TWI502264B - Conductive device for changing the color of lens - Google Patents

Description

鏡片變色之導電裝置 Conductive device for discoloration of lens

本發明係有關於一種鏡片變色之導電裝置，尤其是指一種不僅能讓該電致變色鏡片之透光度及顏色的變化更為均勻，連帶亦能延長該電致變色鏡片之使用壽命，而在其整體施行使用上更增實用功效特性之鏡片變色之導電裝置創新設計者。 The invention relates to a conductive device for discoloration of a lens, in particular to a function that not only makes the change of the transmittance and color of the electrochromic lens more uniform, but also extends the service life of the electrochromic lens. An innovative designer of conductive devices that are more effective in the use of lenses in their overall application.

按，隨著科技的日新月異，各種特殊的材料被大量的研發出來；其中，電致變色元件是指施加一電壓而呈現可逆式的顏色變化性質，透過驅動電壓達成電致變色元件之著色與去色的反應，將原本的透明無色狀態由通電後變成有色狀態，其結構上係為一種多層式電化學裝置，施加電壓於元件中，藉使元件內的物質產生氧化或還原之可逆反應而導致顏色變化的現象，該電致變色元件可供應用在日常生活之中，若外界陽光太強烈或是想令內部具有隱密性，即可應用此技術改變玻璃透光度。 According to the rapid development of science and technology, various special materials have been developed. Among them, electrochromic components refer to the application of a voltage to exhibit a reversible color change property, and the color of the electrochromic component is achieved through the driving voltage. The color reaction changes the original transparent colorless state from a charged state to a colored state, and the structure is a multilayer electrochemical device that applies a voltage to the element, causing a reversible reaction of oxidation or reduction of the substance in the element. The phenomenon of color change, the electrochromic element can be used in daily life, if the outside sun is too strong or want to make the interior secret, this technology can be applied to change the glass transmittance.

該類電致變色元件於操作使用上，其皆係對該電致變色元件輸入正向電源，令該電致變色元件透光度降低、顏色越深，並對電致變色元件輸入反向電源，令該電致變色元件透光度提高、顏色越淺，利用反覆對電致變色元件輸入正向或反向電源，讓電致變色元件進行氧化或還原反應，而能達到將該電致變色元件調整至所需透光度之目的。 In the operational use of the electrochromic element, the positive power is input to the electrochromic element, the transmittance of the electrochromic element is lowered, the color is deeper, and the reverse power source is input to the electrochromic element. The electrochromic element is improved in light transmittance and lighter in color, and the electrochromic element is subjected to oxidation or reduction reaction by inputting a forward or reverse power source to the electrochromic element, thereby achieving the electrochromic property. The components are adjusted to the desired transmittance.

其中，請參閱第五圖現有之立體分解結構示意圖所示，一般常見之電致變色鏡片(5)主要係於其上、下端分別設有相對應之正導電裝置(51)及負導電裝置(52)，且該正導電裝置(51)與負導電裝置(52)分別設置於電致導電鏡片(5)之前、後不同端面上，該正導電裝置(51)係於電致變色鏡片(5)表面設置有相接觸之正極氧化銦錫〔ITO〕導電層(511)，且於該正極氧化銦錫導電層(511)外再設置有相接觸正極導電邊(512)，而該負導電裝置(52)則係於電致變色鏡片(5)表面設置有相接觸之負極氧化銦錫〔ITO〕導電層(521)，再於該負極氧化銦錫導電層(521)外再設置有相接觸負極導電邊(522)，同時該正、負導電裝置(51)、(52)之正、負極氧化銦錫導電層(511)、(521)長度等於該電致變色鏡片(5)之長度，以讓正、負極氧化銦錫導電層(511)、(521)能分別完全貼合在電致變色鏡片(5)之上端或下端，再以接電裝置(53)與該正導電裝置(51)與負導電裝置(52)進行電性連接。 Referring to the schematic diagram of the three-dimensional exploded structure shown in the fifth figure, the common electrochromic lens (5) is mainly provided with a corresponding positive conductive device (51) and a negative conductive device at the upper and lower ends thereof ( 52), and the positive conductive device (51) and the negative conductive device (52) are respectively disposed on front and rear different end faces of the electroconductive lens (5), and the positive conductive device (51) is attached to the electrochromic lens (5) The surface is provided with a positive electrode indium tin oxide (ITO) conductive layer (511), and a positive electrode conductive edge (512) is disposed outside the positive indium tin oxide conductive layer (511), and the negative conductive device (52) is provided on the surface of the electrochromic lens (5) with a contact negative electrode of indium tin oxide (ITO) conductive layer (521), and then placed in contact with the negative indium tin oxide conductive layer (521) a negative conductive edge (522), and the positive and negative conductive indium tin oxide conductive layers (511), (521) of the positive and negative conductive devices (51), (52) have a length equal to the length of the electrochromic lens (5), The positive and negative indium tin oxide conductive layers (511) and (521) can be completely attached to the upper or lower end of the electrochromic lens (5), respectively. The power receiving device (53) is electrically connected to the positive conductive device (51) and the negative conductive device (52).

