阅读说明：本技术 用于智能眼镜的包括电子器件的单个单元 (Single unit comprising electronics for smart eyewear ) 是由 米凯尔·埃里克森 丹尼尔·埃里克森 乔纳斯·埃里克森 弗雷德里克·汉森 于 2020-02-20 设计创作，主要内容包括：一种一体化的单个单元,包括用于智能眼镜的部件,并将被设置在眼镜中,所述单个单元包括设置在pcb上的至少一个cpu、至少一个传感器和至少一个电池,当位于眼镜中时,所述单个单元通过镜架至少从第一脚丝,至少经过第一镜片,一直到达第二镜片,其中,第一镜片位置最靠近镜架中的第一脚丝,第二镜片位置最靠近第二脚丝；优选地,所述单个单元还经过所述第二镜片,并且优选地进一步到达所述第二脚丝。单个单元包括至少一个铰链,当位于眼镜中时,将在第一脚丝和镜架中设置至少一个铰链,并且单个单元是一体化的。一种制作一副包括单个单元的醋酸酯智能眼镜的方法。一种在包括电子部件的单个单元中替换电子器件的方法。(An integrated single unit comprising components for smart eyewear and to be disposed in the eyewear, the single unit comprising at least one cpu, at least one sensor and at least one battery disposed on a pcb, the single unit passing through a frame from at least a first temple wire, through at least a first lens, and to a second lens when disposed in the eyewear, wherein the first lens is located closest to the first temple wire in the frame and the second lens is located closest to the second temple wire; preferably, said single unit also passes said second lens and preferably further reaches said second temple. The single unit includes at least one hinge that, when positioned in the eyewear, would be provided in the first temple and the frame, and is unitary. A method of making a pair of acetate smart lenses comprising a single unit. A method of replacing an electronic device in a single unit comprising electronic components.)

1. An integrated single unit comprising components for composing smart glasses and intended to be placed in a pair of glasses, said integrated single unit comprising at least one central processor cpu, at least one sensor and at least one battery provided on a printed circuit board pcb, said single unit, when placed in said pair of glasses, passing at least from a first temple through at least a first lens through a frame to a second lens, preferably said single unit also passing through said second lens and preferably further into a second temple, wherein said first lens is located closest to said first temple in said frame and said second lens is located closest to said second temple; wherein the single unit of integration includes at least one hinge that would be provided in the first temple and the frame when placed in the pair of eyeglasses.

2. The single unit of claim 1, wherein two of the hinges are disposed between the respective temple and the frame.

3. The single unit of any preceding claim, wherein the pcb is integral.

4. The single unit as claimed in any one of the preceding claims, wherein at least one encapsulated electronic component is placed in at least one of said temples, wherein said at least one encapsulated electronic component is waterproof and dustproof.

5. The single unit of claim 1, wherein said single unit is positionable in said frame and at least one of said temples, comprising smart glasses.

6. The single unit of claim 6, wherein the single unit is capable of being disposed in the pair of eyeglasses, or in at least one recess in the frame and at least one of the temples, by molding or injection molding.

7. The single unit of claim 7, wherein the single unit is attached in the pair of eyeglasses by heating the material around the recess.

8. A pair of smart glasses, comprising an integrated single unit as claimed in any one of the preceding claims.

9. A method of making a pair of acetate smart glasses comprising the integrated single unit of claim 1, the method characterized by the steps of: recesses corresponding to the size of the integrated single unit are made in the frame and at least one temple, and the single unit is placed in the corresponding recesses and attached.

10. The method of claim 9, comprising the steps of: to attach the individual units, attachment is made by melting the acetate.

11. A method of replacing an electronic device according to the integrated single unit of any of the preceding claims 1-7, characterized in that it comprises the steps of: attaching the single unit in a pair of eyeglasses, wherein the single unit has a hard shell attached therein holding an interior portion comprising electronics embedded by attachment in a resilient material disposed in place in the hard shell.

