阅读说明：本技术 具有电子功能模块的复合玻璃质玻璃板 (Composite vitreous glass plate with electronic function module ) 是由 C·埃费尔茨 C·博托瓦 P·韦伯 于 2020-05-29 设计创作，主要内容包括：本发明涉及复合玻璃质玻璃板(1),其具有两个玻璃质-或聚合物质玻璃板(1a,1b)和至少一个在它们之间粘合的连接聚合物薄膜或连接层压体(1c),其中在复合玻璃质玻璃板(1)的部分表面区域中提供所述连接聚合物薄膜或连接层压体(1c)的凹口(1d),并且在所述凹口(1d)中安置电子功能模块(2),所述电子功能模块的厚度小于或等于所述连接聚合物薄膜或连接层压体(1c)的厚度,其中所述功能模块(2)具有电子功能元件(2c),所述电子功能元件固定在玻璃质-或聚合物质玻璃板(1a,1b)之一上的单独的薄的载体聚合物薄膜(2a)上,其中所述天线(2b)和/或导体结构印刷在载体聚合物薄膜(2a)上,所述天线(2b)和/或导体结构具有围绕功能元件(2c)的螺旋形或多角螺旋形的导线组。(The invention relates to a composite glass pane (1) comprising two glass panes (1a,1b) of a glass or polymer substance and at least one connecting polymer film or connecting laminate (1c) bonded therebetween, wherein a recess (1d) of the connecting polymer film or connecting laminate (1c) is provided in a partial surface region of the composite glass pane (1), and an electronic functional module (2) is arranged in the recess (1d), the thickness of the electronic functional module being less than or equal to the thickness of the connecting polymer film or connecting laminate (1c), wherein the functional module (2) comprises an electronic functional element (2c) which is fastened to a separate thin carrier polymer film (2a) on one of the glass panes (1a,1b) of a glass or polymer substance, wherein the antenna (2b) and/or the conductor structure is printed on the carrier polymer film (2a), the antenna (2b) and/or the conductor structure having a spiral or multi-angular spiral conductor set surrounding the functional element (2 c).)

1. A composite vitreous glass pane (1) having two vitreous or polymeric glass panes (1a,1b) and at least one connecting polymer film or connecting laminate (1c) bonded therebetween,

wherein a recess (1d) of the connecting polymer film or connecting laminate (1c) is provided in a partial surface region of the composite vitreous glass pane (1), and an electronic functional module (2) is arranged in the recess (1d), the thickness of the electronic functional module (2) being less than or equal to the thickness of the connecting polymer film or connecting laminate (1c),

wherein the functional module (2) has an electronic functional element (2c), the electronic functional element (2c) being fixed on a separate thin carrier polymer film (2a) on one of the glass plates (1a,1b) of a vitreous or polymeric substance, the carrier polymer film (2a) having in particular a thickness of 30 to 70 μm,

wherein the functional element (2c) is arranged on a carrier polymer film (2a) together with an antenna (2b) and/or a conductor structure comprising closely adjacent groups of wires,

wherein the antenna (2b) and/or the conductor structure is printed on a carrier polymer film (2a),

wherein the antenna (2b) and/or the conductor structure has a spiral or multi-angular spiral conductor set surrounding the functional element (2 c).

2. Composite vitreous pane (1) according to claim 1, wherein the electronic functional element (2c) and the antenna (2b) and/or the conductor structure are arranged completely within the recess (1 d).

3. Composite vitreous glazing panel (1) according to claim 1 or 2, wherein said functional element (2c) has a thickness greater than the antenna (2b) and/or the conductor structure.

4. Composite vitreous pane (1) according to one of claims 1 to 3, wherein the carrier polymer film (2a) is mounted directly on the vitreous-or polymeric substance glass pane (1 a).

5. Composite vitreous glass pane (1) according to one of claims 1 to 4, wherein a thin protective polymer film (2d) is arranged in the recess (1d) between the functional element (2c) and the other vitreous or polymeric glass pane (1a,1b), said protective polymer film (2d) having in particular a thickness of 30 to 70 μm, said protective polymer film (2d) preferably being mounted directly on the vitreous or polymeric glass pane (1 b).

6. Composite vitreous pane (1) according to one of claims 1 to 5, in which the functional element (2c) is formed as a humidity sensor, a light sensor, a temperature sensor, an actuator, an electronic processing or switching unit, an LCD display unit and/or an LED display unit.

7. Composite vitreous pane (1) according to claim 6, wherein the functional element (2c) is formed as a temperature sensor and wherein the antenna (2b) and/or the conductor structure is an antenna (2 b).

8. Composite vitreous pane (1) according to one of claims 1 to 7, wherein the thickness of the joining polymer film or joining laminate (1c) and of the electronic functional module (2) is less than 1.2 mm, in particular in the range from 0.6 mm to 1.0 mm.

9. Composite vitreous pane (1) according to one of claims 1 to 8, wherein the carrier polymer film (2a) is applied overlapping the connecting polymer film (1c) at the edge of the recess (1 d).

10. Composite vitreous pane (1) according to one of claims 1 to 9, wherein the recess (1d) has an area proportion of less than 10%, in particular less than 5%, of the area of the composite vitreous pane.

11. Vehicle, in particular road vehicle, having at least one composite vitreous glass pane (1) according to one of the preceding claims.

12. Method for producing a composite vitreous glass sheet (1) according to one of claims 1 to 10, comprising the following steps:

-providing a first and a second glass-or polymer substance glass plate (1a,1b),

-providing a joining polymer film or joining laminate (1c) for joining the first and second vitreous-or polymer substance glass plates, having a recess (1d) provided therein,

-providing an electronic functional element (2c) as an electronic functional module (2) on a thin carrier polymer film (2a), the shape of which matches the shape of a recess (1d) in said connecting polymer film or connecting laminate (1c), and the thickness of which is smaller than the thickness of said connecting polymer film or connecting laminate (1c), wherein an antenna (2b) and/or conductor structure comprising closely adjacent sets of wires is printed on the carrier polymer film (2a), said antenna (2b) and/or conductor structure having a helical or multi-angular helical set of wires surrounding the functional element (2c),

-placing an electronic functional element (2c) having an underlying carrier polymer film (2a) onto one surface of a first or second glass-or polymer substance glass plate (1a,1b),

-bonding said joining polymer film or joining laminate (1c) on the same surface of the first or second vitreous or polymer glass plate (1a,1b) and

-laminating the composite with the placed second vitreous-or polymeric-substance glass plate (1a,1b) to complete the composite vitreous glass plate (1).

13. A method according to claim 12, wherein the step of covering the electronic functional element (2c) with a thin protective polymer film (2d) is performed after the step of placing the electronic functional element (2c) with the underlying carrier polymer film (2a) onto the surface of the first or second vitreous-or polymeric substance glass plate (1a,1b) and adhering the connecting polymer film or connecting laminate (1 c).

14. A method according to claim 12 or 13, wherein the lamination of the composite is performed at a temperature below 120 ℃, preferably below 100 ℃.

15. The process according to one of claims 12 to 14, wherein the lamination is carried out under reduced pressure without using an autoclave for a period of 2 to 20 hours.

Embodiments of the invention are not limited to the examples described above, but are equally feasible in a number of variations within the scope of the appended claims.

List of reference numerals

1 composite vitreous glass plate

1a,1b first and second vitreous glass plates

1c bonding of polymer films (PVB films) or of laminates

1 c' unconfigured linking Polymer film

1d recesses in Polymer films

2 electronic function module

2a Carrier Polymer film

2b conductor structure (antenna wire)

2c functional element (temperature sensor)

2d protective Polymer films