使得其在使用過程中，請再一併參閱第六圖現有之使用狀態示意圖所示，令該接電裝置(53)對該正導電裝置(51)與負導電裝置(52)輸入正向電源，此時電源即會透過該正、負導電裝置(51)、(52)之正、負極導電邊(512)、(522)傳導至正、負極氧化銦錫導電層(511)、(521)，再由該正、負極氧化銦錫導電層(511)、(521)傳導入電致變色鏡片(5)，以能令該電致變色鏡片(5)透光度降低、顏色越深；而當該接電裝置(53)對該正導電裝置(51)與負導電裝置(52)輸入反向電源時，則能令電能由正、負極導電邊(512)、(522)經正、負極氧化銦錫導電層(511)、(521)傳導入電致變色鏡片(5)，讓該電致變色鏡片(5)透光度提高、顏色越淺。 In the course of use, please refer to the schematic diagram of the current state of use of the sixth figure, so that the power receiving device (53) inputs the forward power source to the positive conductive device (51) and the negative conductive device (52). At this time, the power source is transmitted to the positive and negative indium tin oxide conductive layers (511) through the positive and negative conductive sides (512) and (522) of the positive and negative conductive devices (51) and (52). And conducting the positive and negative indium tin oxide conductive layers (511) and (521) into the electrochromic lens (5) to reduce the transmittance and the darker color of the electrochromic lens (5); When the power receiving device (53) inputs a reverse power source to the positive conductive device (51) and the negative conductive device (52), the electrical energy can be made from the positive and negative conductive sides (512), (522) through the positive and negative electrodes. The indium tin oxide conductive layers (511) and (521) are conducted into the electrochromic lens (5) to increase the transmittance and the lighter color of the electrochromic lens (5).

然而，上述電致變色鏡片雖可利用輸入正向或反向電源之改變，達到調整其透光度之預期功效，但也在其整體實際施行使用上發現，該電致變色鏡片在操作使用進行透光度的改變過程中，由於該電能係由電致變色鏡片一側之接電裝置傳導入正、負導電裝置，令正、負導電裝置之正、負極導電邊經正、負極氧化銦錫導電層傳導入電致變色鏡片，因其係由接電裝置同時經正、負導電裝置進行供電，令電致變色鏡片會由靠近接電裝置端開始進行變色，造成其透光度的改變會由電致變色鏡片上電能傳導入之一側往另一側進行變化，於長期使用下，即會導致該電致變色鏡片於電能傳導入之一側老化程度高於另一側，令電致變色鏡片兩側透光度不均，致令 其在整體操作控制上仍存在有改進之空間。 However, although the above electrochromic lens can utilize the change of the input forward or reverse power source to achieve the desired effect of adjusting the transmittance, it is also found in the overall practical use of the electrochromic lens that the electrochromic lens is used in operation. During the change of transmittance, the electric energy is transmitted from the electro-mechanical device on one side of the electrochromic lens into the positive and negative conductive devices, so that the positive and negative conductive sides of the positive and negative conductive devices pass through the positive and negative indium tin oxide. The conductive layer is conducted into the electrochromic lens, because it is powered by the power receiving device through the positive and negative conductive devices, so that the electrochromic lens will start to change color near the end of the power receiving device, causing the change of transmittance thereof. The electric energy on the electrochromic lens is changed from one side to the other side. Under long-term use, the electrochromic lens is aged on one side of the electric energy transmission to be higher than the other side, so that the electrolysis Discoloration of the two sides of the color lens is uneven, resulting in There is still room for improvement in overall operational control.