Technical Field

The invention provides a solution for manufacturing smart glasses and a single unit comprising electronics for smart glasses.

Background

The goal of producing smart glasses has been going on for years, but still always creates many problems, such as how to provide a connection between the frame and the temple, and how to fit the different components in something that works as a pair of smart glasses.

To date, there has been no solution to the problem of how to make a pair of glasses into smart glasses in a way that enables a typical glasses manufacturer to produce smart glasses.

Disclosure of Invention

The object of the present invention is to provide a possibility to perform the above-mentioned operations.

According to a first aspect of the present invention, an integrated single unit is provided. A single unit comprising the components for composing the smart glasses and intended to be placed in a pair of glasses, said single unit in one piece comprising at least one central processing unit (cpu) arranged on a printed circuit board (pcb), at least one sensor and at least one battery, said single unit, when placed in said pair of glasses, passing at least from a first temple wire through at least a first lens through a frame to a second lens, preferably said single unit also passing through said second lens and preferably further to a second temple wire, wherein said first lens is located closest to said first temple wire in said frame and said second lens is located closest to said second temple wire.

The single unit includes at least one hinge that will be disposed in the first temple and the frame when placed in the pair of eyeglasses, and is unitary.

Advantageously, all of the components required to make a pair of smart glasses are provided in a single unit which is integrated. This greatly simplifies the production of smart eyewear. Through this hinge, glasses will be able to be located the position of use when the temple is transversely oriented to the mirror holder to be located the position of accomodating when the temple is parallel to the mirror holder. Once the single unit is accessed between the first and second temple wires by the frame, the two hinges are placed between the respective temple wires and the frame. Preferably the hinge is of the type shown in WO 2018/084772 owned by the same assignee, which minimises any mechanical wear on any connected parts, such as electrical or optical cables.

According to one embodiment, the printed circuit board, pcb, is integral.

According to one embodiment, at least one packaged electronic component is placed in at least one of the temple wires, wherein the at least one packaged electronic component is waterproof and dustproof. In general spectacle production, the production place is not very clean, and further, it is advantageous for smart spectacles to have encapsulated electronic components when they are to be used.

According to one embodiment, said single unit is positionable in said frame and in at least one of said temple wires, constituting smart glasses.

According to one embodiment, said single unit can be provided in said pair of glasses, or in at least one recess in said frame and at least one of said temple wires, by moulding or injection moulding.

According to one embodiment, the single unit is attached in the pair of spectacles by heating the material surrounding the recess. Other methods of attaching the individual units to the recesses are: for example, the material surrounding the recess is heated, an adhesive, an attachment, a rivet or a threaded connection is used, or a mixture of techniques is used.

According to a second aspect of the invention, a method of making a pair of acetate smart glasses comprising an integrated single unit is provided. Recesses corresponding to the dimensions of the integrated individual units are made in the frame and in the at least one temple. Then, the individual units are disposed in the respective recesses and attached. By this method, it is possible to produce eyeglasses of any design and make them into smart eyeglasses in a simple and efficient manner, without affecting the overall design of the eyeglasses. This provides the eyeglass designer with design freedom. For example, in order to attach a single unit including an electronic component, attachment may be performed by melting acetate. Other methods of attaching a single unit including electronic components in a recess are: for example, using adhesives, riveting or screwing.

According to a third aspect of the invention, in accordance with any of the preceding embodiments, a pair of smart glasses comprises an integrated single unit.

According to a fourth aspect of the present invention, there is provided a method of replacing an electronic device according to the present invention, the electronic device being an electronic device in an integrated single unit. Attaching the single unit in a pair of eyeglasses, wherein the single unit has a hard shell attached therein, holding an interior portion comprising electronics embedded by attachment in a resilient material disposed in place in the hard shell, and the hard shell is disposed in a pair of eyeglasses, while the electronics in the single unit can be removed and replaced.

Drawings

The present application will be described in detail with reference to the following drawings, in which:

FIG. 1 shows an inside perspective view of an integrated single cell embodiment.

