CN205489581U - A wearable apparatus - Google Patents

Abstract

The utility model discloses a wearable apparatus, include the body, reach the electricity and connect in the group battery of body, be provided with the battery compartment on the body, the battery compartment has at least one hatch opening that is located body surface department, the group battery includes two batteries, two batteries all are connected with the battery compartment is detachable, and the battery that wherein is located the battery compartment is first battery, and the battery that is located the battery compartment outer is the second battery, first battery, second battery all are the batteries that can repeatedly charge and recycle. Because first battery detachably installs in the battery compartment, when a battery low, can take out through the hatch opening first battery in the battery compartment, make its and body separation, simultaneously install reserve second battery and supply power for the body to the battery compartment in, thereby can realize the power supply that lasts to the body, the defect of avoiding causing the time of wearing to reduce and monitor the interrupted time overlength because of charging for a long time, guarantee that a wearable apparatus lasts the monitoring to the user, guarantee the integrality of monitoring data.

Description

A kind of wearable device

Technical field

This utility model relates to intelligence wearable technology field, particularly relates to a kind of wearable device.

Background technology

The feature that wearable device self is light and handy, cling to the body, allow it become health exchanges with the world one be more suitable for carrier.Intelligence wearable device is that application wearable technology carries out intelligentized design, develops the general name of the equipment that can dress daily wearing.The application of intelligence wearable device is the most extensive at present；On the one hand, one of feature of intelligence wearable device is compact, it is simple to wear, and this feature causes intelligence wearable device battery volume little, and corresponding capacity is the least；On the other hand, the wearable device feature carried next to the skin, cause it is desirable to 24 hours every days can body-worn, this requires that intelligence wearable device needs continual power supply to power.

The battery of intelligence wearable device of the prior art includes two kinds: built-in and changeable type.

Built-in is that battery is built in inside intelligence wearable device, non-dismountable, is charged by the way of wired or wireless.The program is primarily present following shortcoming: 1. can only be taken by intelligence wearable device in charging process, it is impossible to body-worn 2. is when dead battery, it is necessary to carry with charger and also near possess power supply guarantee not power-off.

Changeable type is that battery is arranged on wearable device is dismountable, and battery is disposable, can not repeatedly charge, and realizes continuing power supply by the way of changing battery.This kind of scheme the most only uses on the intelligent wearable device that a small amount of power consumption is little, battery button cell the most disposable, non-rechargeabel.The program has the disadvantage that: 1. change cell process and need power-off, affect the lasting use of user；2. the not reproducible use of battery 3. is suitable only for the intelligent wearable device of low-power consumption.

Utility model content

Technical problem to be solved in the utility model is, it is provided that a kind of wearable device, it is possible to avoid reducing wear time and the use of avoidance breakout wearable device because of charging.

In order to solve above-mentioned technical problem, embodiment of the present utility model provides a kind of wearable device, including body and the set of cells that is electrically connected to described body；Being provided with battery compartment on described body, described battery compartment has at least one and is positioned at the Hatch Opening at described body surface；

Described set of cells includes two batteries；Two described batteries are all detachable with described battery compartment to be connected, and the battery being wherein positioned at described battery compartment is the first battery, and being positioned at the battery outside described battery compartment is the second battery；Described first battery, described second battery are all the batteries that repeatable charging cycle uses；

In described set of cells, the first battery or the second battery are assembled to battery compartment by described Hatch Opening.

Wherein, described first battery is electrically connected to described body；When described first battery be in described battery compartment separation process in time, described set of cells and described body are maintained at status of electrically connecting, to ensure described body continued power.

Wherein, described wearable device also includes that door, described door are the opening and closing structures being assemblied in described Hatch Opening, and described door covers in closed state on described Hatch Opening, and is connected with the outer surface of described body, forms the main body outward appearance of described wearable device.

Wherein, described wearable device also includes battery tray, is installed in described battery tray described first battery-disassembled, and described battery tray is assemblied in described battery compartment.

Wherein, described wearable device also includes elastic auto-locked mechanism, described elastic auto-locked mechanism is installed in described battery compartment, and described elastic auto-locked mechanism is connected to described first battery, for described first battery lock and being ejected from battery compartment by described first battery in described battery compartment.

