RU2746302C1 - Electrochromic liquid infusion structure for electrochromic rear-view mirror - Google Patents

Abstract

FIELD: electrochromic mirrors.

SUBSTANCE: electrochromic liquid infusion structure for an electrochromic rear-view mirror comprises a glass body formed by front and rear glass base plates joined together by epoxy glue applied around the periphery of the front and rear glass base plates. The infused electrochromic inner cavity is a cavity located between the front and rear glass base plates and hermetically surrounded by an epoxy adhesive connecting the front and rear glass base plates at the periphery. The glass body is provided at one end with an opening for a liquid inlet, which provides for the introduction of a liquid with electrochromic properties into the inner cavity of the glass body by suction or injection, and at the other end, the body is equipped with an opening for a liquid outlet, from which liquid with electrochromic properties flows out after filling the inner cavity of the glass body. A colloidal material is respectively disposed in the liquid inlet and liquid outlet, which seals the liquid inlet and liquid outlet after filling the glass body with a liquid with electrochromic properties.

EFFECT: invention makes it possible to simplify the manufacture of an electrochromic device.

10 cl, 4 dwg

Description

Technology area

The present invention relates to the field of dimmable automotive mirror technology, and more particularly to an electrochromic fluid injection structure for an electrochromic rear-view mirror.

State of the art

раскрыт способ получения корпуса, в котором предусмотрена обработка края угла скоса проводящей области электрохромного антибликового устройства, в которой в проводящий слой стеклянной подложки необходимо ввести электрод, для увеличения площади сечения проводящего содержащего серебро коллоидного материала; на основании требований в отношении конструкции элемента для изменения цвета, касающихся уменьшения корпуса и области вывода электрода электрохромного антибликового устройства, а также увеличения видимой области, дополнительно применяются травление, вакуумное вливание электрохромного материала, горячая посадка на герметик, вливание серебряного раствора, термическая обработка и другие технологии для получения корпуса электрохромного антибликового устройства, и тем самым повышается электропроводность после термической обработки содержащего серебро коллоидного материала, уменьшается ширина герметического проводящего коллоидного материала, упрощается технология производства и оборудование. Тем не менее согласно этому способу получения корпуса небольшой участок, не содержащий коллоидный материал, представляет собой отверстие для вливания, через которое вливают электрохромный материал, поэтому процесс вливания электрохромного материала необходимо осуществлять в условиях поддержания вакуума, при этом требования к степени окружающего вакуума являются высокими, а выполнение вливания не является удобным, и значит этот способ требует дальнейшего усовершенствования.In the existing Chinese patent application with application number CN 201310593580.5 titled

disclosed is a method of obtaining a housing, which provides for processing the edge of the bevel angle of the conductive region of the electrochromic antiglare device, in which an electrode must be inserted into the conductive layer of the glass substrate to increase the cross-sectional area of the conductive colloidal material containing silver; Based on the requirements for the design of the element for color change, regarding the reduction of the body and the electrode lead-out area of the electrochromic anti-reflective device, as well as the increase in the visible area, etching, vacuum injection of an electrochromic material, shrink-fit on a sealant, injection of a silver solution, heat treatment and others are additionally applied technologies for obtaining an electrochromic anti-reflective device body, and thereby increasing the electrical conductivity after heat treatment of the silver-containing colloidal material, reducing the width of the hermetic conductive colloidal material, simplifying the production technology and equipment. However, according to this method for producing a housing, a small portion not containing colloidal material is an infusion hole through which an electrochromic material is infused, so the infusion process of an electrochromic material needs to be carried out under vacuum conditions, and the requirements for the degree of the ambient vacuum are high. and the infusion is not convenient, and therefore this method requires further improvement.

The essence of the invention

The technical problem to be solved by the present invention is to provide an electrochromic liquid infusion structure for an electrochromic rear-view mirror, taking into account the above prior art, which enables the electrochromic liquid infusion under normal pressure conditions, thereby performing the infusion operation is simple and easy to manufacture.

