CN109388180B - Intelligent wearable device - Google Patents

Abstract

The invention discloses intelligent wearable equipment, which comprises a plurality of wearable modules, and a combined battery system corresponding to each function of the intelligent wearable equipment, wherein the combined battery system comprises a battery box, at least one battery jar capable of installing a battery and the battery arranged in the battery jar are arranged in the battery box in parallel, and at least one electric quantity input interface and at least one electric quantity output interface are arranged outside the battery box; and the control unit is electrically connected with the battery box, estimates power utilization information according to the information related to the battery, is provided with a battery combination scheme, and prompts an automatic execution scheme and/or prompts a manual execution scheme. In the invention, a user can predict the electricity consumption information according to the related information of the battery to prepare a battery combination scheme, so that the electricity consumption is more reasonably utilized, and the inconvenience of equipment reuse caused by insufficient electricity or multiple batteries is avoided; the primary battery and/or the secondary battery can be used, the operation is flexible, and the operation is simple; the battery slots can be switched, so that the number of certain batteries can be increased or decreased conveniently.

Description

Intelligent wearable device

Technical Field

The invention relates to the field of wearable intelligent equipment, in particular to intelligent wearable equipment comprising an assembled battery system.

Background

Along with the development of mobile technology, people have higher and higher requirements on the portability of mobile intelligent terminals, and the appearance of wearable intelligent equipment meets the requirements of the public. However, in the prior art, once the wearable smart device is manufactured and formed, the structure of the wearable smart device is also formed, because the structure is formed, the functions of the wearable smart device are basically fixed, and when multiple functions are integrated on the same wearable device, the structure of the wearable device is more complex, which is not beneficial for users to use, and meanwhile, the multiple functions are difficult to be realized by integrating on one wearable smart device, and when a wearable smart device integrating multiple functions into a whole is designed, the structure is complex, and is not light enough, the various functions all need the support of a battery and other hardware devices, the more the functions are, the heavier the structure is, and the endurance time and the smart function of the device are affected.

In addition, with the rapid development of the smart wearable device in recent years, the cruising ability and the portability thereof are simultaneously valued by people, and people hope that the battery of the smart wearable device is durable and the gravity of the smart wearable device is not increased. After the current intelligent wearable device is molded, a battery system of the current intelligent wearable device is also molded and can not be changed. Because the weight of the battery is not low, the batteries required by some complex intelligent wearable devices with large power consumption are naturally more, and the whole weight is heavy. Such wearing devices are inconvenient to use. The weight of battery can not be changed in a flexible way to present intelligent wearing equipment, adapts to different demands, and it is inconvenient to lead to intelligent wearing equipment to be heavy or light and use time short.

In view of the above, the present invention is particularly proposed.

Disclosure of Invention

The invention aims to overcome the defects of the prior art and provide intelligent wearable equipment comprising an assembled battery system with a flexibly-equipped battery scheme.

In order to solve the technical problems, the invention adopts the technical scheme that the basic concept is as follows:

the utility model provides an intelligence wearing equipment, includes a plurality of wearing modules, corresponds each function of intelligence wearing equipment, still includes assembled battery system, assembled battery system includes

The battery box is internally provided with at least one battery jar capable of being provided with a battery and the battery arranged in the battery jar in parallel, and at least one electric quantity input interface and at least one electric quantity output interface are arranged outside the battery box;

and the control unit is used for predicting the power consumption according to the information related to the battery, providing a battery combination scheme, and prompting an automatic execution scheme and/or prompting a manual execution scheme.

Furthermore, the battery comprises a primary battery and/or a secondary battery, the battery jar comprises a primary battery jar and/or a secondary battery jar, the battery jar is electrically connected with the electric quantity output interface in a detachable mode, the primary battery jar is not electrically connected with the electric quantity input interface, and the secondary battery jar is electrically connected with the electric quantity input interface.

Furthermore, the primary battery and the secondary battery are detachably arranged in the corresponding battery grooves, and the primary battery groove and the secondary battery groove can be mutually converted through a conversion joint.

