adjustment Element, eye height adjustment element, tilt adjustment element, and shading adjustment element, the adjustable rim seat is provided with a disconnection part underneath, the disconnection part is provided with a positioning mark, the disconnection part corresponds to a joint part, and the joint part There is an alignment mark, and one side of the adjustable sill is equipped with an adjustable aligner, and the adjustable aligner is provided with a cross laser element, a pointer dimming element, an up-down adjustment element, and a left-right adjustment element; , First use the cross laser element to accurately align the glasses element, and then rotate the adjustable lens holder to face the light source element, and perform a fidelity test through the image capturing element to achieve precise customization.
Description
本發明係有關於一種稜鏡度測試儀,特別係在機台之光源元件及取像元件之間設有可調稜鏡座,該可調稜鏡座設置有眼鏡元件,該可調稜鏡座係設有眼距調整元件、眼高調整元件、傾斜調整元件及遮光調整元件,該可調稜鏡座之下方設有脫接部,該脫接部之上方設有定位標示,該脫接部對應有結合部,該結合部之上方設有對位標示,該可調稜鏡座之一側設有可調對位器,該可調對位器係設有十字雷射元件、指針調光元件、上下調整元件及左右調整元件;如此,先以該十字雷射元件之十字雷射光將該眼鏡元件準確對位後,再將該可調稜鏡座旋轉面向該光源元件,並透過該取像元件作稜鏡度測試,達到精準客製化。 The present invention relates to a measuring instrument for measuring the intensity, in particular, an adjustable lens holder is arranged between the light source element and the image capturing element of the machine, the adjustable lens holder is provided with spectacle elements, and the adjustable lens holder The seat system is equipped with eye distance adjustment elements, eye height adjustment elements, tilt adjustment elements and shading adjustment elements. The adjustable base is provided with a disconnection part underneath, and a positioning mark is arranged above the disconnection part. The disconnection There is a joint part corresponding to the joint part. The upper part of the joint part is provided with an alignment mark. One side of the adjustable base is provided with an adjustable positioner. The adjustable positioner is equipped with a cross laser element and a pointer adjustment. Optical element, up and down adjustment element and left and right adjustment element; in this way, first use the cross laser light of the cross laser element to accurately align the glasses element, and then rotate the adjustable beam holder to face the light source element and pass through the The imaging components are tested for jerkiness to achieve precise customization.
按,一般稜鏡度測試儀,僅在機台設有光源元件、標靶元件、待測眼鏡座及眼鏡元件,該光源元件係組設於該機台之一端,該標靶元件係組設於該機台之另一端,該待測眼鏡座係組設於該光源元件及該標靶元件之間,且位於該機台之中段處,該眼鏡元件係設置於該待測眼鏡座,而該標靶元件係可觀察光點位置與彼此間的距離,以計算出稜鏡度,但是該標靶元件與該待測眼鏡座相距兩公尺,測試人員必須來回走動紀錄,或以兩人操作方式進行,其中一人設置該眼鏡元件,另一人觀看並記錄,不僅耗時費力,人眼觀測也容易造成誤判,況且該待測眼鏡座無法轉向,更未能先以十字雷射光將該眼鏡元件準確對位,因此,會有操作誤差大、測試效率低及無法達到精準客製化之狀況;本發明人有鑑於習知存在有如上述之缺失,乃潛心研究改良,遂得以首創出本發明。 According to the general strength tester, only the light source element, the target element, the spectacle holder to be tested and the spectacle element are provided on the machine. The light source element is assembled at one end of the machine, and the target element is assembled At the other end of the machine, the spectacle holder to be tested is assembled between the light source element and the target element, and is located in the middle section of the machine, the spectacle element is set on the spectacle holder to be tested, and The target element can observe the position of the light spot and the distance between each other to calculate the fidelity. However, the target element and the spectacle holder to be tested are two meters away, and the tester must walk back and forth to record, or two people The operation method is carried out. One person sets the glasses element, and the other person watches and records. Not only is it time-consuming and laborious, but the human eye observation is also easy to cause misjudgment. Moreover, the spectacle holder under test cannot be turned, and it is not possible to first use the cross laser light to make the spectacles. The components are accurately aligned, so there will be large operating errors, low test efficiency, and the inability to achieve precise customization. In view of the above-mentioned deficiencies in the prior art, the inventors devoted themselves to research and improvement, and then the first invention was created. .