緣是，發明人有鑑於此，秉持多年該相關行業之豐富設計開發及實際製作經驗，針對現有之結構及缺失再予以研究改良，提供一種鏡片變色之導電裝置，以期達到更佳實用價值性之目的者。 Therefore, in view of this, the inventors have been adhering to the rich experience in design, development and actual production of the relevant industries for many years, and have researched and improved the existing structures and defects to provide a conductive device with discoloration of lenses in order to achieve better practical value. Target person.

本發明之主要目的在於提供一種鏡片變色之導電裝置，其主要係能令電致變色鏡片在進行透光度及顏色的變化的過程中，不僅能讓該電致變色鏡片之透光度及顏色的變化更為均勻，連帶亦能延長該電致變色鏡片之使用壽命，而在其整體施行使用上更增實用功效特性者。 The main object of the present invention is to provide a conductive device for discoloration of a lens, which mainly enables the electrochromic lens to not only impart transparency and color to the electrochromic lens during the process of changing transmittance and color. The change is more uniform, and the associated life of the electrochromic lens can be extended, and the utility model is more practical and useful in its overall application.

本發明鏡片變色之導電裝置之主要目的與功效，係由以下具體技術手段所達成：其主要係於電致變色鏡片上、下端之前、後不同端面上分別設有第一導電裝置及第二導電裝置，並令接電裝置與該第一導電裝置及第二導電裝置相連接；其中：該第一導電裝置，其係於電致變色鏡片表面設置有相接觸之氧化銦錫〔ITO〕導電層，於該氧化銦錫導電層外再設置有相接觸之導電邊，該導電邊則與接電裝置相連接；該第二導電裝置，其係於電致變色鏡片表面設置有相接觸之氧化銦錫〔ITO〕導電層，於該氧化銦錫導電層外則設置有相接 觸之內導電邊，且於內導電邊外設有絕緣層，該絕緣層長度較內導電邊短，再於絕緣層外設有外導電邊，該外導電邊長度較絕緣層長，以令外導電邊一側與接電裝置相連接，該外導電邊之另一側與則與內導電邊相連接。 The main purpose and effect of the conductive device for discoloration of the lens of the present invention are achieved by the following specific technical means: the first conductive device and the second conductive device are respectively disposed on the different end faces of the electrochromic lens before and after the lower end. And electrically connecting the electrical device to the first conductive device and the second conductive device; wherein: the first conductive device is disposed on the surface of the electrochromic lens with a contact layer of indium tin oxide (ITO) And a conductive edge contacting the indium tin oxide conductive layer, wherein the conductive edge is connected to the power receiving device; the second conductive device is disposed on the surface of the electrochromic lens with the indium oxide contacting Tin (ITO) conductive layer, which is connected to the indium tin oxide conductive layer The inner side of the inner conductive edge is provided with an insulating layer, the insulating layer is shorter than the inner conductive side, and the outer conductive edge is disposed outside the insulating layer, and the outer conductive side is longer than the insulating layer, so that The outer conductive side is connected to the power receiving device, and the other side of the outer conductive side is connected to the inner conductive edge.

本發明鏡片變色之導電裝置的較佳實施例，其中，該第一導電裝置為正極，該第二導電裝置為負極。 A preferred embodiment of the conductive device for discoloration of the lens of the present invention, wherein the first conductive device is a positive electrode and the second conductive device is a negative electrode.