Wherein, described set of cells also includes reserve battery, ON-OFF control circuit and is unidirectionally controlled circuit；

Described reserve battery and described ON-OFF control circuit are all fixedly installed in described body；Described ON-OFF control circuit is connected to described reserve battery, between described first battery and described body, for controlling described reserve battery, the break-make of circuit between described both first batteries and described body；

When described ON-OFF control circuit is in channel status, the circuit between described first battery and described body disconnects, and described body is powered by the circuit communication between described reserve battery and described body；

When described ON-OFF control circuit is in off state, the circuit between described reserve battery and described body disconnects, and described body is powered by the circuit communication between described first battery and described body；

Described being unidirectionally controlled is electrically connected between described reserve battery and described first battery；

When described backup battery voltage is less than the voltage of described first battery, described in be unidirectionally controlled circuit turn-on, described first battery pass through described in be unidirectionally controlled circuit and charge to described reserve battery；

When described backup battery voltage is equal to or higher than the voltage of described first battery, described in be unidirectionally controlled circuit and disconnect, open circuit between described first battery and described reserve battery.

Wherein, described Hatch Opening is two, the respectively first Hatch Opening and the second Hatch Opening, and described first Hatch Opening and the second Hatch Opening lay respectively at the two ends that described battery compartment is relative；Being provided with electrode contact band on described battery compartment inwall, described electrode contact band is at least two, and the electrode contact band of described at least two is arranged on described battery compartment the same side inwall or is separately positioned on described battery compartment not homonymy inwall；Described electrode contact band all extends at described second Hatch Opening at described first Hatch Opening, and described electrode contact band electrically connects with described body；

Described first battery and described second battery are all slidably connected to described electrode contact band；

When described second battery is slid into first position by described first Hatch Opening in described battery compartment, described first battery is electrically connected to described electrode contact band, and described second battery electrically insulates with described electrode contact band；

When described second battery is slid into second position by described first Hatch Opening in described battery compartment, described first battery and described second battery are all connected to described electrode contact band；

When described second battery is slid into three positions by described first Hatch Opening in described battery compartment, described second battery electrically connects with described electrode contact band, and described first battery electrically insulates with described electrode contact band；

When described first battery slides into the 4th position, and described first battery skids off from described second Hatch Opening.

Wherein, the inwall of described battery compartment being provided with slideway, described electrode contact band is arranged on described slideway.

Wherein, the glide direction of described first battery and described second battery is vertical or parallel to the thickness direction of described first battery.

Wherein, any one during described wearable device is bracelet, bracelet, bangle, wrist-watch, ring, earrings, ear nail, glasses, the helmet, glove, footwear, medicated clothing, dress ornament, socks, medicated cap, belt, underwear, muffler, earphone, armlet, wrister and knee cap.

The wearable device that this utility model embodiment provides, the first battery being positioned at battery compartment is that body is powered, due to the first battery roll be installed in battery compartment, when the first battery electric quantity deficiency, first battery can be taken out in battery compartment by Hatch Opening, it is made to separate with body, the second standby battery is installed and is powered for body to battery compartment, by quick-replaceable battery, avoid because long-time charging causes the defect that wear time reduces and the monitoring break period is long, convenient use, ensure that user is continued to monitor by wearable device, ensure the integrity of Monitoring Data.

Accompanying drawing explanation

In order to be illustrated more clearly that this utility model embodiment or technical scheme of the prior art, the accompanying drawing used required in embodiment or description of the prior art will be briefly described below, apparently, accompanying drawing in describing below is only embodiments more of the present utility model, for those of ordinary skill in the art, on the premise of not paying creative work, it is also possible to obtain other accompanying drawing according to these accompanying drawings.

Fig. 1 is the structural representation of the wearable device that this utility model first embodiment provides；

Fig. 2 is the structural representation of the wearable device that this utility model the second embodiment provides；

Fig. 3 is the structural representation of the wearable device that this utility model the 3rd embodiment provides；

Fig. 4 is the circuit connection diagram of wearable device in Fig. 3；

Fig. 5 is the structural representation of the wearable device that this utility model the 4th embodiment provides；

Fig. 6 is the circuit connection diagram in Fig. 5 in wearable device replacing cell process；

Fig. 7 is that in Fig. 5, wearable device is changed in cell process and to be coordinated schematic diagram between the first battery and the second battery and slideway；

Fig. 8 is the structural representation of the slideway of wearable device in Fig. 5；

Fig. 9 is the structural representation of the wearable device that this utility model the 5th embodiment provides；

Figure 10 is the slideway of wearable device and the structural representation of electrode contact band in Fig. 9.

