WO2017188413A1 - Glass plate with information device - Google Patents

Abstract

A glass plate (1) with an information device is a glass plate (20) to which a bracket (10) for storing an information device (102) is fixed. The glass plate (20) is provided with a first glass plate (21), a second glass plate (22), and an intermediate film (23) interposed between the first glass plate (21) and the second glass plate (22). The information device (102) is provided with an information transmitter/receiver (103) such as a lens, and a sealing part (30) is provided to seal a space between the information transmitter/receiver (103) and a first main surface (24) of the second glass plate (22). The sealing part (30) is either a sealing space filled with a liquid or a gel, or a transparent solid. The sealing space or the transparent solid makes it possible to prevent fogging of the information transmitter/receiver (103) and the first main surface (24), without any effect from moisture or external temperature change.

Description

Glass plate with information device

The present invention relates to a glass plate with an information device used for a windshield of a vehicle or the like.

It is known that an information device such as a camera is mounted in a vehicle and information signals such as road conditions are transmitted and received via a glass plate (for example, a windshield of a vehicle) (see Patent Document 1).

Patent Document 1 states that an optical functional element that transmits and receives via a window glass is attached to the window glass, a local heating unit is provided in the transmission area of the optical functional element, and the transmission area is in a state free from ice, rain, or condensation. Disclosure.

Japanese National Table 2011-510893

Patent Document 1 discloses an anti-fogging technique in which condensation in a transmission region by a local heating unit is not attached, but the method using heating has a problem that the battery power is consumed and fuel consumption is reduced.

DETAILED DESCRIPTION OF THE INVENTION The present invention provides a glass plate with an information device that is difficult to be loaded on a battery and can be anti-fogged.

In the glass plate with an information device of the present invention, the information device includes an information transmission / reception unit on a surface, and a space between the information transmission / reception unit and the glass plate is sealed.

According to the present invention, it is possible to provide a glass plate with an information device that is difficult to be loaded on the battery and can be anti-fogged.

FIG. 1 is a conceptual diagram showing the use of a glass plate with an information device according to the present invention. FIG. 2 is a cross-sectional view showing an example of the first embodiment of the glass plate with an information device according to the present invention. FIG. 3: is sectional drawing which shows an example of 2nd Embodiment of the glass plate with an information device which concerns on this invention.

Hereinafter, specific embodiments of the glass plate with an information device according to the present invention will be described in detail with reference to the drawings.

FIG. 1 is a conceptual diagram showing the use of the glass plate with an information device of the present embodiment. Drawing 2 is a sectional view showing an example of a 1st embodiment of a glass plate with an information device. An example of a glass plate with an information device will be described in detail with reference to FIGS.

In this embodiment, the glass plate 1 with an information device is a glass plate 20 to which a bracket 10 is fixed, and is mainly used for a windshield 101 of a vehicle 100 such as an automobile. In addition, the bracket 10 accommodates an information device 102 mounted on the vehicle 100 in order to ensure traveling safety of the vehicle. The information device 102 is a device that uses a camera, a radar, or the like to prevent a collision with a forward vehicle, a pedestrian, an obstacle, etc. existing in front of the vehicle, to prevent a collision, and to inform the driver of the danger. Or it is an information transmission device etc., and transmits / receives a signal via the glass plate 20 using a millimeter wave radar, a stereo camera, an infrared laser, etc. The “signal” is an electromagnetic wave including millimeter waves, visible light, infrared light, and the like.

The glass plate (laminated glass) 20 includes a first glass plate 21, a second glass plate 22, and an intermediate film 23 interposed between the first glass plate 21 and the second glass plate 22.

The glass plate 20 is manufactured by a known float method. In the float process, a molten glass substrate is floated on a molten metal such as tin, and a plate glass having a uniform thickness and plate width is formed by a strict temperature operation.

As an example of the composition of the first glass plate 21 and the second glass plate 22 used in the present embodiment, the composition is expressed in mol% based on the oxide, and 50 to 80% of SiO ₂ and B ₂ O ₃ are contained. 0-10%, Al ₂ O ₃ 0.1-25%, Li ₂ O + Na ₂ O + K ₂ O 3-30%, MgO 0-25%, CaO 0-25%, SrO 0-5% , A glass containing 0 to 5% of BaO, 0 to 5% of ZrO ₂ and 0 to 5% of SnO ₂ , but is not particularly limited.