Further, the information related to the battery includes a battery type, a remaining battery capacity, information about previous similar operations and a power consumption, a time required for performing the operation, an operation type, a place where the operation is performed, and weather information and geographic information of the place.

Further, the control unit is provided with a battery combination scheme, an appropriate number of primary batteries and/or secondary batteries, and a charging scheme for the secondary batteries, according to the estimated power consumption.

Furthermore, the wearing modules of the wearing modules can be combined and connected into a whole, and are correspondingly combined and electrically connected with each other to form an independent system capable of executing corresponding functions.

Furthermore, a plurality of wearing modules include a main wearing module, other wearing modules can dismantle the connection and be in main wearing module on, the assembled battery system sets up on main wearing module, for all wearing module power supplies and be equipped with the battery scheme.

Further, a plurality of wearing modules include a main wearing module, other wearing modules can dismantle the connection and be in main wearing module on, assembled battery system includes a control unit and a plurality of battery box, control unit and a battery box setting are main wearing module and rather than the wearing module power supply of electrical connection and be equipped with the battery scheme on main wearing module, other battery box settings are for this wearing module and rather than the wearing module power supply of electrical connection and be equipped with the battery scheme on other wearing modules.

Furthermore, any two or more than two of the plurality of wearing modules can be mutually combined and connected into a whole to form an independent system capable of executing corresponding functions, and the combined battery system is arranged on the plurality of wearing modules, supplies power to the wearing modules or the wearing modules electrically connected with the wearing modules and is provided with a battery scheme.

Furthermore, any two or more than two of the plurality of wearing modules can be mutually combined and connected into a whole to form an independent system capable of executing corresponding functions, a control unit and a battery box of the combined battery system are arranged on one wearing module, the wearing module electrically connected with the wearing module is provided with the battery box, and the control unit controls the battery boxes to supply power and is provided with a battery scheme.

After the technical scheme is adopted, compared with the prior art, the invention has the following beneficial effects.

1. The electricity consumption information is estimated according to the relevant information of the battery so as to be equipped with a battery combination scheme, the electricity consumption is more reasonably utilized, and inconvenience in equipment reuse caused by insufficient electricity or multiple batteries is avoided.

2. The battery pack can use a primary battery and/or a secondary battery, is flexible, simple to operate and convenient for a user to use.

3. The battery slots can be switched, so that the number of certain batteries can be increased or decreased conveniently.

4. Simple structure, the reliability is high, and the security is high, convenient and fast.

The following describes embodiments of the present invention in further detail with reference to the accompanying drawings.

Drawings

The accompanying drawings, which are included to provide a further understanding of the invention, are incorporated in and constitute a part of this specification, illustrate embodiments of the invention and together with the description serve to explain the invention without limiting the invention to the right. It is obvious that the drawings in the following description are only some embodiments, and that for a person skilled in the art, other drawings can be derived from them without inventive effort. In the drawings:

fig. 1 is a schematic view of a battery assembly system of the present invention.

It should be noted that the drawings and the description are not intended to limit the scope of the inventive concept in any way, but to illustrate it by a person skilled in the art with reference to specific embodiments.

Detailed Description

In order to make the objects, technical solutions and advantages of the embodiments of the present invention clearer, the technical solutions in the embodiments will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and the following embodiments are used for illustrating the present invention and are not intended to limit the scope of the present invention.

In the description of the present invention, it should be noted that the terms "upper", "lower", "front", "rear", "left", "right", "vertical", "inner", "outer", etc., indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, and are only for convenience of description and simplicity of description, but do not indicate or imply that the device or element being referred to must have a particular orientation, be constructed and operated in a particular orientation, and thus, should not be construed as limiting the present invention.

In the description of the present invention, it should be noted that, unless otherwise explicitly specified or limited, the terms "mounted," "connected," and "connected" are to be construed broadly, e.g., as meaning either a fixed connection, a removable connection, or an integral connection; can be mechanically or electrically connected; may be directly connected or indirectly connected through an intermediate. The specific meanings of the above terms in the present invention can be understood in specific cases to those skilled in the art.

