Disclosure of Invention
The main object of the present application is to provide an intelligent device based on the internet of things, so as to solve at least one technical problem existing in the related art.
To achieve the above object, according to one aspect of the present application, an intelligent device based on the internet of things is provided.
The intelligent device based on the internet of things according to the application comprises:
the data battery module is used for detecting the environment and obtaining the sensor module of the environment information and the data transmission module used for communicating with the outside;
the data battery module is detachably and electrically connected with the sensor module and is used for supplying power to the sensor module;
the data transmission module is in communication connection with the sensor module and is used for receiving the environment information and sending the environment information outwards.
Further, as described above, the data battery module includes: a battery cell and a data battery interface;
the data battery interface is respectively and electrically connected with the electric core and the data transmission module; the battery cell is used for supplying power to the sensor module through the data battery interface; and enabling the data transmission module to receive the environmental information detected by the sensor module through the data battery interface.
Further, as the intelligent device based on the internet of things, the sensor module includes: a sensor module PCBA module and a sensor module interface;
the sensor module PCBA module includes: the sensor and the sensor control circuit board;
the sensor module interface can be connected with the data battery interface in an adapting way;
the sensor module PCBA module is electrically connected with the sensor module interface.
Further, as the intelligent device based on the internet of things, the sensor module includes: one or more of an infrared module, a camera module, a PM2.5 inspection module, a water quality detection module, an audio module, a loudspeaker module, a photosensitive module and a wind power module.
Further, the intelligent device based on the internet of things, as described above, further includes: a wireless charging coil;
the wireless charging coil is electrically connected with the electric core and is used for charging the electric core through the wireless charging coil or supplying power to other equipment through the wireless charging coil.
Further, in the intelligent device based on the internet of things, the data transmission module and the wireless charging coil are integrally provided with RX & TX integrated coils; the RX & TX integrated coil.
Further, as in the foregoing intelligent device based on the internet of things, the data battery module further includes: a data battery module PCBA module;
the data battery module PCBA module is integrated with: the system comprises a data storage transmission management chip, a data control chip, an integrated charging management chip and a power supply control chip;
the data battery module PCBA module is electrically connected with the electric core, the data battery interface, the data transmission module and the wireless charging coil.
Further, the intelligent device based on the internet of things, as described above, further includes: a battery module housing; the data battery module further includes: the power indicator lamp and the activation key are used for starting the battery cell to supply power to the outside;
the data battery module, the data transmission module and the wireless charging coil are all arranged in the battery module shell;
the power indicator lamp and the activation key are arranged on the battery module shell; and the power indicator and the activation key are electrically connected with the PCBA module of the data battery module.
Further, as in the foregoing intelligent device based on the internet of things, the sensor module further includes: externally connected with a power supply port; the external power port is fixedly arranged on the sensor module PCBA module and is electrically connected with the sensor module PCBA module.
Further, the intelligent device based on the internet of things further comprises a sensor module shell;
the sensor module is arranged in the sensor module shell;
the sensor module shell and the battery module shell are respectively provided with a buckle structure for adapting connection; for securing the sensor module housing to the battery module housing.
In this embodiment of the present application, a manner of an intelligent device based on the internet of things is adopted, by including: the data battery module is used for detecting the environment and obtaining the sensor module of the environment information and the data transmission module used for communicating with the outside; the data battery module is detachably and electrically connected with the sensor module and is used for supplying power to the sensor module; the data transmission module is in communication connection with the sensor module and is used for receiving the environment information and sending the environment information outwards. The purpose that the sensor module and the data battery module are used in a detachable and combined mode is achieved, so that a user can selectively carry the sensor module according to the outdoor or trip requirement, the single data battery module can enable the user to configure various sensor modules for replacement use, and the flexibility and the sustainability are greatly improved; meanwhile, the data transmission module can send the data acquired by the sensor module to the mobile terminal, a user can check the acquired data through the APP on the mobile terminal, and the acquired data can be uploaded, backed up, shared to the cloud end and the like through a network, so that the technical effect of user experience is greatly provided.
Detailed Description
In order to make the present application solution better understood by those skilled in the art, the following description will be made in detail and with reference to the accompanying drawings in the embodiments of the present application, it is apparent that the described embodiments are only some embodiments of the present application, not all embodiments. All other embodiments, which can be made by one of ordinary skill in the art based on the embodiments herein without making any inventive effort, shall fall within the scope of the present application.
It should be noted that the terms "first," "second," and the like in the description and claims of the present application and the above figures are used for distinguishing between similar objects and not necessarily for describing a particular sequential or chronological order. It is to be understood that the data so used may be interchanged where appropriate in order to describe the embodiments of the present application described herein. Furthermore, the terms "comprises," "comprising," and "having," and any variations thereof, are intended to cover a non-exclusive inclusion, such that a process, method, system, article, or apparatus that comprises a list of steps or elements is not necessarily limited to those steps or elements expressly listed but may include other steps or elements not expressly listed or inherent to such process, method, article, or apparatus.