Detailed description of the invention

Below in conjunction with the accompanying drawing in this utility model embodiment, the technical scheme in this utility model embodiment is clearly and completely described.

Embodiment one:

Seeing Fig. 1, a kind of wearable device 100 provided for preferred embodiment in this utility model, including body 110 and the set of cells that is electrically connected to body 110.Set of cells is utilized can body 110 to be powered.As preferably, the face shaping of body 110 is annular.Wherein, wearable device 100 can be any one in bracelet, bracelet, bangle, wrist-watch, ring, earrings, ear nail, glasses, the helmet, glove, footwear, medicated clothing, dress ornament, socks, medicated cap, belt, underwear, muffler, earphone, armlet, wrister and knee cap etc..As it is shown in figure 1, the present embodiment illustrates as a example by wearable device is as wrist-watch.

Being provided with battery compartment 111 on body 110, battery compartment 111 has at least one Hatch Opening 112 being positioned at body 110 surface；Set of cells includes two batteries 121；Two batteries 121 are all detachable with battery compartment 111 to be connected.The shape of two batteries 121, size and structure are the most identical, and for the ease of describing, the battery being positioned at battery compartment 111 in two pieces of batteries 121 is the first battery, and being positioned at the battery outside battery compartment 111 is the second battery；First battery, the second battery are all the batteries that repeatable charging cycle uses.Herein, it should be noted that, first battery and the second battery are only the name carrying out two identical batteries, first battery and the second battery are not invariable, but can mutually convert, after the first battery takes out from battery compartment, the first battery is it is believed that be converted into the second battery, after the second battery is encased in battery compartment, it is believed that the second cells convert is for the first battery.

Hatch Opening 112 is positioned at battery compartment 111 outer surface, and in set of cells, the first battery or the second battery are assembled to battery compartment 111 by Hatch Opening 112.

In use, only one of which battery 121 is positioned in battery compartment 111, the first battery being i.e. positioned at battery compartment 111 is that body 110 is powered, due to the first battery roll be installed in battery compartment 111, when the first battery electric quantity deficiency, first battery can be taken out in battery compartment 111 by Hatch Opening 112, it is made to separate with body 110, the second standby battery is installed and is powered for body 110 to battery compartment 111, by quick-replaceable battery, avoid because long-time charging causes the defect that wear time reduces and the monitoring break period is long, convenient use, ensure that user is continued to monitor by wearable device, ensure the integrity of Monitoring Data.

In the present embodiment, Hatch Opening 112 is one, and wearable device also includes door 113, door 113 is the opening and closing structure being assemblied in Hatch Opening 112, door 113 covers in closed state on Hatch Opening 112, and is connected with the outer surface of body 110, forms the main body outward appearance of wearable device.Under the normal service condition of wearable device; door 113 is in closure state; door 113 and body 110 are collectively forming the main body outward appearance of wearable device; utilize door 113 so that wearable device monnolithic case is attractive in appearance; internal battery can be formed protective effect simultaneously; avoid dust entrance and abrasion etc., it is ensured that battery-powered reliability.

As preferably, Hatch Opening 112 and door 113 are arranged on the inner surface of body 110, to avoid impacting overall appearance moulding.Herein, in other embodiments, Hatch Opening 112 and door 113 can also be arranged on two side surfaces of body.

As preferably, Hatch Opening 113 rotates and is arranged on body 110, is realized the open and close of door 113 by the rotation of Hatch Opening 113.Herein, in other embodiments, door may be also secured on battery, and after battery is encased in battery compartment, door covers on Hatch Opening, thus is closed by battery compartment, and when taking out battery, door can be removed from the body together with battery.

Embodiment two:

As in figure 2 it is shown, in the wearable device 200 that this utility model the second embodiment provides, including body 210 and the set of cells that is electrically connected to body 210.Being provided with battery compartment (not shown) on body 210, battery compartment has at least one Hatch Opening 212 being positioned at body 210 surface；Set of cells includes two batteries 121；Two batteries 121 are all detachable with battery compartment to be connected.The shape of two batteries, size and structure are the most identical, and for the ease of describing, the battery being positioned at battery compartment in two pieces of batteries 121 is the first battery, and the battery being positioned at outside battery compartment is the second battery；First battery, the second battery are all the batteries that repeatable charging cycle uses.In set of cells, the first battery or the second battery are assembled to battery compartment by Hatch Opening 212.

