CN213517920U - Intelligent wearable device - Google Patents

Abstract

The embodiment of the utility model provides an intelligence wearing equipment is provided. This intelligence wearing equipment includes: the device comprises a device body, a first signal transmitting module and a second signal transmitting module; the device comprises a device body, a first signal transmitting module, a second signal transmitting module, a first signal receiving module, a second signal receiving module and a second signal receiving module, wherein the first signal transmitting module and the second signal transmitting module are arranged in the device body; wherein the maximum wavelength in the first wavelength interval is smaller than the minimum wavelength in the second wavelength interval. The embodiment of the utility model provides an in, make the user use the utility model provides a during intelligence wearing equipment, if the current environment is unfavorable for the electromagnetic wave transmission signal through less wavelength, the user can select the electromagnetic wave transmission signal through the great wavelength of second signalling module transmission, and then makes the transmission efficiency through intelligence wearing equipment transmission signal higher.

Description

Intelligent wearable device

Technical Field

The utility model relates to an electronic equipment technical field, concretely relates to intelligence wearing equipment.

Background

Along with the progress of science and technology, the function of intelligence wearing equipment is also more and more complete, and the user can detect health etc. through intelligence wearing equipment.

In the correlation technique, intelligence wearing equipment includes the equipment body, is provided with signal emission module in the equipment body, can transmit the signal through signal emission module, for example, can talk over the telephone through signal emission module.

In implementing the present invention, the inventor finds that there are at least the following problems in the related art: when the environment is comparatively abominable, for example, current environment is forest, mountain range etc. and signal emission module is disturbed easily when transmitting signal for transmission efficiency through intelligent wearing equipment transmission signal is relatively poor.

SUMMERY OF THE UTILITY MODEL

The embodiment of the utility model provides an intelligence wearing equipment can solve in the correlation technique when the environment is comparatively abominable, and signal emission module is disturbed easily when transmitting signal for the relatively poor problem of transmission efficiency through intelligence wearing equipment transmission signal.

In order to solve the technical problem, the utility model discloses a realize like this:

the embodiment of the utility model provides an intelligence wearing equipment, intelligence wearing equipment includes: the device comprises a device body, a first signal transmitting module and a second signal transmitting module;

the first signal transmitting module and the second signal transmitting module are both arranged in the equipment body, the first signal transmitting module is used for transmitting electromagnetic waves with a first wavelength, the first wavelength is within a first preset wavelength interval, the second signal transmitting module is used for transmitting electromagnetic waves with a second wavelength, and the second wavelength is within a second preset wavelength interval;

wherein the maximum wavelength in the first wavelength interval is smaller than the minimum wavelength in the second wavelength interval.

Optionally, the intelligent wearable device further comprises a wearing chain, and the wearing chain is connected with the device body;

the wearing chain is internally provided with a first antenna which is electrically connected with the second signal transmitting module, and the first antenna is used for transmitting the electromagnetic waves transmitted by the second signal transmitting module.

Optionally, an analog signal processing module is disposed in the device body, the analog signal processing module is electrically connected to the second signal transmitting module and the first antenna, and the analog signal processing module is configured to filter a signal flowing through the analog signal processing module.

Optionally, the number of the wearing chains is two, the number of the first antennas is at least two, at least one first antenna is arranged in one wearing chain, and two sides of the device body are respectively provided with a connection interface;

the first ends of the two wearing chains are respectively connected with the two connecting interfaces, and the first antennas in the two wearing chains are respectively electrically connected with the second signal transmitting module;

the second ends of the two wearing chains are detachably connected.

Optionally, the length of the first antenna is greater than or equal to the length of the wearing chain.

Optionally, a power phase locking module is arranged in the device body;

the power phase locking module is electrically connected with at least two first antennas respectively;

under the condition that the second ends of the two wearing chains are connected, the at least two first antennas and the equipment body form a closed structure, the at least two first antennas receive electromagnetic waves in the environment to form induced current, and the power phase locking module superposes the induced current.

Optionally, an electric energy storage module is further disposed in the device body, and the electric energy storage module is electrically connected to the power phase locking module.