Figure 2 shows an inside perspective view of an alternative embodiment of the integrated single unit.

Fig. 3 shows an outside perspective view of the alternative embodiment of the integrated single unit.

Fig. 4 shows an embodiment of the integrated single unit suitable for inductive charging.

Fig. 5 shows a view from the inside perspective of the alternative embodiment of the integrated single unit of fig. 3 with a pair of lenses.

Fig. 6 shows a cross-sectional view of an embodiment of a single unit with embedded electronics made of a housing and an elastic material.

Detailed Description

As shown in fig. 1, in one embodiment of the invention, an integrated single unit comprises an electronic device 1. The individual units 1 are integrated (in one piece). A single unit 1 comprises the components for making up the smart glasses and is to be placed in a pair of glasses 2, as shown in fig. 4. The single unit 1 comprises at least one Central Processing Unit (CPU), at least one sensor and at least one battery arranged on a printed circuit board (pcb). Preferably, more sensors, possible charging sockets such as micro USB interfaces, possible switches, etc. are provided in a single unit 1.

The single unit 1 in fig. 1 has a first end 8 and a portion 10, which is preferably an encapsulated portion 10 comprising electronic components. The encapsulated electronic device portion is waterproof and dustproof. Further, the single unit 1 has a centre sill portion 12, preferably more or less transversely oriented from the first portion 10. Preferably, the single unit 1 comprises a hinge 11 arranged between the first portion 10 and the centre beam portion 12 of the single unit 1, the first portion 10 being the encapsulated electronics portion 10 in the case shown.

When placed in a pair of eyeglasses 2, the single unit 1 has a first end 8 and a first portion 10 and the single unit passes at least from the first temple wire 3 to the frame 4 with the bridge portion 12 passing over the first lens 5 located closest to the first temple wire 3 in the frame 4 and at least to the second lens 6 located closest to the second temple wire 7 having a second end 9 of the single unit 1, see fig. 4.

In the embodiment shown in fig. 1, the PCB13 is also integrated by means of the hinge 11. Preferably, the hinge 11 is of the type shown in WO 2018/084772 (incorporated herein) owned by the same assignee, which minimizes any mechanical wear of any connected parts, such as PCBs, electrical cables or optical cables. The hinge 11 may have two axis connections, a first axis connection 20a located closest to the frame 4 and a second axis connection 20b located closest to the temple 3, with at least one central portion 21 disposed therebetween, so that at least one cable, PCB or wire passes through the hinge 11 along what is considered a central curve, see fig. 2.

Fig. 2 shows another embodiment of a single unit 1 according to the invention. Likewise, the single unit 1 is integral and comprises the components for making up the smart glasses and is to be placed in a pair of glasses 2, as shown in fig. 4.

The single unit 1 in fig. 2 has a first end 8 and a portion 10, the portion 10 preferably being an encapsulated portion 10 comprising electronic components. The packaged electronic part 10 is waterproof and dustproof. Further, the single unit 1 has a centre sill portion 12, preferably more or less transversely oriented from the first portion 10. The second portion 14 is also preferably encapsulated, being oriented more or less transversely from the central beam portion 14 and parallel to the first portion 10.

Preferably, the single unit 1 has a first hinge 11 and a second hinge 11, the first hinge 11 being disposed between the first portion 10 and the centre sill portion 12 of the single unit 1, the second hinge 11 being disposed between the centre sill portion 12 and the second portion 14 of the single unit 1.

When placed in a pair of eyeglasses 2, the single unit 1 has a first end 8 and a first portion 10 and the single unit passes at least from the first temple wire 3 to the frame 4 with the bridge portion 12 passing over the second lens 6 located closest to the second temple wire 7 and the second portion 14 reaching the second temple wire 7 with the second end 9 of the single unit 1, see fig. 4.