The technical solution by which the present invention solves the above technical problem is as follows: a structure for infusing a liquid with electrochromic properties for an electrochromic rear-view mirror contains a glass body installed in an electrochromic rear-view mirror with the possibility of infusing a liquid with electrochromic properties, while said glass body is formed front and rear glass base plates bonded together with epoxy glue applied around the periphery of the front and rear glass base plates; the internal cavity, which is capable of infusing a liquid with electrochromic properties, is a cavity located between the front and rear glass base plates and hermetically surrounded by an epoxy adhesive connecting the front and rear glass base plates at the periphery; holes are provided in the epoxy glue applied on the periphery of the front and rear glass base plates, which are made with the possibility of infusion of liquid with electrochromic properties; wherein said glass body is provided at one end with an opening for a liquid inlet, which makes it possible to introduce a liquid with electrochromic properties into the inner cavity of the glass body by suction or pumping, and said glass body at the other end is provided with an opening for a liquid outlet, from which liquid with electrochromic properties flows out after filling the inner cavity of the glass body; in the liquid inlet and liquid outlet, respectively, a colloidal material is disposed, sealingly closing the liquid inlet and the liquid outlet after filling the glass body with a liquid with electrochromic properties.

In one embodiment, there is one liquid inlet, said liquid inlet located at one end of the glass body; there is also one liquid outlet, said liquid outlet located at the other end of the glass body.

In yet another embodiment, said liquid inlet and liquid outlet horizontally are at the same height and are located at the left and right ends of the glass body.

In yet another embodiment, said liquid inlet and liquid outlet are symmetrically located at the left and right ends of the glass body.

In one embodiment, the colloidal material used to seal the liquid inlet and liquid outlet is a UV adhesive.

In one embodiment, the width of said liquid inlet opening is 0.5-2.0 mm.

In another embodiment, the diameter of said liquid inlet opening is 1.6-2.2 mm.

In one embodiment, the top side, bottom side, left side and right side of said glass body, when projected onto a plane, form a trapezoidal structure, the four corners of which are arcuate; said liquid inlet / liquid outlet is located below the center of the side of the trapezoid at the left end of the glass body, and said liquid outlet / liquid inlet is located below the center of the side of the trapezoid at the right end of the glass body.

In yet another embodiment, said liquid inlet opening and liquid outlet opening are made symmetrically about the axis of symmetry, which is the central axis between the left and right lateral sides of the trapezoid.

In one embodiment, the infusion of said liquid with electrochromic properties into the inner cavity of the glass body includes:

1) evacuation of liquid with electrochromic properties before infusion in order to remove air contained in liquid with electrochromic properties;

2) immersion of the opening for entering the liquid into the liquid with electrochromic properties under normal pressure conditions, ensuring, by suction or forcing, the movement of the liquid with electrochromic properties through the opening for entering the liquid into the inner cavity of the glass body; hermetic closure, respectively, of the liquid inlet and liquid outlet by means of a UV adhesive when the liquid with electrochromic properties reaches the liquid outlet, with the completion of the process of infusion of the liquid with electrochromic properties.

Compared to prior art analogs, the advantages of the present invention are as follows: the glass body is provided at one end with a liquid inlet opening for introducing liquid with electrochromic properties into the inner cavity of the glass body by suction or pumping, and the glass body at the other end provided with a liquid outlet from which liquid with electrochromic properties flows out after filling the inner cavity of the glass body; when the liquid with electrochromic properties enters the inner cavity of the glass body through the liquid inlet hole, air in the inner cavity of the glass body is naturally expelled from the liquid outlet, and as a result, the inner cavity of the glass body filled with the electrochromic liquid without air is provided; a liquid with electrochromic properties displaces the air inside the cavity under normal pressure conditions, that is, this happens naturally and there is no need to carry out the infusion process under vacuum conditions, which reduces the production cost, while the infusion efficiency also increases due to this; at the same time, a liquid with electrochromic properties has the fluidity of a liquid and can completely fill the inner cavity of the glass body; due to such an infusion structure, the electrochromic liquid can completely remove air from the inner cavity of the glass body, and the infusion efficiency is therefore also better than that of the prior art; this infusion design is thoughtful as well as easy to manufacture, and in application, the infusion operation is also very simple, which is suitable for in-line production and large-scale production.

Description of the attached graphics

FIG. 1 is a perspective view of an embodiment of the present invention;

fig. 2 is a side view of FIG. one;

fig. 3 is a cross-sectional view taken along line A-A in FIG. 2;

fig. 4 is a cross-sectional view of FIG. 3, with the colloidal material removed from the liquid inlet and liquid outlet.

Specific embodiments

Below the present invention is described in more detail by means of embodiments, in which reference is made to the accompanying drawings.