Optionally, a control key is arranged on the device body, the control key is electrically connected with the power phase-locking module, and the control key is used for controlling the power phase-locking module to be turned on or turned off.

Optionally, a second antenna is disposed on the device body, and the second signal transmitting module is electrically connected to the second antenna.

Optionally, a battery module is disposed in the device body, and the battery module is electrically connected to the first signal transmitting module and the second signal transmitting module, respectively.

The embodiment of the present invention provides a, because first signal transmission module and second signal transmission module all set up in the equipment body, first signal transmission module is used for transmitting the electromagnetic wave of first wavelength, and second signal transmission module is used for transmitting the electromagnetic wave of second wavelength, and first wavelength is in first preset wavelength interval, and the second wavelength is in second preset wavelength interval, and consequently, the wavelength of the electromagnetic wave of first signal transmission module transmission is different with the wavelength of the electromagnetic wave of second signal transmission module transmission. Because the maximum wavelength in the first wavelength interval is less than minimum wavelength in the second wavelength interval, consequently, the wavelength of first wavelength is less than the wavelength of second wavelength for the user is using the embodiment of the utility model provides a when the intelligence wearing equipment that provides, if the electromagnetic wave transmission signal through less wavelength is unfavorable for to the current environment, the user can select the electromagnetic wave transmission signal through the great wavelength of second signalling module transmission, and then makes the transmission efficiency through intelligence wearing equipment transmission signal higher, also can improve the success rate through intelligence wearing equipment transmission signal. Additionally, in the embodiment of the utility model provides an in, be provided with the phase locking module of power in the equipment body, the phase locking module of power respectively with two at least first antenna electricity be connected, under the condition that two second ends of wearing the chain are connected, at least two electromagnetic wave in the environment is received to first antenna forms induced-current, and the phase locking module of power superposes induced-current to can charge the equipment body through the induced-current after the stack, make the equipment body can realize the function that wireless charges.

Drawings

Fig. 1 is a schematic view illustrating an intelligent wearable device according to an embodiment of the present invention;

fig. 2 shows another kind of intelligence wearing equipment's that the embodiment of the utility model provides a schematic diagram.

Reference numerals:

10: an apparatus body; 20: a first signal transmitting module; 30: a second signal transmitting module; 40: wearing a chain; 50: an analog signal processing module; 60: a power phase-locking module; 70: a battery module; 80: a charging module; 90: and a charging management module.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are some, not all, of the embodiments of the present invention. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

It should be appreciated that reference throughout this specification to "one embodiment" or "an embodiment" means that a particular feature, structure or characteristic described in connection with the embodiment is included in at least one embodiment of the present invention. Thus, the appearances of the phrases "in one embodiment" or "in an embodiment" in various places throughout this specification are not necessarily all referring to the same embodiment. Furthermore, the particular features, structures, or characteristics may be combined in any suitable manner in one or more embodiments.

Referring to fig. 1, showing the utility model provides a schematic diagram of intelligence wearing equipment, referring to fig. 2, showing the utility model provides a another kind of intelligence wearing equipment's schematic diagram is provided. As shown in fig. 1 and 2, the smart wearable device includes: the device comprises a device body 10, a first signal transmitting module 20 and a second signal transmitting module 30.

The first signal emitting module 20 and the second signal emitting module 30 are both disposed in the device body 10, the first signal emitting module 20 is configured to emit electromagnetic waves with a first wavelength within a first preset wavelength range, the second signal emitting module 30 is configured to emit electromagnetic waves with a second wavelength within a second preset wavelength range. Wherein the maximum wavelength in the first wavelength interval is smaller than the minimum wavelength in the second wavelength interval.

