CN212965635U - Rechargeable intelligent glasses - Google Patents

Abstract

The utility model is suitable for the intelligent wearing field, and provides a rechargeable intelligent glasses, which comprises a rope body used as a neck hanging line and an intelligent glasses body internally provided with a functional circuit, wherein the intelligent glasses body comprises a glasses frame, a first glasses leg and a second glasses leg; the rope body is provided with a battery assembly, a charging interface and a battery management module for charging the battery assembly; one end of the rope body is connected with the first glasses leg, and the other end of the rope body is connected with the second glasses leg, so that the rope body and the intelligent glasses body form a closed loop shape; the inside wire that is equipped with of rope body, battery pack pass through wire and the inside functional circuit electric connection of intelligent glasses body. The utility model provides a chargeable intelligent glasses have the rope body that can be used as hanging the neck line, change the weight of battery part into by neck position burden, and the burden on the bridge of the nose of the person of wearing or the ear alleviates, is difficult to drop, and it is more comfortable to wear the sense, also makes things convenient for more that increase battery capacity perhaps with the battery design for more suitable shape in order to improve duration.

Description

Rechargeable intelligent glasses

Technical Field

The utility model belongs to intelligence field of dressing especially relates to a chargeable intelligent glasses.

Background

Currently, wearable products such as smart glasses come out endlessly and have been gradually applied in different fields, bringing unprecedented technological experience to consumers in general. However, the smart glasses consume electricity quickly and often need to be charged frequently. Generally speaking, batteries of existing smart glasses are generally integrated at the temple of the glasses at both sides or the bridge of the nose in the middle of the glasses, and are limited by the internal space structure of the smart glasses, and the batteries need to be customized into a special shape, so that the cost is high, the battery capacitance is small, and the cruising ability is poor; in addition on the one hand, because of the inside charge management circuit board that has integrateed of intelligent glasses, further increased intelligent glasses's weight, the user wears the comfort level relatively poor. If the user is the myopia glasses person of wearing, then lead to glasses to drop easily after intelligent glasses and the superposition of myopia glasses, it is comparatively inconvenient to use.

At present, most of products are charged in a mode of additionally connecting a USB cable, common charging interfaces comprise Mini-USB and Micro-USB, and the like, but no matter which interface is used for charging, the charging interfaces are required to be arranged on glasses legs or other parts through holes, so that the glasses legs become thicker and the weight becomes heavier inevitably.

And, the very fast needs of intelligence glasses power consumption frequently charge, if increase battery capacity, then the glasses leg will be thicker, and weight still can further increase, is not convenient for wear more.

SUMMERY OF THE UTILITY MODEL

The utility model discloses the technical problem that will solve for how improve duration when alleviateing the weight of intelligent glasses, the user of being convenient for wears.

In order to solve the technical problem, the utility model discloses a rechargeable intelligent glasses, including the rope body that is used as hanging the neck line and the intelligent glasses body that is built-in with functional circuit, the intelligent glasses body includes picture frame, first mirror leg, second mirror leg;

the rope body is provided with a battery assembly, a charging interface and a battery management module for charging the battery assembly, and the battery management module is electrically connected between the charging interface and the battery assembly;

one end of the rope body is connected with the first glasses leg, and the other end of the rope body is connected with the second glasses leg, so that the rope body and the intelligent glasses body form a closed loop shape; the inside wire that is equipped with of rope body, battery pack passes through the wire with the inside functional circuit electric connection of intelligence glasses body.

Furthermore, the battery assembly comprises a main battery and a backup battery, and the main battery and the backup battery are both electrically connected with the battery management module.

Furthermore, a main battery bin and a standby battery bin are arranged on the rope body, the main battery bin is used for containing the main battery, and the standby battery bin is used for containing the standby battery.

Further, the battery management module and the charging interface are arranged on the standby battery bin.

Furthermore, the rope body comprises a first rope body section, a second rope body section and a third rope body section, wherein conducting wires are arranged in the first rope body section, the second rope body section and the third rope body section; the first rope section is connected between the first glasses leg and the first end of the standby battery bin, and a built-in wire is electrically connected with the battery management module; the second rope body section is connected between the second glasses leg and the first end of the main battery bin, and a built-in lead is electrically connected with the battery management module; the third rope section is connected between the second end of the standby battery bin and the second end of the main battery bin, and a built-in lead is electrically connected between the main battery and the battery management module.

Further, the wire outside of first rope body section with the wire outside of second rope body section all wraps up and has moulded the layer softly, memory metal skeleton is arranged in to the wire of third rope body section, memory metal skeleton's outside parcel has the layer softly to mould.