Further, wearable device 200 also includes battery tray 130, is installed in battery tray 130 the first battery-disassembled, and battery tray 130 is assemblied in battery compartment.Utilize battery tray 130, the first battery can be conveniently realized and be connected with the detachable of battery compartment.Battery tray 130 is slidably arranged in battery compartment, and battery tray 130 can skid off at Hatch Opening 212.When the first battery changed by needs, first battery tray 130 can be skidded off from battery compartment, then carry out the replacing of the first battery.Utilize the battery tray 130 slip in battery compartment, the size of Hatch Opening 212 can be reduced, it is simple to processing preparation, make the good looking appearance of wearable device simultaneously.

Wearable device 200 also includes elastic auto-locked mechanism (not shown), elastic auto-locked mechanism is installed in battery compartment, elastic auto-locked mechanism is connected to battery tray 130, for battery tray 130 being locked in battery compartment and can battery tray 130 be ejected from battery compartment.Elastic auto-locked mechanism can use each class formation that can realize elastic auto-locked in prior art, when battery tray 130 is positioned in battery compartment, click battery tray 130, battery tray 130 can be ejected from battery compartment by the elasticity utilizing elastic auto-locked mechanism, after changing the first battery, click battery tray 130 again, utilize the self-locking structure of elastic auto-locked mechanism again battery tray 130 to be locked in battery compartment, consequently facilitating the replacing of the first battery.

Herein, in other embodiments, battery tray 130 can be not provided with, elastic auto-locked mechanism is installed in battery compartment, and elastic auto-locked mechanism is directly connected in the first battery, utilize elastic auto-locked mechanism directly the first battery lock and can be ejected from battery compartment by the first battery in battery compartment, at this point it is possible to arrange door as identical in first embodiment.In use, door can be opened, click the first battery, elasticity the first battery utilizing elastic auto-locked mechanism ejects from battery compartment, after being replaced by the second battery, clicking the second battery utilizes the self-lock ability of elastic auto-locked mechanism by battery lock in battery compartment, thus can realize the replacing of battery.

Embodiment three:

As shown in Figures 3 and 4, the wearable device 300 that this utility model the 3rd embodiment provides, this wearable device 300 is the further improvement carried out based on first embodiment.

Wearable device 300 includes body 310 and is electrically connected to the set of cells of body 310.Being provided with battery compartment 311 on body 310, battery compartment 311 has at least one Hatch Opening 312 being positioned at body 310 surface；Set of cells includes two batteries 321；Two batteries 321 are all detachable with battery compartment 311 to be connected.The shape of two batteries 321, size and structure are the most identical, and for the ease of describing, the battery being positioned at battery compartment 311 in two pieces of batteries 321 is the first battery 321a, and the battery being positioned at outside battery compartment is the second battery；First battery 321a, the second battery are all the batteries that repeatable charging cycle uses.In set of cells, the first battery 321a or the second battery are assembled to battery compartment by Hatch Opening.

First battery 321a is electrically connected to body 310；When the first battery 321a be in battery compartment separation process in time, set of cells and body 310 are maintained at status of electrically connecting, to ensure body 310 continued power, realize keeping the continued power to body 310 in changing cell process, make wearable device the most normally to work, be further ensured that the continuity of Monitoring Data.

More specifically, set of cells also includes reserve battery 322, ON-OFF control circuit 323 and is unidirectionally controlled circuit 324.Reserve battery 322, ON-OFF control circuit 323 and be unidirectionally controlled circuit 324 and be all fixedly installed in body 310；ON-OFF control circuit 323 is connected between reserve battery the 322, first battery 321a and body 310, for controlling the break-make of circuit between both reserve battery the 322, first battery 321a and body 310.

When ON-OFF control circuit 323 is in channel status, circuit between first battery 321a and body 310 disconnects, circuit communication between reserve battery 322 and body 310, body 310 is powered, during so that taking out the first battery 321a, body 310 can continue normal use under the power supply of reserve battery 322.When ON-OFF control circuit 323 is in off state, the circuit between reserve battery 322 and body 310 disconnects, and body 310 is powered by the circuit communication between the first battery 321a and body 310.Thus cut off the circuit between reserve battery 322 and body 310, saving backup the electricity of battery 322 in case using when the first battery 321a electricity is low, the most only using the first battery 321a that body 310 is powered.