In the embodiment of the present invention, since the first signal emitting module 20 and the second signal emitting module 30 are both disposed in the device body 10, the first signal emitting module 20 is used for emitting the electromagnetic wave with the first wavelength, the second signal emitting module 30 is used for emitting the electromagnetic wave with the second wavelength, and the first wavelength is in the first preset wavelength interval, and the second wavelength is in the second preset wavelength interval, therefore, the wavelength of the electromagnetic wave emitted by the first signal emitting module 20 is different from the wavelength of the electromagnetic wave emitted by the second signal emitting module 30. Because the maximum wavelength in the first wavelength interval is less than minimum wavelength in the second wavelength interval, consequently, the wavelength of first wavelength is less than the wavelength of second wavelength for the user is using the embodiment of the utility model provides a when the intelligence wearing equipment that provides, if the electromagnetic wave transmission signal through less wavelength is unfavorable for to for the current environment, the user can select the electromagnetic wave transmission signal through the great wavelength of second signalling module 30 transmission, and then makes the transmission efficiency through intelligence wearing equipment transmission signal higher, also can improve the success rate through intelligence wearing equipment transmission signal.

It should be noted that the first wavelength interval may be 10 m to 100 m, the second wavelength interval may be 1000 m to 10000 m, the frequency of the electromagnetic wave emitted by the first signal emitting module 20 may be between 3 mhz and 30 mhz, and the frequency of the electromagnetic wave emitted by the second signal emitting module 30 may be between 30 khz and 300 khz. Wherein the first wavelength may be referred to as a short wavelength and the second wavelength may be referred to as a long wavelength.

Additionally, in the embodiment of the present invention, the first transmitting module may include a first frequency transmitter, the second transmitting module may include a second frequency transmitter, and the wavelength of the electromagnetic wave transmitted by the first frequency transmitter is smaller than the wavelength of the electromagnetic wave transmitted by the second frequency transmitter, wherein the first frequency transmitter may be connected to a transmitting antenna, and the electromagnetic wave transmitted by the first transmitter is transmitted through the transmitting antenna.

In addition, in some embodiments, as shown in fig. 1 or fig. 2, the smart wearable device may further include a wearing chain 40, and the wearing chain 40 is connected to the device body 10. The wearing chain 40 is provided with a first antenna (not shown in the figure), the first antenna is electrically connected with the second signal transmitting module 30, and the first antenna is used for transmitting electromagnetic waves emitted by the second signal transmitting module 30.

When the intelligent wearable device comprises the wearing chain 40 and the wearing chain 40 is connected with the device body 10, the intelligent wearable device can be conveniently worn by a user. Since the first antenna is disposed in the wearing chain 40 and connected to the second signal transmitting module 30, when the second signal transmitting module 30 transmits electromagnetic waves, the second signal transmitting module 30 can transmit the electromagnetic waves to the first antenna, and the first antenna can transmit the electromagnetic waves transmitted by the second signal transmitting module 30. That is, by providing the wearing chain 40 on the device body 10, it is possible to facilitate the user to wear the smart wearable device. By providing the first antenna in the wearing chain 40, the transmission of electromagnetic waves by the second signal transmitting module 30 can be facilitated.

It should be noted that, in the embodiment of the present invention, the first antenna may be a copper foil, and at this time, the first antenna may be disposed in the wearing chain 40 along the extending direction of the wearing chain 40. Of course, the first antenna may also be made of other metal materials, such as aluminum, and the embodiment of the present invention is not limited herein.

In addition, in the utility model discloses in the implementation, first antenna and second signal transmission module 30 can be connected through Flexible Circuit board (FPC) for second signal transmission module 30 can pass the battery ripples to first antenna. Of course, the connection between the first antenna and the second signal transmitting module 30 may also be other connection manners, for example, the first antenna and the second signal transmitting module 30 are connected through a wire harness, that is, one end of the wire harness is connected to the first antenna, and the other end of the wire harness is connected to the second signal transmitting module 30, and the embodiment of the present invention is not limited herein to the connection manner in which the first antenna and the second signal transmitting module 30 are connected.

In addition, in some embodiments, as shown in fig. 1, an analog signal processing module 50 is disposed in the device body 10, the analog signal processing module 50 is electrically connected to the second signal transmitting module 30 and the first antenna, respectively, and the analog signal processing module 50 is configured to perform filtering processing on a signal passing through the analog signal processing module 50.