The composition of the intermediate film 23 may be one generally used for conventional laminated glass for vehicles, and for example, polyvinyl butyral (PVB), ethylene vinyl acetal (EVA), or the like can be used. Moreover, you may use the thermosetting resin which is a liquid before a heating. That is, the intermediate film 23 only needs to be layered when the glass plate 20 is used, and the intermediate film 23 may be liquid before the first glass plate 21 and the second glass plate 22 are joined.

A visible light shielding region 40 that is a black shielding film such as ceramics is formed in the peripheral region of the glass plate 20, and a convex portion 41 protruding in the in-plane direction of the glass plate 20 is formed in the vicinity of the information device 102. . In addition, the visible light shielding region 40 is provided with a region not provided with a black coating film, which is a transmission region 50 through which a signal from the information device 102 passes (see FIG. 1, square). And by making especially the attaching part of the bracket 10 exist in the visible light shielding area | region 40 by planar view, the bracket 10 can be concealed from the exterior of a vehicle and aesthetics improve.

The bracket 10 of this embodiment includes a substrate 11 and a standing wall 12 substantially perpendicular to the substrate 11, and an information device 102 is fixed on the substrate 11 (see FIG. 2). The front end portion 11a of the substrate 11 is fixed to the first main surface 24 of the second glass plate 22 by means such as engagement through an adhesive or the like. Moreover, the front-end | tip part 12a of the standing wall 12 is also fixed with respect to the 1st main surface 24 of the 2nd glass plate 22 by means, such as an engagement, via an adhesive agent. The shape of the bracket and the bracket fixed to the first main surface 24 is not limited.

The information device 102 includes an information transmission / reception unit 103 such as a lens. In the first embodiment, a sealing unit 30 that seals a space between the information transmission / reception unit 103 and the first main surface 24 of the second glass plate 22 is provided. Is provided. The sealing part 30 may have a shape that matches the outer diameter width of the information transmitting / receiving part 103 as shown in the present embodiment, or may be the entire space defined by the bracket 10 and the glass plate 20. .

The space defined by the sealing unit 30 is a sealed space between the information transmitting / receiving unit 103 and the glass plate 20 (particularly, the first main surface 24 of the second glass plate 22), and air circulation to the outside is possible. It is an environment that is not affected by changes in temperature and humidity in the passenger compartment. Therefore, no fogging such as condensation occurs in the passage region of the signal transmitted or received by the information device 102 on the surface of the information transmitting / receiving unit 103 or the first main surface 24 of the second glass plate 22, and the stability of the information device 102 is improved. Operation is possible. Moreover, it is not necessary to heat the sealing part 30 using a battery power supply, and the fuel consumption is not reduced.

As an example of the inside of the sealing unit 30, it is desirable that the space between the information transmitting / receiving unit 103 and the glass plate 20 is decompressed. By reducing the pressure, moisture that may be present in the sealed space can be reduced.

Furthermore, as another example, it is desirable that a liquid or gel body is filled in the sealing unit 30 in the space between the information transmitting / receiving unit 103 and the glass plate 20. The liquid or gel body is, for example, matching oil or gel, and is a refractive index matching agent. It is possible to remove moisture in the space by filling the liquid or gel body.

The first refractive index of the liquid or gel body is desirably within ± 10% based on the second refractive index of the glass plate 20. By matching or approximately equaling the refractive index of the glass plate 20, an effect of low reflection can be obtained.

The thermal expansion coefficient of the liquid or gel body is desirably 30 × 10 ⁻⁵ / K or less. If the coefficient of thermal expansion is 30 × 10 ⁻⁵ / K or less, it is possible to suppress expansion of the volume of the liquid or gel body by heat from sunlight or the like. And it is preferably 20 × 10 ⁻⁵ / K or less, more preferably 15 × 10 ⁻⁵ / K or less, more preferably 10 × 10 ⁻⁵ / K or less.
In addition, when the sealing part 30 is filled with a liquid or a gel body, a partial space may exist in the sealing part 30. The presence of the space allows the thermal expansion of the liquid or gel body.

In the second embodiment shown in FIG. 3, the sealing part 30 between the information transmitting / receiving part 103 and the first main surface 24 of the second glass plate 22 is a transparent solid. That is, the transparent solid may be, for example, a silicon resin or an acrylic resin, or a transparent resin obtained by curing a liquid photocurable resin composition. The photocurable resin composition is preferably a liquid composition containing a photocurable curable compound, a photopolymerization initiator, and, if necessary, a non-curable oligomer. The non-curable oligomer is preferably an oligomer having a hydroxyl group that does not cause a curing reaction with the curable compound in the composition when the photo-curable resin composition is cured. The transparent solid fills the space between the information transmitting / receiving unit 103 and the glass plate 20 with a refractive index matching film or the like. The transparent solid is in close contact with the glass plate 20 and is not affected by external temperature changes or moisture with respect to the space between the glass plate 20 and the information transmitting / receiving unit 103.