ON-OFF control circuit 323 can be to be arranged on a switch of body 310 outer surface, and when battery changed by needs, user manual toggle switch makes ON-OFF control circuit 323 switch between channel status and off state.Herein, as another kind of embodiment, ON-OFF control circuit 323 can also be the modules such as integrated circuit I C, the automatic switchover of on-off circuit is realized by detecting the electricity of the first battery 321a, when the electricity of the first battery 321a is less than preset value, ON-OFF control circuit 323 automatically switches to channel status, utilizes reserve battery 322 to be powered body 310, and changes the first battery 321a in time by display screen or display lamp prompting user；When the electricity of the first battery 321a is higher than preset value, ON-OFF control circuit 323 automatically switches to off state, utilizes the first battery 321a to be powered body 310.

It is unidirectionally controlled circuit 324 to be connected between reserve battery 322 and the first battery 321a.When reserve battery 322 voltage is less than the voltage of the first battery 321a, being unidirectionally controlled circuit 324 and turn on, the first battery 321a charges to reserve battery 322 by being unidirectionally controlled circuit 324；When reserve battery 322 voltage equals to or higher than the voltage of the first battery 321a, it is unidirectionally controlled circuit and disconnects, open circuit between the first battery 321a and reserve battery 322.Utilization is unidirectionally controlled circuit 324, when reserve battery 322 voltage is relatively low, the first battery 321a can be utilized to be charged so that reserve battery 322 is maintained at the state that electricity is more sufficient, can be powered body 310 in time when the first battery 321a electricity deficiency.

Embodiment four:

As shown in Fig. 5 to Fig. 8, the wearable device that this utility model the 4th embodiment provides, this wearable device is also for the further improvement carried out based on first embodiment.

Wearable device 400 includes body 410 and is electrically connected to the set of cells of body.Being provided with battery compartment 411 on body 410, battery compartment 411 has at least one Hatch Opening being positioned at body 410 surface；Set of cells includes two batteries；Two batteries are all detachable with battery compartment to be connected.For the ease of describing, the battery being positioned at battery compartment 411 in two pieces of batteries is the first battery 421a, and the battery being positioned at outside battery compartment is the second battery 421b；First battery 421a, the second battery 421b are the batteries that repeatable charging cycle uses.In set of cells, the first battery 421a or the second battery 421b is assembled to battery compartment 411 by Hatch Opening.

First battery 421a is electrically connected to body；When the first battery 421a be in battery compartment 411 separation process in time, set of cells and body 410 are maintained at status of electrically connecting, to ensure body 410 continued power, realize keeping the continued power to body 410 in changing cell process, make wearable device the most normally to work, be further ensured that the continuity of Monitoring Data.

In the present embodiment, Hatch Opening is two, and the respectively first Hatch Opening 412a and the second Hatch Opening 412b, the first Hatch Opening 412a and the second Hatch Opening 412b lay respectively at the two ends that battery compartment 411 is relative；Being provided with two slideways being parallel to each other 413 on the inwall of battery compartment 411, slideway 413 is provided with electrode contact band 414, electrode contact band 414 is at least two, and at least two electrode contact band 414 is arranged on same slideway 413.In the present embodiment, electrode contact band 414 is two, connects the positive and negative polarities of the first battery 421a with correspondence.Herein, in other embodiments, according to the difference of the metal contact number of the first battery 421a, it is understood that there may be other metal contacts in addition to positive and negative polarities, respective battery storehouse 411 can arrange three or more electrode contact bands 414.

Slideway 413 and electrode contact band 414 all extend at the second Hatch Opening 412b at the first Hatch Opening 412a, and electrode contact band 414 electrically connects with body 410.First battery 421a and the second battery 421b is all slidably connected to slideway 413.Second battery 421b can slide into battery compartment 411 from the first Hatch Opening 412a, and is released through the second Hatch Opening 412b from battery compartment 411 by the first battery 421a, so that the second battery 421b replaces the first battery 421a.

When the second battery 421b is slid into first position by the first Hatch Opening 412a in battery compartment 411, the first battery 421a is electrically connected to electrode contact band 414, and the second battery 421b electrically insulates with electrode contact band 414.When just the second battery 421b being pushed in battery compartment 411 by the first Hatch Opening 412a, only first battery 421a electrically connects with electrode contact band 414, second battery 421b not yet contacts electrode contact band 414, and the most only first battery 421a electrically connects with body 410, and is powered for body 410.