Because the analog signal processing module 50 is disposed in the device body 10, and the analog signal processing module 50 is electrically connected to the second signal transmitting module 30 and the second antenna, respectively, the electromagnetic wave transmitted by the second signal transmitting module 30 can be transmitted to the analog signal processing module 50, the analog signal processing module 50 can filter the electromagnetic wave, and then the analog signal processing module 50 can transmit the filtered electromagnetic wave to the first antenna, and transmit the filtered electromagnetic wave through the first antenna, so that the signal can be transmitted through the second signal transmitting module 30. That is, in the embodiment of the utility model provides an in, through with analog signal processing module 50 respectively with second signal transmission module 30 and first antenna electrical connection, can make analog signal processing module 50 carry out filtering to the electric wave of second signal transmission module 30 transmission and handle, clutter in the electromagnetic wave of filtering second signal transmission module 30 transmission to make first antenna can launch the battery wave after the filtering, make first antenna transmission signal that can be better, thereby can improve the utility model provides an intelligence wearing equipment's communication ability.

It should be noted that the analog signal processing module 50 may be electrically connected to the second signal transmitting module 30 and the first antenna through the FPC, and of course, the analog signal processing module 50 may also be electrically connected to the second signal transmitting module 30 and the first antenna through the wire harness, respectively, and the embodiment of the present invention is not limited herein.

In addition, in the embodiment of the present invention, the analog signal processing module 50 may include a filter, and of course, may further include other devices.

In addition, in some embodiments, as shown in fig. 2, the number of the wearing chain 40 is two, the number of the first antennas is at least two, at least one first antenna is disposed in one wearing chain 40, and the two sides of the device body 10 are respectively provided with the connection interfaces. The first ends of the two wearing chains 40 are respectively connected with the two connecting interfaces, and the first antennas in the two wearing chains 40 are respectively electrically connected with the second signal transmitting module 30. The second ends of the two wear chains 40 are removably attached.

Because the quantity of wearing chain 40 is two, be provided with at least one first antenna in one wearing chain 40, and the both sides of equipment body 10 are provided with connection interface respectively, consequently, the one end of wearing chain 40 can be connected at a connection interface to make two wearing chains 40 can connect the connection interface in equipment body 10 both sides respectively, make two wearing chains 40 all be connected with equipment body 10. Since the first antennas of the two wearing chains 40 are electrically connected to the second signal transmitting module 30, respectively, the electromagnetic waves transmitted by the second signal transmitting module 30 can be transmitted to the first antennas of the two wearing chains 40, respectively, and the electromagnetic waves transmitted by the second signal transmitting module 30 are transmitted through the first antennas of the two wearing chains 40, so that the transmission efficiency of the electromagnetic waves is increased. In addition, because the second ends of the two wearing chains 40 are detachably connected, when the user needs to wear the intelligent wearable device, the second ends of the two wearing chains 40 can be separated, so that the user can wear the intelligent wearable device, and then the second ends of the two wearing chains 40 can be connected to avoid the separation of the intelligent wearable device from the user. That is, by setting the number of the wearing chain 40 to two and providing at least one first antenna in one wearing chain 40, the electromagnetic wave emitted by the second signal emitting module 30 can be better transmitted. The second ends of the two wearing chains 40 are detachably connected, so that the intelligent wearing equipment can be conveniently worn by a user.

It should be noted that, when the number of the wearing chain 40 is two and at least one first antenna is disposed in one wearing chain 40, at this time, the number of the second signal transmitting modules 30 may also be two, and one second signal transmitting module 30 is electrically connected to the first antenna in one wearing chain 40, that is, the electromagnetic wave transmitted by one second signal transmitting module 30 may be transmitted through the first antenna connected to the second signal transmitting module 30.

In addition, in the embodiment of the present invention, the connection mode of the detachable connection of the second ends of the two wearing chains 40 may be: the second end of wearing chain 40 is provided with the buckle, and the second end of wearing chain 40 is provided with the buckle another, and the buckle can the joint in the card hole, through buckle and card hole's mode promptly for two second ends of wearing chain 40 can dismantle the connection.

In addition, when the second end of one wearing chain 40 is provided with the buckle, the second end of another wearing chain 40 can be provided with two at least card holes at intervals, and at this moment, the buckle can be clamped in different card holes, so that the wearing chain 40 has elasticity, and can meet the wearing requirements of different users.