The single unit 1 comprises at least one Central Processing Unit (CPU), at least one sensor and at least one battery arranged on a printed circuit board (pcb). Preferably, more sensors, possible charging sockets such as micro USB or USB C interfaces, possible switches, etc. are provided in a single unit 1. The different electronic components can be divided into two parts, a first part 10 and a second part 14.

According to one embodiment, the portion may include a battery and other majority of the electronics, including the cpu. In the embodiment shown in fig. 2, a mini-usb interface 15 for charging the single unit 1 is provided in the second section 14, close to the second end 9. Further, a switch 16 is shown in the second portion 14. The at least one opening 17 may be located in the vicinity of at least one sensor arranged in the first part 10 or the second part 14.

In fig. 3, the embodiment of fig. 2 is shown in the reverse direction. In this view, the pcb13 is shown along the entire centre sill part 12 and passing through the first hinge 11 between the centre sill part 12 and the first part 10. Obviously, the pcb may be arranged in other ways, for example on the other side of or in the centre sill part 12.

Also in the embodiment shown in fig. 3, the pcb13 is preferably made integral by means of a hinge 11. Preferably, the hinge 11 is of the type shown in WO 2018/084772 owned by the same assignee, which minimizes any mechanical wear of any connected parts, such as PCBs, electrical cables or optical cables.

It is also conceivable to have chargeable smart glasses, in particular, the at least one battery being charged by means of inductive charging, wherein the single unit comprising the electronic device 1 further comprises at least one rim 22 arranged around the at least one lens 5. An embodiment of a rim surrounding two lenses is shown in fig. 4. This technique of the patentee has been incorporated in the embodiment shown in figure 4 and has been patented, for more details see WO 2018/084772 (incorporated herein).

The mirror ring may have wires or printed circuits in the structure, such as pcb13 shown in fig. 4. If the wire is a round straight cord winder wire of steel or copper, a substantially structurally stable element for eyeglasses will be formed. If the rim 22 is a printed circuit, the pcb13 may have a portion surrounding at least one lens 5. Preferably, the printed circuit is a multilayer circuit. The printed circuit may be flexible or rigid depending on the type of substrate on which it is printed.

In fig. 5, a single unit 1 comprising electronics is placed in a pair of spectacles 2. The single unit 1 may be provided in said lens 2 by casting or by injection moulding the single unit 1 in a mould before adding the polymer. According to another embodiment, the frame 4 has at least in part a recess, in this embodiment both the two temple wires 3 and 7 have a recess which preferably corresponds almost to the size of the single unit 1, so that the single unit 1 can be located in said recess.

The individual units 1 may be attached to a pair of eyeglasses by heating the material around the pockets to fuse the material around the individual units, using adhesives, attachments, rivets or screws, or one or more of the exemplary techniques may be used.

A cross-sectional view of an embodiment of a single unit 1 comprising electronics is shown in a sectional view of a part 10, which is to be placed in a leg wire, see fig. 6. The hard cover 23 comprises an attachment piece 19 and a resilient cover or insert 18 comprising electronics, e.g. pcb13, the pcb13 will fit within the attachment piece 19, e.g. in an undercut shape.

Thus, the embedded electronics of the single unit 1 remain in the recess, but can also be removed, for example, if upgraded electronics are available and the wearer wants to keep the pair of spectacles but upgrade the single unit 1, it is possible to replace the electronics of the single unit 1. Thus, the single unit 1 including the electronic device embedded in the elastic material held in the housing 23 of the single unit can be integrally provided and sold to the eyeglass manufacturer, but has an advantage of easy replacement in the case where the electronic device needs to be upgraded.

As mentioned above, the individual units 1 may be combined in a number of ways. It is contemplated to use different techniques for the different sections, for example, if the temple wires are acetate and the frame is metal, in which case it would be possible to make recesses in the temple wires for the first section 10 and the second section 14 and then attach the bridge section to the frame by threading or gluing.

The individual units 1 comprising the electronic device may comprise supporting metal, either more flexible or partly inflexible and partly flexible.