When the second battery 421b is slid into second position by the first Hatch Opening 412a in battery compartment 411, first battery 421a and the second battery 421b is all connected to electrode contact band 414, now, first battery 421a and the second battery 421b is in parallel connection, it is powered both at body 410, as it is shown in fig. 7, schematic representation the first battery, general matching relationship between the second battery and the slideway of body, the specific size relation being not offered as between three in the figure 7.

When the second battery 421b is slid into three positions by the first Hatch Opening 412a in battery compartment 411, the second battery 421b electrically connects with electrode contact band 414, and the first battery 421a electrically insulates from the second Hatch Opening 412b electrode contact band 414.Now the second battery 421b enters in battery compartment 411 and is powered for body 410, and body 410 is no longer powered by the first battery 421a.

When the first battery 421a slides into four positions, the first battery 421a skids off at the second Hatch Opening 412b, and the i.e. first battery 421a slides into outside battery compartment 411, thus is taken out from battery compartment 411 by the first battery 421a that electricity is not enough, completes the replacing of battery.

In the present embodiment, by arranging electrode contact band 414, first battery 421a is released during the second battery 421b is installed simultaneously, and in the second battery 421b and the first battery 421a, at least one electrically connects with body 410 in the process, ensure that set of cells is always body 410 in Renewal process to be powered, it is ensured that body 410 can continuous firing.

In the present embodiment, the glide direction of the first battery 421a and the second battery 421b is parallel to the thickness direction of the first battery 421a.Correspondingly the length direction of electrode contact band 414 is also the thickness direction of the first battery 421a.Two electrode contact bands 414 can be arranged on same slideway 412 and be spaced setting, and positive and negative two the electrode contact points on corresponding first battery 421a and the second battery 421b can be arranged on the same side on the first battery 421a and the second battery 421b.Herein, as further embodiment, two electrode contact bands 414 are separately positioned on two slideways, and positive and negative two the electrode contact points on corresponding first battery 421a and the second battery 421b are separately positioned on the both sides that battery is relative.

In the present embodiment, electrode contact band 414 is arranged on slideway 413, utilize the slideway 413 can be so that being fixedly installed of electrode contact band 414, slideway 413 can play slide-and-guide effect simultaneously, thus the beneficially first battery 421a and the slip of the second battery 421b, certainly, in other embodiments, electrode contact band 414 can be arranged directly on the inwall of battery compartment 411, two electrode contact bands 414 can be arranged on the same side inwall of battery compartment 411 or be separately positioned in battery compartment 411 not on homonymy inwall, first battery 421a and the second battery 421b can the most directly be slidably connected to electrode contact band.

Embodiment five:

As shown in FIG. 9 and 10, the wearable device that this utility model the 5th embodiment provides, this embodiment is with the difference of the 4th embodiment, the glide direction of the first battery 521a and the second battery 521b is perpendicular to the thickness direction of the first battery 521a, and correspondingly the length direction of slideway 513 and electrode contact band 514 is also perpendicular to the thickness direction of the first battery 521a.In the present embodiment, it is preferable that two electrode contact bands 514 are separately positioned on two slideways 513, the most in other embodiments, two electrode contact bands 514 can also be arranged on same slideway 513.In the present embodiment, other parts of wearable device are roughly the same with the 4th embodiment, and here is omitted.

In three embodiments of aforesaid embodiment three to embodiment five, all can realize the continuous charged renewal battery of wearable device, set of cells exists battery all the time, such as the first battery, body is powered by the second battery or reserve battery, wherein embodiment three realizes continuous charged renewal battery by the way of increasing reserve battery, embodiment four and five is by arranging electrode contact band, realize the first battery when changing battery and the second battery is electrically connected to body so that body is replaced battery simultaneously, first battery can directly be ejected by the second battery simultaneously, it is convenient for changing.

Above embodiment, is not intended that the restriction to this technical scheme protection domain.Amendment, equivalent and the improvement etc. made within any spirit at above-described embodiment and principle, within should be included in the protection domain of this technical scheme.

Claims (10)

1. a wearable device, it is characterised in that include body and be electrically connected to the electricity of described body Pond group；Being provided with battery compartment on described body, described battery compartment has at least one and is positioned at described body surface Hatch Opening；

Described set of cells includes two batteries；Two described batteries are all detachable with described battery compartment to be connected, The battery being wherein positioned at described battery compartment is the first battery, and being positioned at the battery outside described battery compartment is the second electricity Pond；Described first battery, described second battery are all the batteries that repeatable charging cycle uses；

In described set of cells, the first battery or the second battery are assembled to battery compartment by described Hatch Opening.