In addition, in the embodiment of the present invention, the number of the wearing chain 40 may also be one, at this time, the two sides of the device body 10 are respectively provided with a connection interface, and the two ends of the wearing chain 40 may be respectively connected with two connection interfaces. Wherein, wear chain 40 can be for the elasticity wears chain 40 for it has the elasticity to wear chain 40, and then is convenient for different users and wears wearable intelligent wearing equipment through wearing chain 40.

Additionally, in some embodiments, the length of the first antenna is greater than or equal to the length of the wearing chain 40.

Since the length of the first antenna is greater than or equal to the length of the wearing chain 40, the length of the first antenna is longer, so that the electromagnetic waves emitted by the second signal emitting module 30 can be better transmitted through the first antenna. In addition, it is also possible that the first antenna may form a closed loop with the apparatus body 10 after the wearable chain 40 is connected with the apparatus body 10, so that the first antenna and the apparatus body 10 may form a current due to electromagnetic induction. That is, when the length of the antenna is greater than or equal to the length of the wearing chain 40, the transmission of the electromagnetic wave emitted by the second signal emitting module 30 through the first antenna can be facilitated, and the first antenna and the device body 10 can also generate current.

It should be noted that, when the number of the wearing chain 40 is two, the length of the first antenna in each wearing chain 40 is greater than or equal to the length of the wearing chain 40.

In addition, in some embodiments, as shown in fig. 1, a power phase locking module 60 is disposed in the apparatus body 10. The power phase locking modules 60 are electrically connected with at least two first antennas, respectively. In the case where the second ends of the two wearing chains 40 are connected, the at least two first antennas and the device body 10 form a closed structure, the at least two first antennas receive electromagnetic waves in the environment to form an induced current, and the power phase locking module 60 superposes the induced current.

Since at least one first antenna is arranged in one wearing chain 40, and the length of the first antenna is greater than that of the wearing chain 40, the at least two first antennas and the device body 10 can form a closed structure, that is, a ring structure, when the second ends of the two wearing chains 40 are connected. At this time, since there are electromagnetic waves in the environment, the electromagnetic waves in the environment may generate induced currents in the at least two first antennas and the apparatus body 10 when passing through the closed structure formed by the at least two first antennas and the apparatus body 10 according to the electromagnetic induction action. Since the power phase-locking module 60 is electrically connected to the at least two first antennas, the induced currents in the at least two first antennas can be transmitted to the power phase-locking module 60, and the power phase-locking module 60 can superimpose the induced currents, so that the induced currents are increased, and the increased induced currents can meet the use requirements.

It should be noted that, when the electromagnetic waves in the environment pass through the closed structure formed by the at least two first antennas and the device body 10, the induced currents formed in the at least two first antennas and the device body 10 are relatively small, and therefore, the power phase-locking module 60 is required to superimpose the induced currents, so that the superimposed induced currents can meet the use requirements. The power phase-locked module 60 may be provided with a phase-locked loop circuit therein.

In addition, when the analog signal processing module 50 is disposed in the device body 10, and the analog signal processing module 50 is electrically connected to at least two first antennas, the power phase-locking module 60 may be electrically connected to the analog signal processing module 50. When electromagnetic waves in the environment are in a closed structure formed by the at least two first antennas and the device body 10, induced currents generated in the at least two first antennas may flow into the analog signal processing module 50, the analog signal processing module 50 may filter the induced currents, and the filtered induced currents may be transmitted to the power phase-locking module 60, so that the power phase-locking module 60 may superimpose the filtered induced currents. Since the induced current is also a wave in nature, the analog signal processing module 50 can filter out noise in the induced current when the induced current flows into the analog signal processing module 50.

