CN204089320U - Wearable electronic equipment and Wearable electronic equipment system - Google Patents

Abstract

The utility model discloses a kind of Wearable electronic equipment and Wearable electronic equipment system, magnetic induction coil, rectification circuit and energy-storage module is provided with in Wearable electronic equipment, magnetic induction coil cutting magnetic line produces induced current, described induced current rectification is converted to direct current by rectification circuit, direct current is stored in energy-storage module, and energy-storage module is powered at described Wearable electronic equipment and runs; Wearable electronic equipment system comprises permanent magnet and above-mentioned Wearable electronic equipment.The life cycle that Wearable electronic equipment of the present utility model and system can improve Wearable electronic equipment takes off with reducing the number of times carrying out charging.

Description

Wearable electronic equipment and Wearable electronic equipment system

Technical field

The utility model relates to Wearable electronic equipment field, particularly relates to a kind of Wearable electronic equipment, Wearable electronic equipment control method and system.

Background technology

Wearable electronic equipment is that application wearable technology carries out intelligentized design to daily wearing, develops the general name of the equipment that can dress, as dress ornaments such as ring, glasses, gloves, wrist-watch, shoes and hats, wherein be provided with processor, various transducer, communication part, can also comprise display module etc.And the Wearable electronic equipment of broad sense comprise function complete, smart mobile phone can not be relied on realize function that is complete or part, such as intelligent watch or intelligent glasses etc., and be only absorbed in a certain class application function, need and miscellaneous equipment as smart mobile phone with the use of, carry out the Intelligent bracelet of sign monitoring, intelligent jewellery etc. as all kinds of.Along with the progress of technology and the transition of user's request, the form of Wearable electronic equipment and application focus are also in continuous change.

Wearable electronic equipment in use, the experience of user can be improved, the data providing people to need in daily life and application, but also there is certain difficulty, the supply of electric energy is exactly one of its maximum difficulty, because the volume discomfort of Wearable electronic equipment is fit to do greatly, so the memory capacity of power storage module is wherein restricted, the capacity of power storage module is little, cause Wearable electronic equipment life cycle short, electricity deficiency needs to charge frequently, if may cause the inaccurate situation of measurement data to occur simultaneously.So improve the electric power supply of Wearable electronic equipment, making its life cycle elongated is the problem needing to solve.

Utility model content

Main purpose of the present utility model is for providing a kind of Wearable electronic equipment and the Wearable electronic equipment system with Blast Furnace Top Gas Recovery Turbine Unit (TRT).

In order to realize foregoing invention object, the utility model proposes a kind of Wearable electronic equipment in implementing, be provided with magnetic induction coil, rectification circuit and energy-storage module in this Wearable electronic equipment, magnetic induction coil connects rectification circuit, and rectification circuit connects energy-storage module;

Described magnetic induction coil is when it moves external magnets relatively, cutting magnetic line produces induced current, described induced current rectification is converted to direct current by rectification circuit, and direct current is stored in energy-storage module, and energy-storage module is powered at described Wearable electronic equipment and runs.

Further, described energy-storage module comprises accumulator, and this accumulator is provided with the ultracapacitor for storage of electrical energy.

Further, described energy-storage module comprises charging circuit and rechargeable battery, and charging circuit is electrically connected with rechargeable battery;

Described charging circuit is electrically connected with described rectification circuit, and the direct current that rectification circuit exports is stored in rechargeable battery by charging current.

Further, described energy-storage module comprises accumulator, charging circuit and rechargeable battery, and accumulator is electrically connected with charging circuit, and charging circuit is electrically connected with rechargeable battery;

Described accumulator is provided with the ultracapacitor for storage of electrical energy, and the direct current that rectification circuit exports is stored in ultracapacitor by accumulator, and the electric energy in ultracapacitor passes through charging circuit unloading in rechargeable battery.

Further, described Wearable electronic equipment is ring-type.