The following further describes embodiments of the present invention with reference to the accompanying drawings.

As shown in figure 1, the intelligent wearable device comprises a plurality of wearable modules, corresponds to each function of the intelligent wearable device, and further comprises an assembled battery system which comprises

The battery box is internally provided with at least one battery jar capable of being provided with a battery and the battery arranged in the battery jar in parallel, and at least one electric quantity input interface and at least one electric quantity output interface are arranged outside the battery box;

and the control unit is used for predicting the power consumption according to the information related to the battery, providing a battery combination scheme, and prompting an automatic execution scheme and/or prompting a manual execution scheme.

In the above scheme, a plurality of wearing modules be used for wearing respectively in the different positions of human body in order to provide the helping hand/the resistance of the different position motion of human body, and/or detect the sign information at different positions of human body, intelligence wearing equipment passes through charging system and realizes the storage of electric quantity, provides required power for it realizes corresponding function. Different functions or the same function are correspondingly realized between each wearing module and other wearing modules. Because the battery of present intelligent wearing equipment either because light live time is short, or because the live time is long battery weight overweight for intelligent wearing equipment is not nimble convenient enough to use. The combined battery system comprises a battery box and a control unit, wherein at least one battery groove is arranged in the battery box in parallel, and the primary battery and/or the secondary battery are detachably arranged in the corresponding battery grooves. The battery box is provided with electric quantity input interface and electric quantity output interface outward, and electric quantity input interface connects secondary battery, charges to secondary battery through this interface, electric quantity output interface connection battery and power consumption unit for the battery is the power supply of power consumption unit. The control unit is used for controlling the equipped battery and the use scheme of the equipped battery.

Furthermore, the battery comprises a primary battery and/or a secondary battery, the battery jar comprises a primary battery jar and/or a secondary battery jar, the battery jar is electrically connected with the electric quantity output interface in a detachable mode, the primary battery jar is not electrically connected with the electric quantity input interface, and the secondary battery jar is electrically connected with the electric quantity input interface.

In the scheme, only one-time batteries are used in the battery jar of the intelligent wearable equipment, so that the intelligent wearable equipment is convenient, simple and quick to replace, most of the one-time batteries cannot be recycled, the environment is not protected, and resources are wasted; only a secondary battery is used in a battery jar of the intelligent wearable device, and the intelligent wearable device can be charged repeatedly and used for multiple times, but the secondary battery is heavier, cannot be used when the power consumption is large for a long time and is not timely charged, and is not convenient enough; not only set up primary battery but also set up secondary battery in intelligent wearing equipment's the battery jar, both cooperate the use, are fit for various occasions. The electric quantity output interface is battery box and every battery jar all with electric quantity output interface detachable electrical connection, all can carry the electric quantity to intelligent wearing equipment, need with which battery jar and electric quantity output interface of electric connection with the electric quantity in that battery jar. The electric quantity input interface is used for transmitting electric quantity to the battery in the battery jar, and only the secondary battery jar is electrically connected with the electric quantity input interface.

Furthermore, the primary battery and the secondary battery are detachably arranged in the corresponding battery grooves, and the primary battery groove and the secondary battery groove can be mutually converted through a conversion joint.

In the above scheme, the primary battery and the secondary battery are detachably arranged to facilitate replacement and supplement of electric energy, and normal power supply can be still performed under the condition that the battery tank is not filled with the battery. The primary battery jar and the secondary battery jar can realize the conversion, and the primary battery jar can be converted into the secondary battery jar after having connected electric quantity input interface through a swivel joint electrical connection.

Further, the information related to the battery includes a battery type, a remaining battery capacity, information and a power consumption amount of previous similar operations, a time required for performing the operation, an action type, a place where the action is performed, and weather information and geographic information of the place.