本發明鏡片變色之導電裝置的較佳實施例，其中，該第一導電裝置為負極，該第二導電裝置為正極。 A preferred embodiment of the conductive device for discoloration of the lens of the present invention, wherein the first conductive device is a negative electrode and the second conductive device is a positive electrode.

(1)‧‧‧電致變色鏡片 (1)‧‧‧Electrochromic lenses

(2)‧‧‧第一導電裝置 (2) ‧‧‧First conductive device

(21)‧‧‧氧化銦錫導電層 (21)‧‧‧Indium tin oxide conductive layer

(22)‧‧‧導電邊 (22)‧‧‧ Conductive edge

(3)‧‧‧第二導電裝置 (3) ‧‧‧Second conductive device

(31)‧‧‧氧化銦錫導電層 (31)‧‧‧Indium tin oxide conductive layer

(32)‧‧‧內導電邊 (32) ‧ ‧ inner conductive edge

(33)‧‧‧絕緣層 (33)‧‧‧Insulation

(34)‧‧‧外導電邊 (34) ‧‧‧Outer conductive edge

(4)‧‧‧接電裝置 (4)‧‧‧Electrical devices

(5)‧‧‧電致變色鏡片 (5)‧‧‧Electrochromic lenses

(51)‧‧‧正導電裝置 (51) ‧‧‧positive conductive devices

(511)‧‧‧正極氧化銦錫導電層 (511)‧‧‧Positive Indium Tin Oxide Conductive Layer

(512)‧‧‧正極導電邊 (512)‧‧‧ positive conductive edge

(52)‧‧‧負導電裝置 (52) ‧‧‧negative conductive devices

(521)‧‧‧負極氧化銦錫導電層 (521)‧‧‧Negative Indium Tin Oxide Conductive Layer

(522)‧‧‧負極導電邊 (522)‧‧‧negative conductive edge

(53)‧‧‧接電裝置 (53)‧‧‧Electrical devices

第一圖：本發明之立體分解結構示意圖 First Figure: Schematic diagram of the three-dimensional exploded structure of the present invention

第二圖：本發明之俯視組合剖視結構示意圖 Second: Schematic diagram of a top cross-sectional view of the present invention

第三圖：本發明之局部放大俯視組合剖視結構示意圖 The third figure: a schematic view of a partial enlarged cross-sectional view of the present invention

第四圖：本發明之使用狀態示意圖 Fourth figure: schematic diagram of the state of use of the present invention

第五圖：現有之立體分解結構示意圖 Figure 5: Schematic diagram of the existing three-dimensional decomposition structure

第六圖：現有之使用狀態示意圖 Figure 6: Schematic diagram of the existing use status

為令本發明所運用之技術內容、發明目的及其達成之功效有更完整且清楚的揭露，茲於下詳細說明之，並請一併參閱所揭之圖式及圖號： For a more complete and clear disclosure of the technical content, the purpose of the invention and the effects thereof achieved by the present invention, it is explained in detail below, and please refer to the drawings and drawings:

首先，請參閱第一圖本發明之立體分解結構示意圖及第二圖本發明之俯視組合剖視結構示意圖所示，本發明主要係於電致變色鏡片(1)上、下端之前、後不同端面上分別設有第一導電裝置(2)及第二導電裝置(3)，當該第一導電裝置(2)為正極時，該第二導電裝置(3)即為負極，而當該第一導電裝置(2)為負極時，該第二導電裝置(3)即為正極，並令接電裝置(4)與該第一導電裝置(2)及第二導電裝置(3)相連接；其中： First, please refer to the first embodiment of the present invention for a perspective view of a three-dimensional exploded structure and a second view of the present invention. The present invention is mainly shown in the front and rear ends of the electrochromic lens (1). The first conductive device (2) and the second conductive device (3) are respectively disposed, and when the first conductive device (2) is a positive electrode, the second conductive device (3) is a negative electrode, and when the first When the conductive device (2) is a negative electrode, the second conductive device (3) is a positive electrode, and the power receiving device (4) is connected to the first conductive device (2) and the second conductive device (3); :