本發明之主要目的,係在提供一種先以該十字雷射元件之十字雷射光將該眼鏡元件準確對位後,再將該可調稜鏡座旋轉面向該光源元件,並透過該取像元件作稜鏡度測試,達到精準客製化之稜鏡度測試儀。 The main purpose of the present invention is to provide a method of accurately aligning the eyeglass elements with the cross laser light of the cross laser element, and then rotate the adjustable lens holder to face the light source element and pass through the image capturing element It can be used for precision test to achieve precise and customized precision tester.
本發明之稜鏡度測試儀,主要係在機台設有光源元件及取像元件;其特徵係在:該光源元件及該取像元件之間設有可調稜鏡座,該可調稜鏡座之下方設有脫接部,該脫接部之上方設有定位標示,該脫接部對應有結合部,該結合部之上方設有對位標示,該可調稜鏡座之一側設有可調對位器。 The intensity tester of the present invention is mainly provided with a light source element and an image capturing element on the machine; it is characterized in that: an adjustable beam seat is arranged between the light source element and the image capturing element, and the adjustable edge The lower part of the lens holder is provided with a disconnection part, the upper part of the disconnection part is provided with a positioning mark, the disconnection part corresponds to a joint part, and the upper part of the joint part is provided with an alignment mark. Equipped with adjustable counterpoint.
本發明之稜鏡度測試儀,其中,該可調稜鏡座之脫接部係為圓形體,該脫接部對應之結合部係為圓形孔,該圓形孔設有固定元件,該固定元件係穿伸至該圓形孔抵持該脫接部,以將可左右旋轉之可調稜鏡座定位。 According to the present invention, the disengagement part of the adjustable disengagement seat is a circular body, and the joint corresponding to the disengagement part is a circular hole, and the circular hole is provided with a fixing element, The fixing element penetrates to the circular hole to resist the disconnection part, so as to position the adjustable shaft seat which can be rotated left and right.
本發明之稜鏡度測試儀,其中,該可調稜鏡座設置有眼鏡元件,該可調稜鏡座係設有眼距調整元件、眼高調整元件、傾斜調整元件及遮光調整元件。 In the measuring instrument of the present invention, the adjustable lens holder is provided with glasses elements, and the adjustable lens holder is provided with an eye distance adjustment element, an eye height adjustment element, a tilt adjustment element and a shading adjustment element.
本發明之稜鏡度測試儀,其中,該可調對位器係設有十字雷射元件、指針調光元件、上下調整元件及左右調整元件。 In the fidelity tester of the present invention, the adjustable aligner is provided with a cross laser element, a pointer dimming element, an up-down adjustment element and a left-right adjustment element.
本發明之稜鏡度測試儀,其優點係在:可先以該十字雷射元件之十字雷射光將該眼鏡元件準確對位,且該上下調整元件及該左右調整元件可配合調整至適當之對位位置,再將該可調稜鏡座旋轉面向該光源元件,並透過該取像元件作稜鏡度測試,過程中藉由該可調稜鏡座之眼距調整元件、眼高調整元件、傾斜調整元件及遮光調整元件,可調整所測試之使用者之眼距寬度(PD:Pupillary Distance瞳孔距離)、眼位高度、耳高傾斜角度及遮光位置,同時藉由調整該可調對位器之指針調光元件,使十字雷射光呈現出不同角度的傾斜光線, 方便該可調稜鏡座之傾斜調整元件調整至適當的耳高傾斜角度,達到精準客製化之稜鏡度測試,又具有操作誤差小及測試效率高。 The advantage of the jerk tester of the present invention is that the glasses element can be accurately aligned with the cross laser light of the cross laser element first, and the up and down adjustment elements and the left and right adjustment elements can be adjusted to be appropriate Align the position, and then rotate the adjustable beam to face the light source element, and test the beam through the image capturing element. In the process, the eye distance adjustment element and the eye height adjustment element of the adjustable beam are used. , Tilt adjustment element and shading adjustment element can adjust the width of the eye distance (PD: Pupillary Distance), eye height, ear height inclination angle and shading position of the tested user, and at the same time adjust the adjustable alignment The pointer dimming element of the device makes the cross laser light show different angles of oblique light, It is convenient for the tilt adjustment element of the adjustable ear height to be adjusted to the appropriate ear height tilt angle to achieve precise and customized ear height testing, with small operating errors and high test efficiency.