As shown in FIG. 1-4, an electrochromic liquid infusion structure for an electrochromic rear-view mirror according to this embodiment comprises a glass body mounted in the electrochromic rear-view mirror to infuse an electrochromic liquid, said glass body being formed by front and rear glass base plates 1 bonded together with epoxy glue 2 applied around the periphery of the front and rear glass base plates; wherein the internal cavity 11 capable of infusing a liquid with electrochromic properties is a cavity located between the front and rear glass base plates 1 and hermetically surrounded by epoxy glue connecting the front and rear glass base plates 1 at the periphery; in the epoxy glue applied on the periphery of the front and rear glass main plates, holes are provided, made with the possibility of pouring in liquid with electrochromic properties, while the said glass body is provided at one end with an opening 21 for liquid inlet, which makes it possible to introduce liquid with electrochromic properties into the inner cavity of the glass bodies by suction or pumping, and said glass body is provided at the other end with a liquid outlet opening 22 from which liquid with electrochromic properties flows out after filling the inner cavity of the glass body; in the opening 21 for the inlet of the liquid and the opening 22 for the outlet of the liquid, respectively, a colloidal material 23 is located, hermetically closing the opening 21 for the inlet of the liquid and the opening 22 for the outlet of the liquid after filling the glass body with a liquid with electrochromic properties. There is one liquid inlet 21, said liquid inlet 21 located at one end of the glass body; there is also one liquid outlet 22, said liquid outlet 22 located at the other end of the glass body. The liquid inlet 21 and the liquid outlet 22 horizontally are at the same height and are located at the left and right ends of the glass body. The liquid inlet 21 and the liquid outlet 22 are symmetrically located at the left and right ends of the glass body. The colloidal material 23 used to seal the liquid inlet 21 and the liquid outlet 22 is a UV adhesive. The width of the liquid inlet hole 21 is 0.5-2.0 mm. The diameter of the liquid inlet hole 21 is 1.6-2.2 mm. The upper side, the lower side, the left side and the right side of the glass body, when projected onto a plane, form a trapezoidal structure, the four corners of which are arcuate; said liquid inlet 21 / liquid outlet 22 is located below the center of the side of the trapezoid at the left end of the glass body, and said liquid outlet 22 / liquid inlet 21 is located below the center of the side of the trapezoid at the right end of the glass body. The said opening 21 for the inlet of the liquid and the opening 22 for the outlet of the liquid are made symmetrically about the axis of symmetry, which is the central axis between the left and right lateral sides of the trapezoid. UV adhesive, which is also called light-sensitive adhesive and UV-curable adhesive, is an adhesive that can only be cured by exposure to ultraviolet rays; it can be used as a binder, and can also be used as an adhesive such as varnish, coating material, printing ink, and the like.

The stages of infusion of a liquid with electrochromic properties into the inner cavity of the glass body are as follows:

1) evacuation of liquid with electrochromic properties before infusion in order to remove air contained in liquid with electrochromic properties;

2) immersion of the opening 21 for entering the liquid into the liquid with electrochromic properties under normal pressure conditions, ensuring, by suction or forcing, the movement of the liquid with electrochromic properties through the opening 21 for entering the liquid into the inner cavity 11 of the glass body; tightly closing, respectively, the opening 21 for the inlet of the liquid and the opening 22 for the outlet of the liquid with the help of the UV adhesive when the liquid with electrochromic properties reaches the opening 22 for the outlet of the liquid, with the completion of the process of infusion of the liquid with electrochromic properties.

The present invention discloses an improved electrochromic rear-view mirror, while, unlike traditional dimmable rear-view mirrors, which provide one hole for injecting liquid with electrochromic properties, the improved rear-view mirror is equipped with two holes for infusing liquid with electrochromic properties, which, while providing product performance is better suited for in-line production, ensures production efficiency and reduces cost. In the production of a conventional tinted rear-view mirror, a glass body is first produced with only one injection hole for an electrochromic liquid; in the device for vacuum infusion, the air contained in the glass case is first pumped out, and then, by means of a pressure drop, a liquid with electrochromic properties is poured into the glass case, after which a hermetically sealed UV adhesive is carried out; the entire infusion process is generally performed under high vacuum conditions, which makes the operations extremely inconvenient.

According to the present invention, a glass body is firstly manufactured containing two injection ports for an electrochromic liquid, with two injection ports located at two opposite ends of the glass body; before infusion, the liquid with electrochromic properties is evacuated to remove air from it, then one of the two infusion holes is immersed in the liquid with electrochromic properties, and by suction or pumping, the liquid is allowed to pass inside through one infusion hole at one end; when the liquid reaches the other infusion hole, a UV adhesive is applied to each of the two infusion holes with UV adhesive. During the entire infusion process, the product does not need to be kept in a vacuum chamber to infuse liquid, so the operation becomes simpler, better suited for in-line production, production efficiency and cost savings.