該第一導電裝置(2)，其係於電致變色鏡片(1)表面設置有相接觸之氧化銦錫〔ITO〕導電層(21)，於該氧化銦錫導電層(21)外再設置有相接觸之導電邊(22)，該導電邊(22)則與接電裝置(4)相連接。 The first conductive device (2) is disposed on the surface of the electrochromic lens (1) with a contacted indium tin oxide (ITO) conductive layer (21), and is disposed outside the indium tin oxide conductive layer (21) There is a conductive edge (22) that is in contact with it, and the conductive edge (22) is connected to the power receiving device (4).

該第二導電裝置(3)，其係於電致變色鏡片(1)表面設置有相接觸之氧化銦錫〔ITO〕導電層(31)，於該氧化銦錫導電層(31)外則設置有相接觸之內導電邊(32)，且於內導電邊(32)外設有絕緣層(33)，該絕緣層(33)長度較內導電邊(32)短，再於絕緣層(33)外設有外導電邊(34)，該外導電邊(34)長度較絕緣層(33)長，以令外導電邊(34)一側與接電裝置(4)相連接，該外導電邊(34)之另一側與則與內導電邊(32)相連接〔請再一併參閱第三圖本發明之局部放大俯視組合剖視結構示意圖所示〕。 The second conductive device (3) is disposed on the surface of the electrochromic lens (1) with an indium tin oxide (ITO) conductive layer (31) that is in contact with the conductive inductive lens (1), and is disposed outside the indium tin oxide conductive layer (31). The inner conductive edge (32) is disposed outside the inner conductive edge (32), and the insulating layer (33) is shorter in length than the inner conductive edge (32), and then in the insulating layer (33) An outer conductive edge (34) is disposed outside, and the outer conductive edge (34) is longer than the insulating layer (33) so that one side of the outer conductive edge (34) is connected to the power receiving device (4). The other side of the side (34) is connected to the inner conductive side (32) (please refer to the third figure for a partial enlarged plan view of the cross-sectional view of the present invention).

如此一來，使得本發明在操作使用過程中，請再一併參閱第四圖本發明之使用狀態示意圖所示，其係令接電裝置(4)對該第一導電裝置(2)及第二導電裝置(3)分別輸入正向或反向電源，令正向或反向電源透過第一導電裝置(2)之導電邊(22)傳導至氧化銦錫〔ITO〕導電層(21)，再由氧化銦錫〔ITO〕導電層(21)傳導入電致變色鏡片(1)，且令反向或正向電源由該第二導電裝置(3)之外導電邊(34)一側輸入，因該外導電邊(34)與內導電邊(32)間設有絕緣層(33)，而令反向或正向電源僅能由外導電邊(34)另側與內導電邊(32)相連接處進行傳輸，並由內導電邊(32)傳導至氧化銦錫〔ITO〕導電層(31)，再由氧化銦錫〔ITO〕導電層(31)傳導入電致變色鏡片(1)，以能令該電致變色鏡片(1)改變透光度及顏色，且於該電致變色鏡片(1)透光度及顏色變化過程中，由於電源傳導入該第一導電裝置(2)及第二導電裝置(3)之氧化銦錫〔ITO〕導電層(21)、(31)的位置係位於不同側，相對供給至該電致變色鏡片(1)之電源位置即係分別位於其兩側不同位置處，使得電致變色鏡片(1)之透光度及顏色的變化，會由氧化銦錫導電層(21)、(31)處呈斜向對角線往中間進行變化，令該電致變色鏡片(1)之透光度及顏色的變化更為均勻，相對能延長電致變色鏡片(1)之使用壽命。 Therefore, in the operation and use of the present invention, please refer to the fourth diagram of the present invention as shown in the schematic diagram of the use state of the present invention, which is to elect the electrical device (4) to the first conductive device (2) and The two conductive devices (3) respectively input a forward or reverse power source, and the forward or reverse power source is transmitted to the indium tin oxide (ITO) conductive layer (21) through the conductive edge (22) of the first conductive device (2). Then, the indium tin oxide (ITO) conductive layer (21) is conducted into the electrochromic lens (1), and the reverse or forward power source is input from the conductive side (34) side of the second conductive device (3). The insulating layer (33) is disposed between the outer conductive edge (34) and the inner conductive edge (32), so that the reverse or forward power source can only be surrounded by the outer conductive edge (34) and the inner conductive edge (32). The junction is transferred and conducted from the inner conductive edge (32) to the indium tin oxide (ITO) conductive layer (31), and then transferred to the electrochromic lens by the indium tin oxide (ITO) conductive layer (31) (1) In order to enable the electrochromic lens (1) to change the transmittance and color, and during the change of the transmittance and color of the electrochromic lens (1), the power source is conducted into the first conductive device (2) ) and The positions of the indium tin oxide (ITO) conductive layers (21) and (31) of the conductive device (3) are located on different sides, and the power supply positions to the electrochromic lens (1) are respectively located on different sides thereof. At the position, the change in transmittance and color of the electrochromic lens (1) will be changed diagonally diagonally from the indium tin oxide conductive layers (21) and (31) to the middle. The change in transmittance and color of the color-changing lens (1) is more uniform, and the service life of the electrochromic lens (1) can be relatively extended.