In the above scheme, the information related to the battery is first to judge the basic conditions of the existing battery of the current intelligent wearable device, including the type of the existing battery, the remaining capacity of each battery, that is, whether the existing battery is a primary battery or a secondary battery, and also including the number of the existing batteries, the number of the primary batteries, and the number of the secondary batteries; the method comprises the steps of prejudging the operation according to the power consumption of the previous intelligent wearable device when the corresponding operation is executed, estimating the power consumption of the operation, and judging whether the charging is convenient in the process according to the type of the executed operation, such as piezoelectric charging, solar charging or wind power charging; further judging the electricity consumption according to the time for executing the operation; judging whether charging is convenient according to the operation type; and judging whether the charging is convenient, such as solar charging, according to the place for executing the operation and the weather information and the geographic information of the place. Other information affecting the determination of power usage and battery-equipped solutions is also included.

Further, the control unit is provided with a battery combination scheme, an appropriate number of primary batteries and/or secondary batteries, and a charging scheme for the secondary batteries, according to the estimated power consumption.

Furthermore, the wearing modules of the wearing modules can be combined and connected into a whole, and are correspondingly combined and electrically connected with each other to form an independent system capable of executing corresponding functions.

In the above scheme, each wearing module be equipped with internal circuit and electric connection point respectively, each wearing module when connecting as an organic whole through detachable construction, then the electric connection point of two wearing modules that are connected corresponds electric connection. The electric connection between the wearing modules is synchronous with the mechanical detachable connection, so that the combination of the wearing modules is simplified, the electric connection of different wearing modules is not required to be specially carried out by a user through a lead, the appearance of the whole modularized wearing equipment is simplified, and redundancy and encumbrance are avoided.

Furthermore, a plurality of wearing modules include a main wearing module, other wearing modules can dismantle the connection and be in main wearing module on, the assembled battery system sets up on main wearing module, for all wearing module power supplies and be equipped with the battery scheme.

In the above solution, the detachable structure includes a snap structure, and/or a magnetic adsorption structure, and/or a threaded connection structure. The detachable structure is not limited to the above structures, for example, two wearing modules can be connected together by a zipper. The combined battery system is arranged on the main wearable module, supplies power for all other wearable modules and is provided with a power supply scheme, a battery combination scheme and a charging scheme, and a main control system of the intelligent wearable device is further arranged on the wearable module. Because batteries are heavy and heavy, the battery combination system is generally arranged on the main wearing module for the purposes of convenient control and power saving, and the main wearing module is preferably arranged on the back, so that the back is a wearing position with lower pressure for people, the battery combination system is easy to wear and take off without bringing great pressure to a wearer and is easy to fix; also, the waist part is arranged on the waist, because the space of the waist part is large, the force is easy to be exerted, and the waist part is easy to be worn and taken off and is easy to be fixed.

Further, a plurality of wearing modules include a main wearing module, other wearing modules can dismantle the connection and be in main wearing module on, assembled battery system includes a control unit and a plurality of battery box, control unit and a battery box setting are main wearing module and rather than the wearing module power supply of electrical connection and be equipped with the battery scheme on main wearing module, other battery box settings are for this wearing module and rather than the wearing module power supply of electrical connection and be equipped with the battery scheme on other wearing modules.

In the above scheme, the control unit sets up on main wearing module, the battery box sets up on main wearing module and other several wearing modules, and the power consumption is big, and the wearing module that conveniently carries the battery all can set up the battery box, the power supply of control unit control battery box just is equipped with power supply scheme and battery combination scheme and charging scheme.

Furthermore, any two or more than two of the plurality of wearing modules can be mutually combined and connected into a whole to form an independent system capable of executing corresponding functions, and the combined battery system is arranged on the plurality of wearing modules, supplies power to the wearing modules or the wearing modules electrically connected with the wearing modules and is provided with a battery scheme.

In the above scheme, the assembled battery system includes several sets of the assembled battery system, which are respectively disposed on different wearable modules, and provide power for the wearable module or other wearable modules electrically connected to the wearable module, and a power supply scheme, a battery assembly scheme, and a charging scheme are provided. Or each wearable module is provided with an assembled battery system. The detachable structure comprises a buckle structure, and/or a magnetic adsorption structure, and/or a threaded connection structure. The detachable structure is not limited to the above structures, for example, two wearing modules can be connected together by a zipper.