A kind of Wearable electronic equipment system is also provided in the utility model embodiment, comprises Wearable electronic equipment and at least one permanent magnet,

Be provided with magnetic induction coil, rectification circuit and energy-storage module in described Wearable electronic equipment, magnetic induction coil connects rectification circuit, and rectification circuit connects energy-storage module;

When described permanent magnet and Wearable electronic equipment are moved mutually, the magnetic line of force motion of magnetic induction coil cutting permanent magnet produces induced current, described induced current rectification is converted to direct current by rectification circuit, direct current is stored in energy-storage module, and energy-storage module is powered at described Wearable electronic equipment and runs.

Further, described energy-storage module comprises accumulator, and this accumulator is provided with the ultracapacitor for storage of electrical energy.

Further, described energy-storage module comprises charging circuit and rechargeable battery, and charging circuit is electrically connected with rechargeable battery;

Described charging circuit is electrically connected with described rectification circuit, and the direct current that rectification circuit exports is stored in rechargeable battery by charging current.

Further, described energy-storage module comprises accumulator, charging circuit and rechargeable battery, and accumulator is electrically connected with charging circuit, and charging circuit is electrically connected with rechargeable battery;

Described accumulator is provided with the ultracapacitor for storage of electrical energy, and the direct current that rectification circuit exports is stored in ultracapacitor by accumulator, and the electric energy in ultracapacitor is by charging circuit unloading and rechargeable battery.

Further, described Wearable electronic equipment is ring-type, and described permanent magnet is that ring-type or permanent magnet are arranged on ring.

The beneficial effects of the utility model are: in Wearable electronic equipment, arrange magnetic induction coil, make it can produce induced current when cutting magnetic line, thus provide electric energy to Wearable electronic equipment, without the need to taking off Wearable electronic equipment, directly order about induction coil and permanent magnet relative motion by limb motion, coil cutting magnetic line generates electricity, charge to Wearable electronic equipment, improve life cycle and the minimizing of Wearable electronic equipment or avoid taking off and charge, improving the experience of user; In Wearable electronic equipment system, provide permanent magnet, permanent magnetic field can be provided by use permanent magnet at any time, facilitate the charging of Wearable electronic equipment to use.

Accompanying drawing explanation

Fig. 1 is the structural representation of the utility model Wearable electronic equipment one embodiment;

Fig. 2 is the structural representation of another embodiment of the utility model Wearable electronic equipment;

Fig. 3 is the structural representation of the another embodiment of the utility model Wearable electronic equipment;

Fig. 4 is the structural representation of the utility model Wearable electronic equipment system;

Fig. 5 is the schematic diagram of the control method of the utility model Wearable electronic equipment system.

The realization of the utility model object, functional characteristics and advantage will in conjunction with the embodiments, are described further with reference to accompanying drawing.

Embodiment

Should be appreciated that specific embodiment described herein only in order to explain the utility model, and be not used in restriction the utility model.

With reference to Fig. 1, a kind of Wearable electronic equipment 1 is proposed in the utility model embodiment, this Wearable electronic equipment 1 generally comprises the electronic device of the routines such as the transducer 50 of processor of single chip computer 40, display module 60 and various function, magnetic induction coil 10, rectification circuit 20 and energy-storage module is also provided with in described Wearable electronic equipment 1, magnetic induction coil 10 is electrically connected rectification circuit 20, and rectification circuit 20 is electrically connected energy-storage module; Magnetic induction coil 10 is when it moves external magnets relatively, cutting magnetic line produces induced current, described induced current rectification is converted to direct current by rectification circuit 20, and direct current is stored in energy-storage module, and energy-storage module is powered at described Wearable electronic equipment 1 and runs.Magnetic induction coil 10 is set in Wearable electronic equipment 1, make it can produce induced current when cutting magnetic line, thus provide electric energy to Wearable electronic equipment 1, when Wearable electronic equipment 1 in use, without the need to taking off Wearable electronic equipment 1, but directly can order about coil cutting magnetic line by limb motion and generate electricity, thus charge to Wearable electronic equipment 1, the life cycle and the minimizing that improve Wearable electronic equipment 1 are even avoided taking off charging, and improve the experience of user.