It should be noted that in the embodiment of the utility model, when the user need send signals through intelligent wearing equipment, at this moment, second signal transmission module 30 can transmit the electromagnetic wave of transmission to analog signal processing module 50, and then analog signal processing module 50 carries out filtering to the electromagnetic wave of second signal transmission module 30 transmission, transmits the electromagnetic wave after the filtering to first antenna for first antenna can launch the electromagnetic wave, and then makes intelligent wearing equipment can transmit signals. In addition, when the user does not send a signal through the intelligent wearable device, at this time, electromagnetic waves in the environment may pass through the first antenna, so that the first antenna and the device body 10 generate an induced current due to an electromagnetic induction effect, the induced current may flow into the analog signal processing module 50, the analog signal processing module 50 may perform filtering processing on the induced current, the induced current after the filtering processing may flow into the power phase locking module 60, and the power phase locking module 60 may superimpose the induced current. That is in the embodiment of the utility model provides an in, intelligence wearing equipment not only can be through first antenna transmission electromagnetic wave, can also be through first antenna and power phase-locked module 60, produces induced-current and superposes induced current. The intelligent wearable device can be charged through the power phase-locking module 60, so that the intelligent wearable device can realize a wireless charging function.

In addition, in some embodiments, an electric energy storage module is further disposed in the device body 10, and the electric energy storage module is electrically connected to the power phase locking module 60.

When the electric energy storage module is disposed in the device body 10 and electrically connected to the power phase-locking module 60, at this time, the power phase-locking module 60 may transmit the superposed induced current to the electric energy storage module, so that the electric energy storage module may store the superposed induced current.

It should be noted that, when the second signal transmitting module 30 is included in the device body 10, the electric energy storage module may be electrically connected to the second signal transmitting module 30, that is, the electric energy storage module may supply power to the second signal transmitting module 30. Wherein, electric energy storage module can be electric capacity, certainly, electric energy storage module still can be for other devices that can save the electric energy, the embodiment of the utility model provides a do not limit here.

In addition, in the embodiment of the present invention, when the second signal transmitting module 30 is disposed in the device body 10, at this time, the second signal transmitting module 30 may be integrated with the power phase-locking module 60, that is, the second signal transmitting module 30 is integrated with the power phase-locking module 60, and of course, the second signal transmitting module 30 may also be separated from the power phase-locking module 60, which is not limited herein.

In addition, in some embodiments, a control button is disposed on the device body 10, and the control button is electrically connected to the power phase-locking module 60, and the control button is used for controlling the power phase-locking module 60 to be turned on or turned off.

When the device body 10 is provided with a control button, and the control button is electrically connected to the power phase-locking module 60, a control instruction can be sent to the power phase-locking module 60 through the control button, so that the power phase-locking module 60 is turned on or turned off. That is, by controlling the key, it is possible to facilitate the control of the power phase locking module 60.

In addition, in some embodiments, as shown in fig. 1, a battery module 70 may be provided in the apparatus body 10, and the battery module 70 is electrically connected to the first signal transmission module 20 and the second signal transmission module 30, respectively.

When the battery module 70 is disposed in the device body 10, and the battery module 70 is electrically connected to the first signal transmitting module 20 and the second signal transmitting module 30, respectively, the battery module 70 may provide electric power to the first signal transmitting module 20 and the second signal transmitting module 30, respectively, so that the first signal transmitting module 20 and the second signal transmitting module 30 may continuously operate.

Note that, when the battery module 70 is included in the device body 10, the battery module 70 may be electrically connected to the power phase lock module 60. When the electric quantity of the battery module 70 is low or the battery module 70 is dead, at this time, the power phase-locking module 60 may be turned on by the control switch, so that the power phase-locking module 60 may charge the battery module 70, and further, the battery module 70 transfers the electric energy to the first signal transmitting module 20 or the second signal transmitting module 30, so that the electromagnetic wave may be transmitted through the first signal transmitting module 20 or the second signal transmitting module 30.

In addition, in the embodiment of the present invention, when the battery module 70 is disposed in the device body 10, the device body 10 may further include a charging module 80, the charging module 80 is electrically connected to the battery module 70 and the power phase-locking module 60, respectively, and the charging module 80 is used for balancing the current transmitted to the battery module 70.

When the charging module 80 is electrically connected to the battery module 70 and the power phase locking module 60, respectively, when charging the battery module 70, current flows into the charging module 80 first, and the charging module 80 may equalize the current such that the current flowing into the battery module 70 meets the charging requirement of the battery module 70.