Furthermore, any two or more than two of the plurality of wearing modules can be mutually combined and connected into a whole to form an independent system capable of executing corresponding functions, a control unit and a battery box of the combined battery system are arranged on one wearing module, the wearing module electrically connected with the wearing module is provided with the battery box, and the control unit controls the battery boxes to supply power and is provided with a battery scheme.

In the above scheme, the control unit of the assembled battery system is arranged on a wearable module, a battery box is also arranged on the wearable module, which is provided with the battery box electrically connected with the wearable module, and the control unit controls the battery boxes to supply power and is provided with a power supply scheme, a battery combination scheme and a charging scheme.

Example one

This embodiment provides an intelligence wearing equipment, including a plurality of wearing modules, correspond each function of intelligence wearing equipment, still include assembled battery system, assembled battery system includes

The battery box is internally provided with at least one battery jar capable of being provided with a battery and the battery arranged in the battery jar in parallel, and at least one electric quantity input interface and at least one electric quantity output interface are arranged outside the battery box;

and the control unit is electrically connected with the battery box, estimates power utilization information according to the information related to the battery, is provided with a battery combination scheme, and prompts an automatic execution scheme and/or prompts a manual execution scheme.

The battery comprises a primary battery and/or a secondary battery, the battery jar comprises a primary battery jar and/or a secondary battery jar, the battery jar is electrically connected with the electric quantity output interface in a detachable mode, the primary battery jar is not electrically connected with the electric quantity input interface, and the secondary battery jar is electrically connected with the electric quantity input interface.

The primary battery and the secondary battery are detachably arranged in the corresponding battery grooves, and the primary battery groove and the secondary battery groove can be mutually converted through a rotating joint.

The information related to the battery comprises the type of the battery, the residual electric quantity of the battery, the information and the electric quantity of the previous similar operation, the time required for executing the operation, the operation type, the place for executing the operation, and the weather information and the geographic information of the place.

The control unit is provided with a battery combination scheme, an appropriate number of primary batteries and/or secondary batteries, and a charging scheme for the secondary batteries, based on the estimated amount of power used.

The wearing modules of the wearing modules can be combined and connected into a whole, and are correspondingly combined and electrically connected with each other to form an independent system capable of executing corresponding functions.

The plurality of wearing modules include a main wearing module, other wearing modules can be dismantled and connected the main wearing module on, the assembled battery system sets up on the main wearing module, for all wearing module power supplies and be equipped with the battery scheme.

Example two

This embodiment provides an intelligence wearing equipment, including a plurality of wearing modules, correspond each function of intelligence wearing equipment, still include assembled battery system, assembled battery system includes

The battery box is internally provided with at least one battery jar capable of being provided with a battery and the battery arranged in the battery jar in parallel, and at least one electric quantity input interface and at least one electric quantity output interface are arranged outside the battery box;

and the control unit is electrically connected with the battery box, estimates power utilization information according to the information related to the battery, is provided with a battery combination scheme, and prompts an automatic execution scheme and/or prompts a manual execution scheme.

Compared with the first embodiment, the difference is that the wearing modules comprise a main wearing module, other wearing modules are detachably connected to the main wearing module, the combined battery system comprises a control unit and a plurality of battery boxes, the control unit and the battery box are arranged on the main wearing module, power is supplied to the main wearing module and the wearing module electrically connected with the main wearing module and provided with a battery scheme, and the other battery boxes are arranged on the other wearing modules, power is supplied to the wearing module and the wearing module electrically connected with the main wearing module and provided with a battery scheme.

EXAMPLE III

This embodiment provides an intelligence wearing equipment, including a plurality of wearing modules, correspond each function of intelligence wearing equipment, still include assembled battery system, assembled battery system includes

The battery box is internally provided with at least one battery jar capable of being provided with a battery and the battery arranged in the battery jar in parallel, and at least one electric quantity input interface and at least one electric quantity output interface are arranged outside the battery box;

and the control unit is electrically connected with the battery box, estimates power utilization information according to the information related to the battery, is provided with a battery combination scheme, and prompts an automatic execution scheme and/or prompts a manual execution scheme.