Wearable electronic equipment of the present utility model in one embodiment, above-mentioned energy-storage module comprises accumulator, this accumulator is provided with the ultracapacitor 31 for storage of electrical energy, ultracapacitor 31 is a kind of Novel energy storage apparatus, it has charging interval short, the feature such as long service life, good temp characteristic, energy savings and environmental protection, and produce fast in magnetic induction coil 10, the induced current that changes can be collected storage by ultracapacitor 31.In the present embodiment, the capacity of ultracapacitor 31 is between 0.1 farad to 1 farad, can select according to concrete Wearable electronic equipment 1, if Wearable electronic equipment 1 is a kind of sensing ring, so can its consumed power little, can select the ultracapacitor 31 of 0.2 farad of capacity, if Wearable electronic equipment 1 is a kind of music or video player etc., power consumption is bigger, and this can select the ultracapacitor 31 of 1 farad of capacity.

With reference to Fig. 2, in another embodiment, above-mentioned energy-storage module comprises charging circuit 32 and rechargeable battery 33 to Wearable electronic equipment of the present utility model, and charging circuit 32 is electrically connected with rechargeable battery 33; Described charging circuit 32 is electrically connected with described rectification circuit 20, and the direct current that rectification circuit 20 exports is stored in rechargeable battery 33 by charging current.In the present embodiment, the storage tool of electric energy is the use of rechargeable battery 33, rechargeable battery 33, facilitates user change and safeguard, and the velocity of discharge of rechargeable battery 33 is slow, and the life cycle of Wearable electronic equipment 1 is long.

With reference to Fig. 3, in another embodiment, above-mentioned energy-storage module comprises accumulator, charging circuit 32 and rechargeable battery 33 to Wearable electronic equipment of the present utility model, and accumulator is electrically connected with charging circuit 32, and charging circuit 32 is electrically connected with rechargeable battery 33; Described accumulator is provided with the ultracapacitor 31 for storage of electrical energy, and the direct current that rectification circuit 20 exports is stored in ultracapacitor 31 by accumulator, and the electric energy in ultracapacitor 31 passes through charging circuit 32 unloading in rechargeable battery 33.In the present embodiment, super capacitor and rechargeable battery 33 are combined, both can improve charging rate, the life cycle that can improve again Wearable electronic equipment 1 is long.In charging process, ultracapacitor 31 completes charging fast, then electric discharge at the uniform velocity, and the electricity of at the uniform velocity releasing is filled with in rechargeable battery 33 through overcharge circuit 32, and at the uniform velocity charging can improve the useful life of rechargeable battery 33.

In the various embodiments described above, Wearable electronic equipment is ring-type, can be worn on the arm of human body, ankle, finger are first-class, as can the physiology pin ring of the various physiological signal of human body, and the sensing ring etc. of human body heart rate.

With reference to Fig. 4, a kind of Wearable electronic equipment system is also provided in the utility model embodiment, comprise Wearable electronic equipment 1 and at least one permanent magnet 2, magnetic induction coil 10, rectification circuit 20 and energy-storage module is provided with in described Wearable electronic equipment 1, magnetic induction coil 10 is electrically connected rectification circuit 20, and rectification circuit 20 is electrically connected energy-storage module; When described permanent magnet 2 moves mutually with Wearable electronic equipment 1, the magnetic line of force motion that magnetic induction coil 10 cuts permanent magnet 2 produces induced current, described induced current rectification is converted to direct current by rectification circuit 20, direct current is stored in energy-storage module, and energy-storage module is powered at described Wearable electronic equipment 1 and runs.Wearable electronic equipment 1 system in the utility model embodiment, in use, what Wearable electronic equipment 1 and permanent magnet 2 are worn on respectively human body can the position of relative motion, the right arm that pedometer on arm or sphygmomanometer are worn on human body is worn on as a kind of, so can the pedometer on corresponding for permanent magnet 2 right arm or sphygmomanometer be arranged on the clothes of right flank, or directly provide a kind of left and right sides to be provided with the clothes of permanent magnet 2, human body in routine duties or run in, pedometer or sphygmomanometer are along with the swing of arm, relative permanent magnet 2 moves, thus make magnetic induction coil 10 cutting magnetic line movement in the Wearable electronic equipment such as sphygmomanometer or pedometer 1, generation induced electromotive force generates electricity.