1:機台 1: Machine
2:光源元件 2: Light source components
3:取像元件 3: Take image components
4:可調稜鏡座 4: Adjustable seat
40:眼距調整元件 40: Eye distance adjustment element
41:眼高調整元件 41: Eye height adjustment element
42:傾斜調整元件 42: Tilt adjustment element
43:遮光調整元件 43: Shading adjustment element
44:脫接部 44: Disconnect part
45:定位標示 45: Positioning mark
46:結合部 46: Joint
47:固定元件 47: fixed element
48:對位標示 48: counterpoint mark
5:眼鏡元件 5: Glasses components
6:可調對位器 6: Adjustable counterpoint
60:十字雷射元件 60: Cross laser element
61:指針調光元件 61: pointer dimming element
62:上下調整元件 62: Up and down adjustment elements
63:左右調整元件 63: Left and right adjustment components
第一圖所示係為本發明實施例之立體分解圖。 The first figure shows a three-dimensional exploded view of an embodiment of the present invention.
第二圖所示係為本發明實施例之立體組合圖。 The second figure shows a three-dimensional assembly diagram of an embodiment of the present invention.
第三圖所示係為本發明實施例之使用示意圖(一)。 The third figure is a schematic diagram (1) of the use of the embodiment of the present invention.
第四圖所示係為本發明實施例之使用示意圖(二)。 The fourth figure shows a schematic diagram (2) of the use of the embodiment of the present invention.
第五圖所示係為本發明實施例之使用示意圖(三)。 The fifth figure is a schematic diagram (3) of the use of the embodiment of the present invention.
第六圖所示係為本發明實施例之使用示意圖(四)。 The sixth figure is a schematic diagram (4) of the use of the embodiment of the present invention.
第七圖所示係為本發明實施例之使用示意圖(五)。 The seventh figure is a schematic diagram (5) of the use of the embodiment of the present invention.
有關本發明為達上述之使用目的與功效,所採用之技術手段,茲舉出較佳可行之實施例,並配合圖式所示,詳述如下:本發明之實施例,請參閱第一圖所示,主要係在機台1設有光源元件2、取像元件3、可調稜鏡座4、眼鏡元件5及可調對位器6,該光源元件2係組設於該機台1之一端,該光源元件2之光源係為點狀或線狀之雷射光,該取像元件3係組設於該機台1之另一端,該取像元件3係以視覺模組取得標靶影像後,利用影像處理與辨識技術,自動判斷聚焦光點位置,並自動計算稜鏡度,該可調稜鏡座4係組設於該光源元件2及該取像元件3之間,且位於該機台1之中段處,該可調稜鏡座4係設有眼距調整元件40、眼高調整元件41、傾斜調整元件42及遮光調整元件43,該可調稜鏡座4係調整所測試之使用者之眼距寬度(PD:Pupillary Distance瞳孔距離)、眼位高度、耳高傾斜角度及遮光位置,該可調稜鏡座4之下方設有脫接部44,該脫接部44係為圓形體,該脫接部44之上方設有定位標示45
,該脫接部44對應有結合部46,該結合部46係為圓形孔,該圓形孔設有固定元件47,該固定元件47係穿伸至該圓形孔抵持該脫接部44,以將可左右旋轉之可調稜鏡座4定位,該結合部46之上方設有對位標示48,該眼鏡元件5係設置於該可調稜鏡座4,即位於該眼高調整元件41及該傾斜調整元件42之適當位置,該眼鏡元件5係為視力矯正眼鏡、安全眼鏡或太陽眼鏡等眼鏡,該眼鏡元件5之鏡片係為固定焦距鏡片或變焦距鏡片,該可調對位器6係組設於該可調稜鏡座4之一側,該可調對位器6係設有十字雷射元件60、指針調光元件61、上下調整元件62及左右調整元件63,該可調對位器6係以該十字雷射元件60之十字雷射光將該眼鏡元件5準確對位,而該指針調光元件61可調出所需光線,例如:十字雷射光呈現出不同角度的傾斜光線,且該上下調整元件62及該左右調整元件63可配合調整至適當之對位位置。
Regarding the technical means adopted by the present invention in order to achieve the above-mentioned purposes and effects, a preferred and feasible embodiment is presented, and shown in the drawings. The details are as follows: For the embodiment of the present invention, please refer to the first figure. As shown, the
組裝時,請參閱第一、二圖所示,首先將該光源元件2組設於該機台1之一端,再將該取像元件3組設於該機台1之另一端,然後將該可調稜鏡座4組設於該光源元件2及該取像元件3之間,且位於該機台1之中段處,該可調稜鏡座4之脫接部44則對應組設於該結合部46,而該固定元件47係穿伸至該圓形孔抵持該脫接部44,以將可左右旋轉之可調稜鏡座4定位,再將該眼鏡元件5設置於該可調稜鏡座4,即位於該眼高調整元件41及該傾斜調整元件42之適當位置,最後將該可調對位器6組設於該可調稜鏡座4之一側;如此,即可完成組裝。
When assembling, please refer to the first and second pictures. First, set the