Furthermore, a charging indicator lamp is arranged on the standby battery bin, and the charging indicator lamp is electrically connected with the battery management module.

Furthermore, an electric quantity monitoring circuit is arranged on the first glasses leg and is electrically connected with the battery management module through a wire of the first rope body section.

Furthermore, be equipped with the electric quantity pilot lamp on the first mirror leg, it with electric quantity monitoring circuit electric connection.

Furthermore, the second glasses leg is provided with the functional circuit and a glasses switch; the functional circuit is electrically connected with the battery management module through the lead of the second rope body section; the glasses switch is connected to a circuit between the main battery and the battery management module and used for controlling the on-off of a power supply circuit of the main battery.

The utility model provides a chargeable intelligent glasses have the rope body that can be used as hanging the neck line to set up battery pack and battery management module and the interface that charges on the rope body, the weight of this part changes into by neck position burden, makes the burden on the bridge of the nose of the person of wearing or the ear alleviate, and intelligent glasses are difficult to drop, and it is more comfortable to wear the sense. And because the weight of the battery part is changed into the burden of the neck, the capacity of the battery is more conveniently increased or the battery is designed into a more appropriate shape so as to improve the cruising ability.

Drawings

Fig. 1 is a diagram of a rechargeable smart glasses according to the present invention;

fig. 2 is a circuit block diagram of the rechargeable smart glasses according to the present invention.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more clearly understood, the present invention is further described in detail below with reference to the accompanying drawings and embodiments. It should be understood that the specific embodiments described herein are merely illustrative of the invention and are not intended to limit the invention.

The utility model provides a chargeable intelligent glasses, this chargeable intelligent glasses are structural including the rope body and intelligent glasses body from the appearance, and wherein, the rope body is used as hanging the neck line, and the intelligent glasses body then embeds there are some functional circuits, like bluetooth module, miniature camera, microphone etc. for chargeable intelligent glasses possess functions such as shoot, audio and video conversation, bluetooth map navigation even. Fig. 1 and fig. 2 are a real object diagram and a circuit module diagram of the rechargeable smart glasses provided by the present invention, please refer to fig. 1 and fig. 2 together, the smart glasses body includes a frame 101, a first glasses leg 102 and a second glasses leg 103, and the functional circuit can be set at any position on the frame 101, the first glasses leg 102 and the second glasses leg 103 according to the requirement. Be equipped with battery pack on the rope body, still be equipped with the interface 104 that charges and be used for carrying out the battery management module 105 that charges to this battery pack, battery management module 105 electric connection is in the interface 104 that charges and between this battery pack. The charging interface 104 may be Micro USB, Mini USB, or other interface such as Type C, depending on the actual situation. The battery management module 105 may perform voltage reduction and current limiting on the power input from the charging interface 104, and then may charge the battery assembly.

As can be seen from fig. 1, one end of the string body is connected with the first temple 102, and the other end is connected with the second temple 103, so that the string body and the smart glasses body form a closed loop shape. And be equipped with the wire in the rope is internal, this battery pack passes through the inside functional circuit electric connection of wire and intelligent glasses body. For the design convenience with wear, the both ends of the rope body are connected to the end of first mirror leg 102 and second mirror leg 103 respectively, and the inside wire of the rope body also is through the end of first mirror leg 102 and second mirror leg 103 and the functional circuit electric connection of intelligent glasses body. It should be understood that "end" in the present invention refers to the end substantially near the temple, and is not limited to a particular location.

Of course, both ends of the rope body can also be connected to the middle positions of the first temple 102 and the second temple 103 or even the lens frame 101, and the wires inside the rope body are also electrically connected with the functional circuit of the intelligent glasses body through the middle positions of the first temple 102 and the second temple 103 or the lens frame 101, and can also be used normally.

It should be noted that the term "connection" in this specification refers to physical connection of non-circuit conductive layers, and may be fixed connection, detachable connection, or connection when pluggable, as long as the two parts can be connected together. The term "electrical connection" refers to the connection of conductive layers of a circuit, and electrical signals and data signals can be transmitted between two parts which are "electrically connected".

Through being in the utility model provides an add the rope body that can be used as hanging the neck line on chargeable intelligent glasses to set up battery pack and battery management module 105 and the interface 104 that charges on the rope body, the weight of this part changes into by neck position burden, makes the burden on the bridge of the nose of the person of wearing or the ear alleviate, and intelligent glasses are difficult to drop, and it is more comfortable to wear the sense. And because the weight of the battery part is changed into the burden of the neck, the capacity of the battery is more conveniently increased or the battery is designed into a more appropriate shape so as to improve the cruising ability.