Wearable electronic equipment system of the present utility model in one embodiment, above-mentioned energy-storage module comprises accumulator, this accumulator is provided with the ultracapacitor 31 for storage of electrical energy, ultracapacitor 31 is a kind of Novel energy storage apparatus, it has charging interval short, the feature such as long service life, good temp characteristic, energy savings and environmental protection, and produce fast in magnetic induction coil 10, the induced current that changes can be collected storage by ultracapacitor 31.In the present embodiment, the capacity of ultracapacitor 31 is between 0.1 farad to 1 farad, can select according to concrete Wearable electronic equipment 1, if Wearable electronic equipment 1 is a kind of sensing ring, so can its consumed power little, can select the ultracapacitor 31 of 0.2 farad of capacity, if Wearable electronic equipment 1 is a kind of music or video player etc., power consumption is bigger, and this can select the ultracapacitor 31 of 1 farad of capacity.

In one embodiment, above-mentioned energy-storage module comprises charging circuit 32 and rechargeable battery 33 to Wearable electronic equipment system of the present utility model, and charging circuit 32 is electrically connected with rechargeable battery 33; Described charging circuit 32 is electrically connected with described rectification circuit 20, and the direct current that rectification circuit 20 exports is stored in rechargeable battery 33 by charging current.In the present embodiment, the storage tool of electric energy is the use of rechargeable battery 33, rechargeable battery 33, facilitates user change and safeguard, and the velocity of discharge of rechargeable battery 33 is slow, and the life cycle of Wearable electronic equipment 1 is long.

In one embodiment, above-mentioned energy-storage module comprises accumulator, charging circuit 32 and rechargeable battery 33 to Wearable electronic equipment system of the present utility model, and accumulator is electrically connected with charging circuit 32, and charging circuit 32 is electrically connected with rechargeable battery 33; Described accumulator is provided with the ultracapacitor 31 for storage of electrical energy, and the direct current that rectification circuit 20 exports is stored in ultracapacitor 31 by accumulator, and the electric energy in ultracapacitor 31 passes through charging circuit 32 unloading in rechargeable battery 33.In the present embodiment, super capacitor and rechargeable battery 33 are combined, both can improve charging rate, the life cycle that can improve again Wearable electronic equipment 1 is long.In charging process, ultracapacitor 31 completes charging fast, then electric discharge at the uniform velocity, and the electricity of at the uniform velocity releasing is filled with in rechargeable battery 33 through overcharge circuit 32, and at the uniform velocity charging can improve the useful life of rechargeable battery 33.

Wearable electronic equipment system of the present utility model in one embodiment, above-mentioned Wearable electronic equipment 1 is ring-type, described permanent magnet 2 is arranged on ring for ring-type or permanent magnet 2, in one embodiment, Wearable electronics is sensing ring, permanent magnet 2 makes the pattern of ring equally, in use, sensing ring and permanent magnet 2 ring are worn on the same area on the adjacent finger on the same hand, the relative motion of finger, magnetic induction coil 10 in sensing ring will generate electricity by cutting magnetic line movement, certainly on the finger of the both sides of sensing ring, permanent magnet 2 ring has all been worn, improve magnetic field intensity, and then improve the energy output of magnetic induction coil 10.In another specific embodiment, Wearable electronic equipment 1 is sensing pin ring, permanent magnet 2 is pin ring, when in use, respectively sensing pin ring and permanent magnet 2 pin ring are worn on the pin ring of bipod, when walking, in sensing pin ring, magnetic induction coil 10 will cut the magnetic field that permanent magnet 2 pin ring provides, and then generates electricity.