Compared with the first embodiment, the difference is that any two or more than two of the plurality of wearing modules can be mutually combined and connected into a whole to form an independent system capable of executing corresponding functions, and the combined battery system is arranged on the plurality of wearing modules, supplies power to the wearing modules or the wearing modules electrically connected with the wearing modules and is provided with a battery scheme.

Example four

This embodiment provides an intelligence wearing equipment, including a plurality of wearing modules, correspond each function of intelligence wearing equipment, still include assembled battery system, assembled battery system includes

The battery box is internally provided with at least one battery jar capable of being provided with a battery and the battery arranged in the battery jar in parallel, and at least one electric quantity input interface and at least one electric quantity output interface are arranged outside the battery box;

and the control unit is electrically connected with the battery box, estimates power utilization information according to the information related to the battery, is provided with a battery combination scheme, and prompts an automatic execution scheme and/or prompts a manual execution scheme.

Compared with the first embodiment, the difference is that any two or more than two of the plurality of wearable modules can be mutually combined and connected into a whole to form an independent system capable of executing corresponding functions, the control unit and the battery box of the combined battery system are arranged on one wearable module, the wearable module electrically connected with the wearable module is provided with the battery box, and the control unit controls the battery boxes to supply power and is provided with a battery scheme.

EXAMPLE five

This embodiment provides an intelligence wearing equipment, including a plurality of wearing modules, correspond each function of intelligence wearing equipment, still include assembled battery system, assembled battery system includes

The battery box is internally provided with at least one battery jar capable of being provided with a battery and the battery arranged in the battery jar in parallel, and at least one electric quantity input interface and at least one electric quantity output interface are arranged outside the battery box;

and the control unit is electrically connected with the battery box, estimates power utilization information according to the information related to the battery, is provided with a battery combination scheme, and prompts an automatic execution scheme and/or prompts a manual execution scheme.

In this embodiment, the intelligent wearable device provides resistance for sports, and is mostly used for physical training of soldiers or athletes and the like, and the intelligent wearable device is not easy to do, and is excessively cumbersome and troublesome, and also needs to be provided with a sufficient power supply due to the consideration of the operation time, the activity amount and the like. In this embodiment, before the intelligent wearable device performs an operation, the relevant information of the battery is pre-determined, and a combination scheme and a charging scheme of the type and the number of the battery are obtained according to comprehensive analysis. For example, sunny weather schedules charging at the right time in time.

EXAMPLE six

This embodiment provides an intelligence wearing equipment, including a plurality of wearing modules, correspond each function of intelligence wearing equipment, still include assembled battery system, assembled battery system includes

The battery box is internally provided with at least one battery jar capable of being provided with a battery and the battery arranged in the battery jar in parallel, and at least one electric quantity input interface and at least one electric quantity output interface are arranged outside the battery box;

and the control unit is electrically connected with the battery box, estimates power utilization information according to the information related to the battery, is provided with a battery combination scheme, and prompts an automatic execution scheme and/or prompts a manual execution scheme.

In this embodiment, the intelligent wearable device provides power for exercise, and includes an auxiliary exercise module disposed on the sole, and an auxiliary exercise module disposed on the lower leg, thigh, arm, waist, and the like. The whole intelligent wearable equipment has powerful functions, complex equipment, close contact among modules and large power consumption. Before the operation is performed, the control unit makes an analysis determination with respect to the information relating to the battery, and prepares an appropriate battery combination. For example, if 2 full charge primary batteries and 2 full charge secondary batteries are needed for 1 hour of operation, the number of batteries is increased appropriately for 2 hours or more, and if the time is decreased, the number of batteries is decreased or the combination of batteries is changed. If the operation is carried out in the sun, whether solar charging can be carried out or not can be judged in advance according to weather information, and if the auxiliary movement of the sole is more, whether piezoelectric charging is carried out or not can be judged in advance according to specific conditions.