Wearable device the most according to claim 1, it is characterised in that described first battery electrical connection In described body；When described first battery be in described battery compartment separation process in time, described set of cells with Described body is maintained at status of electrically connecting, to ensure described body continued power.

Wearable device the most according to claim 1, it is characterised in that described wearable device also wraps Including door, described door is the opening and closing structure being assemblied in described Hatch Opening, and described door covers in closed state On described Hatch Opening, and it is connected with the outer surface of described body, forms the main body outward appearance of described wearable device.

Wearable device the most according to claim 1, it is characterised in that described wearable device also wraps Including battery tray, be installed in described battery tray described first battery-disassembled, described battery tray is assemblied in institute State in battery compartment.

Wearable device the most according to claim 1, it is characterised in that described wearable device also wraps Including elastic auto-locked mechanism, described elastic auto-locked mechanism is installed in described battery compartment, described elastic auto-locked mechanism Be connected to described first battery, for will described first battery lock also can be by described the in described battery compartment One battery ejects from battery compartment.

Wearable device the most according to claim 1 and 2, it is characterised in that described set of cells is also wrapped Include reserve battery, ON-OFF control circuit and be unidirectionally controlled circuit；

Described reserve battery and described ON-OFF control circuit are all fixedly installed in described body；Described switch control System is electrically connected to described reserve battery, between described first battery and described body, is used for controlling described standby By battery, the break-make of circuit between described both first batteries and described body；

Electricity when described ON-OFF control circuit is in channel status, between described first battery and described body Road disconnects, and described body is powered by the circuit communication between described reserve battery and described body；

When described ON-OFF control circuit is in off state, the electricity between described reserve battery and described body Road disconnects, and described body is powered by the circuit communication between described first battery and described body；

Described being unidirectionally controlled is electrically connected between described reserve battery and described first battery；

When described backup battery voltage is less than the voltage of described first battery, described in be unidirectionally controlled circuit turn-on, Described first battery is unidirectionally controlled circuit and charges to described reserve battery described in passing through；

When described backup battery voltage is equal to or higher than the voltage of described first battery, described in be unidirectionally controlled electricity Road disconnects, open circuit between described first battery and described reserve battery.

Wearable device the most according to claim 1 and 2, it is characterised in that described Hatch Opening is two, Being respectively the first Hatch Opening and the second Hatch Opening, described first Hatch Opening and the second Hatch Opening lay respectively at described battery compartment phase To two ends at；Being provided with electrode contact band on described battery compartment inwall, described electrode contact band is at least two Individual, the electrode contact band of described at least two is arranged on described battery compartment the same side inwall or is separately positioned on institute State on battery compartment not homonymy inwall；Described electrode contact band all extends to described second at described first Hatch Opening At Hatch Opening, described electrode contact band electrically connects with described body；

Described first battery and described second battery are all slidably connected to described electrode contact band；

When described second battery is slid into first position by described first Hatch Opening in described battery compartment, institute Stating the first battery and be electrically connected to described electrode contact band, described second battery electrically insulates with described electrode contact band；

When described second battery is slid into second position by described first Hatch Opening in described battery compartment, institute State the first battery and be all connected to described electrode contact band with described second battery；

When described second battery is slid into three positions by described first Hatch Opening in described battery compartment, institute Stating the second battery to electrically connect with described electrode contact band, described first battery electrically insulates with described electrode contact band；

When described first battery slides into the 4th position, and described first battery skids off from described second Hatch Opening.

Wearable device the most according to claim 7, it is characterised in that on the inwall of described battery compartment Being provided with slideway, described electrode contact band is arranged on described slideway.

Wearable device the most according to claim 7, it is characterised in that described first battery and described The glide direction of the second battery is vertical or parallel to the thickness direction of described first battery.

Wearable device the most according to claim 1, it is characterised in that described wearable device is Bracelet, bracelet, bangle, wrist-watch, ring, earrings, ear nail, glasses, the helmet, glove, footwear, medicated clothing, Any one in dress ornament, socks, medicated cap, belt, underwear, muffler, earphone, armlet, wrister and knee cap.