藉由以上所述，本發明之使用實施說明可知，本發明與現有實施方式相較之下，本發明主要係具有下列優點： From the above description of the use of the present invention, it can be seen that the present invention has the following advantages in comparison with the prior embodiments:

1.本發明能令電致變色鏡片在進行透光度及顏色的變化的過程中，由於電源傳導入該第一、二導電裝置傳導入氧化銦錫〔ITO〕導電層的位置係位於不同側，相對供給至該電致變色鏡片之電源位置即係分別位於其兩側不同位置處，使得電致變色鏡片會呈斜向對角線往中間進行透光度及顏色的變化，不僅能讓該電致變色鏡片之透光度及顏色的變化更為均勻，連帶亦能延長該電致變色鏡片之使用壽命。 1. The present invention enables the electrochromic lens to be in the process of changing the transmittance and color, because the power source is conducted into the first and second conductive devices and the position of the conductive layer of indium tin oxide (ITO) is on different sides. The power supply position to the electrochromic lens is respectively located at different positions on both sides thereof, so that the electrochromic lens will change the transmittance and the color diagonally to the middle, which can not only make the The electrochromic lens has a more uniform change in light transmittance and color, and the associated life of the electrochromic lens can be extended.

2.本發明之接電裝置於與該第一、二導電裝置進行連接時，其不需令接電裝置分別與電致變色鏡片兩側與該第一、二導電裝置連接，而係令該接電裝置於電致變色鏡片同一側與該第一、二導電裝置進行連接，使得其於接電裝置之設置上能更為簡易便利，同時降低接電裝置之設置成本。 2. When the power receiving device of the present invention is connected to the first and second conductive devices, it is not required to connect the power receiving device to the first and second conductive devices on both sides of the electrochromic lens. The power receiving device is connected to the first and second conductive devices on the same side of the electrochromic lens, so that the setting of the power receiving device can be more convenient and convenient, and the installation cost of the power receiving device is reduced.

然而前述之實施例或圖式並非限定本發明之產品結構或使用方式，任何所屬技術領域中具有通常知識者之適當變化或修飾，皆應視為不脫離本發明之專利範疇。 However, the above-described embodiments or drawings are not intended to limit the structure or the use of the present invention, and any suitable variations or modifications of the invention will be apparent to those skilled in the art.