EXAMPLE seven

This embodiment provides an intelligence wearing equipment, including a plurality of wearing modules, correspond each function of intelligence wearing equipment, still include assembled battery system, assembled battery system includes

The battery box is internally provided with at least one battery jar capable of being provided with a battery and the battery arranged in the battery jar in parallel, and at least one electric quantity input interface and at least one electric quantity output interface are arranged outside the battery box;

and the control unit is electrically connected with the battery box, estimates power utilization information according to the information related to the battery, is provided with a battery combination scheme, and prompts an automatic execution scheme and/or prompts a manual execution scheme.

In this embodiment, the automatic execution scheme and/or the manual execution scheme is prompted, and the prompting modes include voice prompting, image prompting, vibration prompting and the like.

Although the present invention has been described with reference to a preferred embodiment, it should be understood that various changes, substitutions and alterations can be made herein without departing from the spirit and scope of the invention as defined by the appended claims.

Claims (7)

1. The utility model provides an intelligence wearing equipment, includes a plurality of wearing modules, corresponds each function of intelligence wearing equipment, its characterized in that: the battery box is internally provided with at least one battery jar capable of being provided with a battery and the battery arranged in the battery jar in parallel, and the battery box is externally provided with at least one electric quantity input interface and at least one electric quantity output interface;

the control unit is electrically connected with the battery box, estimates power consumption information according to the information related to the battery, is provided with a battery combination scheme, prompts an automatic execution scheme and/or prompts a manual execution scheme, and the information related to the battery comprises the battery type, the residual electric quantity of the battery, the information and the power consumption of previous similar operations, the time required by the execution of the operation, the operation type, the place of the execution of the operation, the weather information and the geographic information of the place;

the battery comprises a primary battery and/or a secondary battery, the battery jar comprises a primary battery jar and/or a secondary battery jar, the battery jar is detachably and electrically connected with the electric quantity output interface, the primary battery jar is not electrically connected with the electric quantity input interface, and the secondary battery jar is electrically connected with the electric quantity input interface;

the control unit is provided with a battery combination scheme, an appropriate number of primary batteries and/or secondary batteries, and a charging scheme for the secondary batteries, based on the estimated amount of power used.

2. The intelligent wearable device according to claim 1, wherein: the primary battery and the secondary battery are detachably arranged in the corresponding battery grooves, and the primary battery groove and the secondary battery groove can be mutually converted through a rotating joint.

3. The intelligent wearable device according to claim 1 or 2, wherein: the wearing modules of the wearing modules can be combined and connected into a whole, and are correspondingly combined and electrically connected with each other to form an independent system capable of executing corresponding functions.

4. The intelligent wearable device according to claim 3, wherein the wearable modules include a main wearable module, other wearable modules are detachably connected to the main wearable module, and the assembled battery system is arranged on the main wearable module, supplies power to all the wearable modules and is provided with a battery scheme.

5. The intelligent wearable device according to claim 3, wherein the wearable modules include a main wearable module, and other wearable modules are detachably connected to the main wearable module, the assembled battery system includes a control unit and a plurality of battery boxes, the control unit and one battery box are disposed on the main wearable module to supply power to the main wearable module and the wearable module electrically connected thereto and are equipped with a battery scheme, and the other battery boxes are disposed on the other wearable modules to supply power to the wearable module and the wearable module electrically connected thereto and are equipped with a battery scheme.

6. The intelligent wearable device according to claim 3, wherein any two or more wearable modules of the plurality of wearable modules are connected in a mutually combinable manner to form an independent system capable of executing corresponding functions, and the combined battery system is arranged on the plurality of wearable modules, supplies power to the wearable modules or the wearable modules electrically connected with the wearable modules, and is provided with a battery scheme.

7. The intelligent wearable device according to claim 3, wherein any two or more wearable modules of the plurality of wearable modules are connected in a mutually combinable manner to form an independent system capable of executing corresponding functions, the control unit and the battery box of the combined battery system are arranged on one wearable module, the wearable module electrically connected with the wearable module is provided with the battery box, and the control unit controls the battery boxes to supply power and is provided with a battery scheme.

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