As an implementation, for the electric energy that the normal work of the rechargeable intelligent glasses of guarantee needs, the utility model provides a battery pack includes stand-by battery 106 and main battery 107, stand-by battery 106 and main battery 107 all with battery management module 105 electric connection. Battery management module 105 may charge backup battery 106 and main battery 107 simultaneously. The size and shape of the main battery 107 can be selected in a variety of ways, so that the capacity of the main battery 107 can be conveniently increased, and the cruising ability can be improved. When the main battery 107 is used for supplying power, electric devices of the whole rechargeable intelligent glasses are supplied with power by the main battery 107 for a long time, such as a bluetooth module, a micro camera, a microphone and the like, so that the basic functions of the intelligent glasses are realized, and when the electric quantity of the main battery 107 is insufficient, the electric devices are supplied with power by the standby battery 106.

Further, as shown in fig. 1, a standby battery compartment 108 and a main battery compartment 109 are disposed on the rope body, the main battery compartment 109 is used for accommodating the main battery 107, and the standby battery compartment 108 is used for accommodating the standby battery 106. In appearance, the spare battery compartment 108 and the main battery compartment 109 are thicker than other parts of the rope body due to the placement of batteries, and are similar to the wire control part on the earphone.

As an example, the battery management module 105 and the charging interface 104 in fig. 1 are disposed on the auxiliary battery compartment 108, and the battery management module 105 is electrically connected to the auxiliary battery 106 and the main battery 107 through wires inside the rope. Of course, part or all of the battery management module 105 and the charging interface 104 may be disposed on the main battery compartment 109.

On the basis of the backup battery compartment 108 and the main battery compartment 109, referring to fig. 1, the rope body further includes a first rope segment 110, a second rope segment 111, and a third rope segment 112, and the first rope segment 110, the second rope segment 111, and the third rope segment 112 are all provided with wires therein. The specific connection relationship is as follows: the first rope segment 110 is connected between the first temple 102 and the first end of the backup battery compartment 108, and a built-in wire is electrically connected with the battery management module 105; the second rope segment 111 is connected between the second temple 103 and the first end of the main battery compartment 109, and the built-in wire is electrically connected with the battery management module 105; the third rope segment 112 is connected between the second end of the backup battery compartment 108 and the second end of the main battery compartment 109, and the built-in wire is electrically connected between the main battery 107 and the battery management module 105.

The three rope body sections can form a closed loop shape with the standby battery bin 108, the main battery bin 109 and the intelligent glasses body after being connected in the mode, when the intelligent glasses are used, the standby battery bin 108, the main battery bin 109, the battery assembly and the like can be hung at the neck of a user along with the rope body, and the weight of the part is borne by the neck.

When the rope is used, the whole rope body is hung at the neck through the third rope body section 112, in order to improve the comfort, a conducting wire of the third rope body section 112 can be placed in a memory metal framework, and a soft plastic layer is wrapped outside the memory metal framework. The wire outside of the first rope segment 110 and the wire outside of the second rope segment 111 are only wrapped by the soft plastic layer.

Further, a charging indicator light 113 is disposed on the backup battery compartment 106, the charging indicator light 113 is electrically connected to the battery management module 105, and the charging indicator light 113 can display one color, such as red, when the main battery 107 is not fully charged, and display another color or go out when the main battery is fully charged. The charge indicator lamp 113 may include two indicator lamps for indicating the charge states of the main battery 107 and the auxiliary battery 106, respectively, but generally, the capacity of the main battery 107 is larger than the capacity of the auxiliary battery 106, and the auxiliary battery 106 may be fully charged before the main battery 17, so that only one indicator lamp may be used to indicate the charge state of the main battery 107.

Further, the first arm 102 is further provided with an electric quantity monitoring circuit 114, and the electric quantity monitoring circuit 114 is electrically connected to the battery management module 105 through a wire of the first rope segment 110, and is used for monitoring the remaining electric quantity of the main battery 107. Furthermore, a power indicator 115 may be disposed on the first arm 102, and the power indicator 115 is electrically connected to the power monitoring circuit 114 for indicating the remaining power of the main battery 107. As an example, the power monitoring circuit 114 and the power indicator light 115 are disposed at the end of the first temple 102 in fig. 1, but may be disposed at other positions as needed.

The electric quantity monitoring circuit 114 monitors the electric quantity of the main battery 107 at any time through the internal leads of the first rope segment 110, the battery management module 105 and the third rope segment 112, controls the electric quantity indicator lamp 115 to display the number of the indicator lamps to indicate the residual electric quantity of the main battery 107, and informs the battery management module 105 to control the standby battery 106 to supply power when the residual electric quantity is lower than a certain threshold value, and controls the electric quantity indicator lamp 115 to flash and alarm in a preset mode to remind a user of charging the main battery 107. Because the backup battery 106 is fully charged, the smart glasses can still be used for a long time under practical conditions, which further improves the endurance of the glasses.