Wearable electronic equipment system of the present utility model, provides supporting permanent magnet 2, can provide magnetic field by use permanent magnet 2 at any time, facilitates the charging of Wearable electronic equipment 1 to use.

In the utility model embodiment, the setting of the magnetic induction coil in Wearable electronic equipment 1, general meeting designs according to the use habit of Wearable electronic equipment 1, as the magnetic induction coil in sensing ring is arranged on the lateral location of sensing ring, namely sensing ring is when dressing, magnetic induction coil is arranged in the crack of two fingers, magnetic induction coil towards then need consider move in magnetic field time, magnetic induction coil can do the vertical magnetic force line motion of limits, maximum induced electromotive force can be obtained like this, stronger rechargeable energy is provided.

With reference to Fig. 5, a kind of control method of Wearable electronic equipment is also provided in the utility model embodiment, this electronic equipment can be provided with magnetic induction coil 10, rectification circuit 20 and energy-storage module, and magnetic induction coil 10 is electrically connected rectification circuit 20, and rectification circuit 20 is electrically connected energy-storage module; Magnetic induction coil 10 is when it moves external magnets relatively, cutting magnetic line produces induced current, described induced current rectification is converted to direct current by rectification circuit 20, and direct current is stored in energy-storage module, and energy-storage module is powered at described Wearable electronic equipment 1 and runs.

The control method of above-mentioned Wearable electronic equipment can comprise step:

The change of the induced electromotive force that S1, the magnetic induction coil 10 gathering Wearable electronic equipment produce, and the generation of induced electromotive force comprises: when magnetic induction coil 10 and magnet move mutually, the magnetic line of force motion that magnetic induction coil 10 cuts magnet produces.The change of induced electromotive force comprises the change of the intensity of induced electromotive force, direction and/or frequency; The mode gathering induced electromotive force is simple, and such as induction coil gathers the intensity of induced electromotive force, determines the intensity of induced electromotive force, direction and frequency etc. according to the change of the voltage of coil.

S2, change according to induced electromotive force, corresponding operation is obtained from default contrast list, in Wearable electronic equipment, be preset with the condition triggering described operation, when the change of the induced electromotive force collected matches with the trigger condition contrasted in list that prestores, then trigger described operation, as in one embodiment, Wearable electronics is sensing ring, magnetic field is provided by permanent magnet ring, in use, sensing ring and permanent magnet ring are worn on the same area on the adjacent finger on the same hand, multiple trigger condition is prestored in sensing ring, such as wherein a certain trigger condition be sensing ring induced electromotive force at the appointed time in continuous transformation 3 times, so user can by wear sensing ring and permanent magnet ring finger at the appointed time in relative motion 3 times, because the direction of magnetic induction coil cutting magnetic line is different, so corresponding change can be there is in the positive and negative values of induced electromotive force, so this trigger condition will be triggered.If in order to prevent misoperation, also with the trigger condition action of composite design, as the combination etc. of frequency and intensity, wherein, when magnetic field is certain, the speed of magnetic coil cutting magnetic line is faster, and induced electromotive force is larger, that is the movement velocity of Wearable electronic equipment is larger, and induced electromotive force is larger.

S3, perform described operation, operation described in the present embodiment can be that the data upload that Wearable electronic equipment collected is to host computer, also can be start/close Wearable electronic equipment, or be the time etc. changing Wearable electronic equipment image data.