Therefore, no fogging such as condensation occurs in the passage region of the signal transmitted or received by the information device 102 on the surface of the information transmitting / receiving unit 103 or the first main surface 24 of the second glass plate 22, and the stability of the information device 102 is improved. Operation is possible. Moreover, it is not necessary to heat the sealing part 30 using a battery power supply, and the fuel consumption is not reduced.

The third refractive index of the transparent solid is preferably within ± 10% with respect to the second refractive index of the glass plate 20. By matching or approximately equaling the refractive index of the glass plate 20, an effect of low reflection can be obtained.

The coefficient of thermal expansion of the transparent solid is desirably 30 × 10 ⁻⁵ / K or less. When the coefficient of thermal expansion is 30 × 10 ⁻⁵ / K or less, it is possible to suppress the expansion of the volume of the transparent solid due to heat from sunlight or the like. And it is preferably 20 × 10 ⁻⁵ / K or less, more preferably 15 × 10 ⁻⁵ / K or less, more preferably 10 × 10 ⁻⁵ / K or less.

When the glass plate 20 is curved or the like and a space is interposed between the glass plate 20 and the transparent solid, the liquid or gel body described above is filled between the glass plate 20 and the transparent solid. It may be. When the liquid or gel described above is filled between the glass plate 20 and the transparent solid, the first refractive index and thermal expansion coefficient of the liquid or gel body, and the third refractive index and thermal expansion coefficient of the transparent solid. Are preferably substantially the same.

As an example of the use of the present embodiment, the windshield 101 of the vehicle 100 has been described above. However, a rear glass may be used, and in the case of using the rear glass, a camera, a radar, etc. It is the glass plate 20 which allows the signal of the information device 102 to pass through.

Note that the present invention is not limited to the above-described embodiment, and modifications, improvements, and the like can be made as appropriate. In addition, the material, shape, dimension, numerical value, form, number, arrangement location, and the like of each component in the above-described embodiment are arbitrary and are not limited as long as the present invention can be achieved.

This application is based on Japanese Patent Application No. 2016-089805 filed on Apr. 27, 2016, the contents of which are incorporated herein by reference.

The glass plate with an information device of the present invention is suitably used for a glass plate that prevents fogging caused by moisture or temperature difference that hinders the signal of the information device.

DESCRIPTION OF SYMBOLS 1 Glass plate with information device 10 Bracket 20 Glass plate 21 1st glass plate 22 2nd glass plate 23 Intermediate film 24 1st main surface 30 Sealing part (space, transparent solid)
40 Visible light shielding area

Claims (9)

1. A glass plate with an information device,
   The information device includes an information transmission / reception unit on a surface thereof.
   The glass plate with an information device by which the space between the said information transmission / reception part and the said glass plate is sealed.
2. The glass plate with an information device according to claim 1, wherein a space between the information transmitting / receiving unit and the glass plate is decompressed.
3. The glass plate with an information device according to claim 1, wherein a space between the information transmitting / receiving unit and the glass plate is filled with a liquid or a gel body.
4. The glass plate with an information device according to claim 3, wherein a first refractive index of the liquid or gel body is within ± 10% based on a second refractive index of the glass plate.
5. The glass plate with an information device according to claim 3, wherein a thermal expansion coefficient of the liquid or gel body is 30 × 10 ^-5 / K or less.
6. A glass plate with an information device,
   The information device includes an information transmission / reception unit on a surface thereof.
   A transparent solid is disposed in the space between the information transmitting / receiving unit and the glass plate,
   The said transparent solid is a glass plate with an information device closely_contact | adhered to the said information transmission / reception part and the said glass plate.
7. The glass plate with an information device according to claim 6, wherein a third refractive index of the transparent solid is within ± 10% based on a second refractive index of the glass plate.
8. The glass plate with an information device according to claim 6 or 7, wherein the transparent solid has a coefficient of thermal expansion of 30 × 10 ^-5 / K or less.
9. The glass plate with an information device according to claim 6, wherein a liquid or a gel body is filled between the glass plate and the transparent solid.

Images