The battery management module 105 and the electric quantity monitoring circuit 114 can be implemented by selecting a low power consumption module, and enter a low power consumption standby mode and a monitoring mode when the main battery 107 is not charged, thereby saving electric energy.

Further, a functional circuit 116 and a glasses switch 117 are disposed on the second temple, and the functional circuit 116 is electrically connected to the battery management module 105 through a wire of the second cord body segment 111. The glasses switch 117 is connected to a line between the main battery 107 and the battery management module 105, and can be implemented by a light touch switch, and is used for controlling the on-off of a power supply line of the main battery 107, and when the glasses switch 117 is not used, the power supply loop of the main battery 107 can be actively cut off. As an example, the functional circuit 116 and the glasses switch 117 are disposed at the end of the second temple 103 in fig. 1, but may be disposed at other positions as needed.

Finally, the first temple 102 may be a left temple corresponding to a left ear, or may be a right temple corresponding to a right ear, and the second temple 103 is also the same, that is, the electric quantity monitoring circuit 114, the electric quantity indicator light 115, the function circuit 116, and the glasses switch 117 may be located on the left temple, or may be located on the right temple, and the design positions may be flexibly adjusted as needed.

The above description is only exemplary of the present invention and should not be taken as limiting the scope of the present invention, as any modifications, equivalents, improvements and the like made within the spirit and principles of the present invention are intended to be included within the scope of the present invention.

Claims (10)

1. The rechargeable intelligent glasses are characterized by comprising a rope body used as a neck hanging line and an intelligent glasses body internally provided with a functional circuit, wherein the intelligent glasses body comprises a glasses frame, first glasses legs and second glasses legs;

the rope body is provided with a battery assembly, a charging interface and a battery management module for charging the battery assembly, and the battery management module is electrically connected between the charging interface and the battery assembly;

one end of the rope body is connected with the first glasses leg, and the other end of the rope body is connected with the second glasses leg, so that the rope body and the intelligent glasses body form a closed loop shape; the inside wire that is equipped with of rope body, battery pack passes through the wire with the inside functional circuit electric connection of intelligence glasses body.

2. The rechargeable smart eyewear of claim 1 wherein the battery assembly comprises a primary battery and a backup battery, both the primary battery and the backup battery being electrically connected to the battery management module.

3. The rechargeable smart eyeglasses according to claim 2, wherein the cord body is provided with a main battery compartment and a backup battery compartment, the main battery compartment is used for accommodating the main battery, and the backup battery compartment is used for accommodating the backup battery.

4. The rechargeable smart eyewear of claim 3, wherein the battery management module and the charging interface are disposed on the backup battery compartment.

5. The rechargeable smart eyewear of claim 4, wherein the cord body comprises a first cord body segment, a second cord body segment, and a third cord body segment, wherein a wire is disposed within each of the first cord body segment, the second cord body segment, and the third cord body segment;

the first rope section is connected between the first glasses leg and the first end of the standby battery bin, and a built-in wire is electrically connected with the battery management module;

the second rope body section is connected between the second glasses leg and the first end of the main battery bin, and a built-in lead is electrically connected with the battery management module;

the third rope section is connected between the second end of the standby battery bin and the second end of the main battery bin, and a built-in lead is electrically connected between the main battery and the battery management module.

6. The rechargeable smart glasses according to claim 5, wherein the wire of the first rope segment and the wire of the second rope segment are wrapped with soft plastic layers, the wire of the third rope segment is disposed in a memory metal frame, and the memory metal frame is wrapped with soft plastic layers.

7. The pair of rechargeable smart glasses according to any one of claims 3 to 6, wherein a charging indicator light is disposed on the backup battery compartment, and the charging indicator light is electrically connected to the battery management module.

8. The rechargeable smart eyewear of any of claims 5-6 wherein the first temple has a charge monitoring circuit electrically connected to the battery management module via a wire of the first tether segment.

9. The rechargeable smart eyewear of claim 8, wherein a power indicator is disposed on the first temple and electrically connected to the power monitoring circuit.

10. The chargeable smart eyewear of any of claims 5-6 wherein the functional circuitry and eyewear switch are disposed on the second temple;

the functional circuit is electrically connected with the battery management module through the lead of the second rope body section;

the glasses switch is connected to a circuit between the main battery and the battery management module and used for controlling the on-off of a power supply circuit of the main battery.

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