綜上所述，本發明實施例確能達到所預期之使用功效，又其所揭露之具體構造，不僅未曾見諸於同類產品中，亦未曾公開於申請前，誠已完全符合專利法之規定與要求，爰依法提出發明專利之申請，懇請惠予審查，並賜准專利，則實感德便。 In summary, the embodiments of the present invention can achieve the expected use efficiency, and the specific structure disclosed therein has not been seen in similar products, nor has it been disclosed before the application, and has completely complied with the provisions of the Patent Law. And the request, the application for the invention of a patent in accordance with the law, please forgive the review, and grant the patent, it is really sensible.

(1)‧‧‧電致變色鏡片 (1)‧‧‧Electrochromic lenses

(2)‧‧‧第一導電裝置 (2) ‧‧‧First conductive device

(21)‧‧‧氧化銦錫導電層 (21)‧‧‧Indium tin oxide conductive layer

(22)‧‧‧導電邊 (22)‧‧‧ Conductive edge

(3)‧‧‧第二導電裝置 (3) ‧‧‧Second conductive device

(31)‧‧‧氧化銦錫導電層 (31)‧‧‧Indium tin oxide conductive layer

(32)‧‧‧內導電邊 (32) ‧ ‧ inner conductive edge

(33)‧‧‧絕緣層 (33)‧‧‧Insulation

(34)‧‧‧外導電邊 (34) ‧‧‧Outer conductive edge

Claims (1)

一種鏡片變色之導電裝置，其主要係於電致變色鏡片上、下端之前、後不同端面上分別設有第一導電裝置及第二導電裝置，該第一導電裝置及該第二導電裝置兩者其中一個為正極，另一個為負極，並令接電裝置與該第一導電裝置及第二導電裝置相連接，該接電裝置係於該電致變色鏡片左右眼方向的同一側與該第一導電裝置及該第二導電裝置進行連接；其中：該第一導電裝置，其係於該電致變色鏡片表面設置有相接觸之氧化銦錫〔ITO〕導電層，於該氧化銦錫導電層外再設置有相接觸之導電邊，該導電邊則與該接電裝置相連接；該第二導電裝置，其係於該電致變色鏡片表面設置有相接觸之氧化銦錫〔ITO〕導電層，於該氧化銦錫導電層外則設置有相接觸之內導電邊，且於該內導電邊外設有絕緣層，該絕緣層長度較該內導電邊短，再於該絕緣層外設有外導電邊，該外導電邊長度較該絕緣層長，以令該外導電邊一側與該接電裝置相連接，該外導電邊之另一側與則與該內導電邊相連接；而電源傳導入該第一導電裝置之該氧化銦錫導電層的位置與電源傳導入該第二導電裝置之該氧化銦錫導電層的位置，係位於該電致變色鏡片左右眼方向的左右不同側。 A conductive device for discoloring a lens, which is mainly provided with a first conductive device and a second conductive device respectively on the front end and the rear end of the electrochromic lens, and the first conductive device and the second conductive device One of them is a positive electrode and the other is a negative electrode, and the electrical connecting device is connected to the first conductive device and the second conductive device, and the electrical connecting device is on the same side of the left and right eye directions of the electrochromic lens and the first The conductive device and the second conductive device are connected; wherein: the first conductive device is disposed on the surface of the electrochromic lens with a contacted indium tin oxide (ITO) conductive layer outside the conductive layer of indium tin oxide Further, a conductive edge is formed, and the conductive edge is connected to the power receiving device; the second conductive device is disposed on the surface of the electrochromic lens with a contact layer of indium tin oxide (ITO) conductive layer. An inductive layer is disposed outside the conductive layer of the indium tin oxide, and an insulating layer is disposed outside the inner conductive edge. The length of the insulating layer is shorter than the inner conductive edge, and the outer layer is disposed outside the insulating layer. guide The length of the outer conductive edge is longer than the insulating layer, so that the outer conductive side is connected to the power receiving device, and the other side of the outer conductive edge is connected to the inner conductive edge; The position of the indium tin oxide conductive layer introduced into the first conductive device and the position at which the power source is conducted into the indium tin oxide conductive layer of the second conductive device are located on different left and right sides of the left and right eye directions of the electrochromic lens.