In one embodiment, Wearable electronic equipment is sensing ring, transducer ring arranges magnetic induction coil, sensing ring gathers the induced electromotive force that magnetic induction coil produces, the trigger condition of various operation is preset with in sensing ring, and set up contrast list, wherein trigger condition refers to that sensing ring gathers the various changes of specifying of the induced electromotive force that magnetic induction coil produces; The change of the induced electromotive force collected is mated with the trigger condition in contrast list by sensing ring, if the match is successful, then triggers corresponding trigger condition, makes it complete once-through operation.As controlled the operation of Wearable electronic equipment uploading data to host computer, corresponding trigger condition is that the quick continuous print of intensity of the induced electromotive force that magnetic induction coil produces converts five times, the trigger condition of this uploading data so will be set in contrast list, the quick continuous print of intensity collecting induced electromotive force when sensing ring converts five times, so will search the trigger condition whether having coupling in contrast list, result is the trigger condition that there is coupling in contrast list, so sensing ring will trigger the condition of uploading data, completes the operation of data upload.

Wearable electronic equipment in the control method of the Wearable electronic equipment described in above-described embodiment can be arbitrary a kind of Wearable electronic equipment in the various embodiments described above.

The control method of Wearable electronic equipment of the present utility model, trigging control instruction is without the need to button, and handled easily, controls flexibly.

The foregoing is only preferred embodiment of the present utility model; not thereby the scope of the claims of the present utility model is limited; every utilize the utility model specification and accompanying drawing content to do equivalent structure or equivalent flow process conversion; or be directly or indirectly used in other relevant technical fields, be all in like manner included in scope of patent protection of the present utility model.

Claims (8)

1. a Wearable electronic equipment, is characterized in that,

Be provided with magnetic induction coil, rectification circuit and energy-storage module in described Wearable electronic equipment, magnetic induction coil connects rectification circuit, and rectification circuit connects energy-storage module;

Described magnetic induction coil is when it moves external magnets relatively, cutting magnetic line produces induced current, described induced current rectification is converted to direct current by rectification circuit, and direct current is stored in energy-storage module, and energy-storage module is powered at described Wearable electronic equipment and runs.

2. Wearable electronic equipment according to claim 1, is characterized in that, described energy-storage module comprises accumulator, and this accumulator is provided with the ultracapacitor for storage of electrical energy.

3. Wearable electronic equipment according to claim 1, is characterized in that, described energy-storage module comprises charging circuit and rechargeable battery, and charging circuit is electrically connected with rechargeable battery;

Described charging circuit is electrically connected with described rectification circuit, and the direct current that rectification circuit exports is stored in rechargeable battery by charging current.

4. Wearable electronic equipment according to claim 1, is characterized in that, described energy-storage module comprises accumulator, charging circuit and rechargeable battery, and accumulator is electrically connected with charging circuit, and charging circuit is electrically connected with rechargeable battery;

Described accumulator is provided with the ultracapacitor for storage of electrical energy, and the direct current that rectification circuit exports is stored in ultracapacitor by accumulator, and the electric energy in ultracapacitor passes through charging circuit unloading in rechargeable battery.

5. the Wearable electronic equipment according to any one of claim 1-4, is characterized in that, described Wearable electronic equipment is ring-type.

6. a Wearable electronic equipment system, is characterized in that, comprises Wearable electronic equipment and at least one permanent magnet,

Magnetic induction coil, rectification circuit and energy-storage module is provided with, magnetic induction coil electrical connection rectification circuit, rectification circuit electrical connection energy-storage module in described Wearable electronic equipment;

When described Wearable electronic equipment and permanent magnet move mutually, the magnetic line of force motion of magnetic induction coil cutting permanent magnet produces induced current, described induced current rectification is converted to direct current by rectification circuit, direct current is stored in energy-storage module, and energy-storage module is powered at described Wearable electronic equipment and runs.

7. Wearable electronic equipment system according to claim 6, is characterized in that, the Wearable electronic equipment of described Wearable electronic equipment according to any one of claim 2-4.

8. the Wearable electronic equipment system according to any one of claim 6 or 7, is characterized in that, described Wearable electronic equipment is ring-type, and described permanent magnet is that ring-type or permanent magnet are arranged on ring.