In addition, in the embodiment of the present invention, the device body 10 may further include an induction coil, the induction coil is electrically connected to the charging module 80, at this time, when charging the battery module 70, the current may be generated through the wireless charger and the induction coil, the current flows into the charging module 80, the charging module 80 transmits the current to the battery module 70 after balancing the current, that is, the battery module 70 may be charged in a wireless charging manner by providing the induction coil in the device body 10.

Additionally, the embodiment of the present invention provides a charging interface, which is electrically connected to the charging module 80, and can be further disposed on the device body 10.

When being provided with the interface that charges on equipment body 10, when charging to intelligent wearing equipment, can connect the charging wire at the interface that charges, the interface that charges can transmit the electric current to the module 80 that charges, and the module 80 that charges balances the electric current, later transmits the electric current to battery module 70. To effect charging of the battery module 70.

It should be noted that the interface that charges can be Type-C interface, certainly, the interface that charges still can be other interfaces, the embodiment of the utility model provides a do not limit here.

In addition, in some embodiments, a second antenna is disposed on the device body 10, and the second signal transmitting module 30 is electrically connected to the second antenna.

When the device body 10 is provided with the second antenna and the second signal transmitting module 30 is electrically connected to the second antenna, at this time, the second signal transmitting module 30 can transmit the transmitted electromagnetic wave to the second antenna, and the second antenna can transmit the electromagnetic wave transmitted by the second signal transmitting module 30, that is, by providing the second antenna, the electromagnetic wave transmitted by the second signal transmitting module 30 can be conveniently transmitted.

When the second antenna is disposed on the device body 10, at this time, the device body 10 may further be connected to a wearing chain 40, the wearing chain 40 is provided with a first antenna, the first antenna and the second antenna are both electrically connected to the second signal transmitting module 30, and the electromagnetic waves transmitted by the second signal transmitting module 30 may be transmitted through the first antenna and the second antenna at the same time.

In addition, in the embodiment of the present invention, the material of the second antenna may be the same as the material of the first antenna, that is, when the first antenna is a copper foil, the second antenna is a copper foil. Of course, the material of the second antenna may also be different from that of the first antenna, i.e. when the first antenna is a copper foil, the second antenna may be aluminum. The embodiment of the present invention is not limited herein.

In addition, in the embodiment of the present invention, a display screen may be further disposed on the device body 10, and the electric quantity of the battery module 70 may be displayed through the display screen. The display screen can be the LED screen, still can be for OLED screen, the embodiment of the utility model provides a do not limit here.

In addition, in the embodiment of the present invention, as shown in fig. 1, a charging management module 90 may be further disposed in the device body 10, the charging management module 90 is electrically connected to the battery module 70, and the charging management module 90 is used for managing electric energy in the battery module 70, so that the battery module 70 can supply power to all devices in the device.

It should be noted that, in the embodiment of the utility model, intelligence wearing equipment includes but not limited to intelligent wrist-watch, intelligent bracelet etc..

In the embodiment of the present invention, since the first signal emitting module 20 and the second signal emitting module 30 are both disposed in the device body 10, the first signal emitting module 20 is used for emitting the electromagnetic wave with the first wavelength, the second signal emitting module 30 is used for emitting the electromagnetic wave with the second wavelength, and the first wavelength is in the first preset wavelength interval, and the second wavelength is in the second preset wavelength interval, therefore, the wavelength of the electromagnetic wave emitted by the first signal emitting module 20 is different from the wavelength of the electromagnetic wave emitted by the second signal emitting module 30. Because the maximum wavelength in the first wavelength interval is less than minimum wavelength in the second wavelength interval, consequently, the wavelength of first wavelength is less than the wavelength of second wavelength for the user is using the embodiment of the utility model provides a when the intelligence wearing equipment that provides, if the electromagnetic wave transmission signal through less wavelength is unfavorable for to for the current environment, the user can select the electromagnetic wave transmission signal through the great wavelength of second signalling module 30 transmission, and then makes the transmission efficiency through intelligence wearing equipment transmission signal higher, also can improve the success rate through intelligence wearing equipment transmission signal.