使用時,請參閱第三~六圖所示,僅須將該可調稜鏡座4及該眼鏡元件5面向該可調對位器6,使該可調稜鏡座4之定位標示45對準該對位標示48,並先以該十字雷射元件60之十字雷射光將該眼鏡元件5準確對位,且該上下調整元件62及該左右調整元件63可配合調整至適當之對位位置,當該眼鏡元件5準確對位後,再將該可調稜鏡座4旋轉面向該光源元件2,使該可調稜鏡座4之定位標示45對準該對位標示48,再以該光源元件2之點狀或線狀雷射光通過該眼鏡元件5
,並透過該取像元件3作稜鏡度測試,過程中藉由該可調稜鏡座4之眼距調整元件40、眼高調整元件41、傾斜調整元件42及遮光調整元件43,可調整所測試之使用者之眼距寬度(PD:Pupillary Distance瞳孔距離)、眼位高度、耳高傾斜角度及遮光位置,同時藉由調整該可調對位器6之指針調光元件61,使十字雷射光呈現出不同角度的傾斜光線,方便該可調稜鏡座4之傾斜調整元件42調整至適當的耳高傾斜角度;如此,即可達到更為精準客製化之稜鏡度測試,又具有操作誤差小及測試效率高。
When using, please refer to the pictures shown in the third to sixth figures. It is only necessary to face the
綜上所述,本發明確實已達到所預期之使用目的與功效,且更較習知者為之理想、實用,惟,上述實施例僅係針對本發明之較佳實施例進行具體說明而已,該實施例並非用以限定本發明之申請專利範圍,舉凡其它未脫離本發明所揭示之技術手段下所完成之均等變化與修飾,均應包含於本發明所涵蓋之申請專利範圍中。 In summary, the present invention has indeed achieved the intended purpose and effect of use, and is more ideal and practical than the conventional ones. However, the above-mentioned embodiments are only specific descriptions of the preferred embodiments of the present invention. This embodiment is not intended to limit the scope of patent application of the present invention, and all other equivalent changes and modifications made without departing from the technical means disclosed in the present invention should be included in the scope of patent application covered by the present invention.
1:機台 1: Machine
2:光源元件 2: Light source components
3:取像元件 3: Take image components
4:可調稜鏡座 4: Adjustable seat
40:眼距調整元件 40: Eye distance adjustment element
41:眼高調整元件 41: Eye height adjustment element
42:傾斜調整元件 42: Tilt adjustment element
43:遮光調整元件 43: Shading adjustment element
44:脫接部 44: Disconnect part
45:定位標示 45: Positioning mark
46:結合部 46: Joint
47:固定元件 47: fixed element
48:對位標示 48: counterpoint mark
5:眼鏡元件 5: Glasses components
6:可調對位器 6: Adjustable counterpoint
60:十字雷射元件 60: Cross laser element
61:指針調光元件 61: pointer dimming element
62:上下調整元件 62: Up and down adjustment elements
63:左右調整元件 63: Left and right adjustment components
Claims (4)
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Citations (2)
Publication number | Priority date | Publication date | Assignee | Title |
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TW201422202A (en) * | 2012-11-07 | 2014-06-16 | Clarity Medical Systems Inc | Apparatus and method for operating a real time large diopter range sequential wavefront sensor |
WO2020107545A1 (en) * | 2018-11-29 | 2020-06-04 | 刘东光 | Inspection instrument with automatic strabismus detection mechanism, and inspection method thereof |
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Patent Citations (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
TW201422202A (en) * | 2012-11-07 | 2014-06-16 | Clarity Medical Systems Inc | Apparatus and method for operating a real time large diopter range sequential wavefront sensor |
WO2020107545A1 (en) * | 2018-11-29 | 2020-06-04 | 刘东光 | Inspection instrument with automatic strabismus detection mechanism, and inspection method thereof |
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