The method of implementation is as follows: first, using an epoxy adhesive, a glass body is made containing two holes for injecting a liquid with electrochromic properties; then, one of the two infusion ports is immersed in the electrochromic liquid, and by suction or pumping, the liquid is moved inwardly through one of the two infusion ports at one end until the interior is filled with the electrochromic liquid; finally, the two infusion holes are sealed with UV adhesive.

Claims (12)

1. A structure for infusion of liquid with electrochromic properties for an electrochromic rear-view mirror, comprising a glass body installed in the electrochromic rear-view mirror with the possibility of infusion of liquid with electrochromic properties, said glass body is formed by front and rear glass base plates (1) connected to each another epoxy adhesive (2) applied to the periphery of the front and rear glass base plates; wherein the internal cavity (11) capable of infusing a liquid with electrochromic properties is a cavity located between the front and rear glass base plates (1) and hermetically surrounded by epoxy glue connecting the front and rear glass base plates (1) around the periphery; holes are provided in the epoxy glue applied on the periphery of the front and rear glass base plates, which are made with the possibility of infusion of liquid with electrochromic properties; characterized in that said glass body is provided at one end with an opening (21) for a liquid inlet, which makes it possible to introduce a liquid with electrochromic properties into the inner cavity of the glass body by suction or pumping, and said glass body at the other end is provided with an opening (22) for an outlet a liquid from which a liquid with electrochromic properties flows out after filling the inner cavity of the glass body; colloidal material (23) is located in the opening (21) for the inlet of the liquid and the opening (22) for the outlet of the liquid, which hermetically closes the opening (21) for the inlet of the liquid and the opening (22) for the outlet of the liquid after filling the glass body with a liquid with electrochromic properties. 2. The infusion structure according to claim 1, characterized in that there is one opening (21) for the inlet of the liquid, said opening (21) for the inlet of the liquid is located at one end of the glass body; there is one opening (22) for liquid outlet, said opening (22) for liquid outlet is located at the other end of the glass body. 3. An infusion structure according to claim 2, characterized in that said liquid inlet opening (21) and liquid outlet opening (22) are at the same horizontal height and are located at the left and right ends of the glass body. 4. An infusion structure according to claim 2, characterized in that said liquid inlet opening (21) and liquid outlet opening (22) are symmetrically located at the left and right ends of the glass body. 5. Construction for infusion according to any one of paragraphs. 1-4, characterized in that the colloidal material (23) used for hermetically closing the liquid inlet opening (21) and the liquid outlet opening (22) is a UV adhesive. 6. Construction for infusion according to any one of paragraphs. 1-4, characterized in that the width of said opening (21) for the inlet of the liquid is 0.5-2.0 mm. 7. An infusion structure according to claim 6, characterized in that the diameter of said liquid inlet opening (21) is 1.6-2.2 mm. 8. Construction for infusion according to any one of paragraphs. 2-4, characterized in that the upper side, the lower side, the left side and the right side of the said glass body, when projected onto a plane, form a trapezoidal structure, the four corners of which are arcuate; said liquid inlet (21) / liquid outlet (22) is located below the center of the side of the trapezoid at the left end of the glass body, and said liquid outlet (22) / liquid inlet (21) is located below the center of the side trapezoid at the right end of the glass case. 9. An infusion structure according to claim 8, characterized in that said liquid inlet opening (21) and liquid outlet opening (22) are made symmetrically relative to the axis of symmetry, which is the central axis between the left and right lateral sides of the trapezoid. 10. An infusion structure according to claim 1, characterized in that the infusion of said liquid with electrochromic properties into the inner cavity of the glass body includes: 1) evacuation of liquid with electrochromic properties before infusion in order to remove air contained in liquid with electrochromic properties; 2) immersion of the opening (21) for entering the liquid into the liquid with electrochromic properties under normal pressure conditions, ensuring, by means of suction or forcing, the movement of the liquid with electrochromic properties through the opening (21) for entering the liquid into the inner cavity (11) of the glass body; hermetic closure, respectively, of the opening (21) for the inlet of the liquid and the opening (22) for the outlet of the liquid with the help of the UV adhesive when the liquid with electrochromic properties reaches the opening (22) for the outlet of the liquid with the completion of the infusion of the liquid with the electrochromic properties.

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