It should be noted that, in the present specification, the embodiments are all described in a progressive manner, each embodiment focuses on differences from other embodiments, and the same and similar parts among the embodiments may be referred to each other.

While alternative embodiments of the present invention have been described, additional variations and modifications of these embodiments may occur to those skilled in the art once they learn of the basic inventive concepts. It is therefore intended that the following claims be interpreted as including alternative embodiments and all such alterations and modifications as fall within the true scope of the embodiments of the invention.

Finally, it should also be noted that, in this document, relational terms such as first and second, and the like may be used solely to distinguish one entity from another entity without necessarily requiring or implying any actual such relationship or order between such entities. Also, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that an article or terminal apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such article or terminal apparatus. Without further limitation, an element defined by the phrase "comprising an … …" does not exclude the presence of additional like elements in the article or terminal device comprising the element.

It is right above to the technical scheme that the utility model provides a detailed introduction has been carried out, and it is right to have used specific individual example herein the utility model discloses a principle and implementation mode have been elucidated, simultaneously, to the general technical staff in this field, according to the utility model discloses a principle and implementation mode all have the change part on concrete implementation mode and application scope, to sum up, this description content should not be understood as the restriction of the utility model.

Claims (10)

1. The utility model provides an intelligence wearing equipment which characterized in that, intelligence wearing equipment includes: the device comprises a device body, a first signal transmitting module and a second signal transmitting module;

the first signal transmitting module and the second signal transmitting module are both arranged in the equipment body, the first signal transmitting module is used for transmitting electromagnetic waves with a first wavelength, the first wavelength is within a first preset wavelength interval, the second signal transmitting module is used for transmitting electromagnetic waves with a second wavelength, and the second wavelength is within a second preset wavelength interval;

wherein the maximum wavelength in the first wavelength interval is smaller than the minimum wavelength in the second wavelength interval.

2. The intelligent wearable device of claim 1, further comprising a wearing chain connected to the device body;

the wearing chain is internally provided with a first antenna which is electrically connected with the second signal transmitting module, and the first antenna is used for transmitting the electromagnetic waves transmitted by the second signal transmitting module.

3. The intelligent wearable device according to claim 2, wherein an analog signal processing module is disposed in the device body, the analog signal processing module is electrically connected to the second signal transmitting module and the first antenna, respectively, and the analog signal processing module is configured to filter a signal passing through the analog signal processing module.

4. The intelligent wearable device according to claim 2, wherein the number of the wearing chains is two, the number of the first antennas is at least two, at least one first antenna is arranged in one wearing chain, and two sides of the device body are respectively provided with a connecting interface;

the first ends of the two wearing chains are respectively connected with the two connecting interfaces, and the first antennas in the two wearing chains are respectively electrically connected with the second signal transmitting module;

the second ends of the two wearing chains are detachably connected.

5. The smart wearable device according to claim 4, wherein a length of the first antenna is greater than or equal to a length of the wearable chain.

6. The intelligent wearable device of claim 4, wherein a power phase locking module is disposed in the device body;

the power phase locking module is electrically connected with at least two first antennas respectively;

under the condition that the second ends of the two wearing chains are connected, the at least two first antennas and the equipment body form a closed structure, the at least two first antennas receive electromagnetic waves in the environment to form induced current, and the power phase locking module superposes the induced current.

7. The intelligent wearable device according to claim 6, wherein an electric energy storage module is further arranged in the device body, and the electric energy storage module is electrically connected with the power phase locking module.

8. The intelligent wearable device of claim 6, wherein a control button is disposed on the device body, the control button is electrically connected to the power phase-locking module, and the control button is configured to control the power phase-locking module to be turned on or off.

9. The intelligent wearable device of claim 1, wherein a second antenna is disposed on the device body, and the second signal transmitting module is electrically connected to the second antenna.

10. The intelligent wearable device according to any one of claims 1 to 9, wherein a battery module is disposed in the device body, and the battery module is electrically connected to the first signal transmitting module and the second signal transmitting module respectively.

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