In the present application, the terms "upper", "lower", "left", "right", "front", "rear", "top", "bottom", "inner", "outer", "middle", "vertical", "horizontal", "lateral", "longitudinal" and the like indicate an azimuth or a positional relationship based on that shown in the drawings. These terms are used primarily to better describe the present application and its embodiments and are not intended to limit the indicated device, element or component to a particular orientation or to be constructed and operated in a particular orientation.
Also, some of the terms described above may be used to indicate other meanings in addition to orientation or positional relationships, for example, the term "upper" may also be used to indicate some sort of attachment or connection in some cases. The specific meaning of these terms in this application will be understood by those of ordinary skill in the art as appropriate.
Furthermore, the terms "mounted," "configured," "provided," "connected," "coupled," and "sleeved" are to be construed broadly. For example, it may be a fixed connection, a removable connection, or a unitary construction; may be a mechanical connection, or an electrical connection; may be directly connected, or indirectly connected through intervening media, or may be in internal communication between two devices, elements, or components. The specific meaning of the terms in this application will be understood by those of ordinary skill in the art as the case may be.
It should be noted that, in the case of no conflict, the embodiments and features in the embodiments may be combined with each other. The present application will be described in detail below with reference to the accompanying drawings in conjunction with embodiments.
As shown in fig. 1 and 2, the present application relates to an intelligent device based on the internet of things, and the intelligent device based on the internet of things includes:
a data battery module 1, a sensor module 2 for detecting the environment and obtaining environmental information, and a data transmission module 31 for communicating with the outside;
the data battery module 1 is detachably and electrically connected with the sensor module 2 and is used for supplying power to the sensor module 2;
the data transmission module 31 is communicatively connected to the sensor module 2, and is configured to receive the environmental information and send the environmental information to the outside.
Specifically, the data battery module 1 and the sensor module 2 can be connected with each other through a data interface so as to achieve the purposes of power supply and communication, and in addition, the two shells can be adapted to be provided with a structure capable of being mutually fixed, so that the two shells are not easy to fall off; through the device in the embodiment, the purpose that the sensor module and the data battery module are used in a detachable and combined mode is achieved, so that a user can selectively carry the sensor module according to the outdoor or trip requirement, the single data battery module can enable the user to configure a plurality of sensor modules for replacement use, and the flexibility and the sustainability are greatly improved; the data transmission and control circuit board in the data battery module can send the data acquired by the sensor module to the mobile terminal, and a user can check the acquired data through software of the mobile terminal and upload, backup, share the acquired data to the cloud end and the like through a network; meanwhile, a big data background or an artificial intelligence background for data processing can be built outside and used for screening data required by a user after analyzing the data. And then form a system with this application device combination, can send the data that sensor module 2 gathered to the mobile terminal on, the user can look over the data after gathering and handling through software etc. on the mobile terminal to can upload, backup and share to high in the clouds etc. through the network, provide user experience's technological effect greatly. Thereby greatly providing the technical effect of user experience. The split type design is adopted, and the sensor module 2 and the data battery module 1 are detachably and electrically connected, so that the sensor module and the data battery module can be independently used or combined.
As shown in fig. 3 and 5, in some embodiments, the data battery module 1 includes: a battery cell 11 and a data battery interface 12;
the data battery interface 12 is electrically connected with the electric core 11 and the data transmission module 31 respectively; for causing the battery cell 11 to supply power to the sensor module 2 through the data battery interface 12; and causing the data transmission module 31 to receive the environmental information detected by the sensor module 2 through the data battery interface 12.
Specifically, the battery core 11 is mainly used for storing energy, and different capacities can be configured according to the electric quantity of the charged device and the charging requirement of a user. The main functions of the battery cell 11 are three aspects, namely, the first aspect is to supply power to the sensor module 2 and provide an energy source for the operation of the sensor module 2; the second aspect is to supply power to the data transmission module 31, so that the data collected by the sensor module 2 can be wirelessly transmitted to the wireless terminal to provide an energy source; the third aspect is that the battery 11 charges other devices needing to be charged, and the device serves as a mobile power supply, preferably, a corresponding wired charging interface or a wireless charging module can be provided.
Further, the data battery module 1 corresponds to a mobile power supply device having wireless data transmission and storage, and may perform a wireless data transmission and storage function or a charging function for a mobile terminal.
As shown in fig. 4 and 6, in some embodiments, the sensor module 2 includes: a sensor module PCBA module 21 and a sensor module interface 22;
the sensor module PCBA module 21 includes: the sensor and the sensor control circuit board;
the sensor module interface 22 can be connected to the data battery interface 13 in a fitting manner;
the sensor module PCBA module 21 is electrically connected with the sensor module interface 22.
The sensor module 2 further comprises: an external power port 23; the external power port 23 is fixedly arranged on the sensor module PCBA module 21 and is electrically connected with the sensor module PCBA module.
Preferably, the data battery interface 12 is a pin female head with 6-8 contacts, and is respectively a power positive electrode, a power negative electrode, 2-4 information data transmission, a power negative electrode and a power positive electrode; the sensor module interface 22 is a pin male head provided with 6-8 contacts and is arranged in an adaptive manner with the pin of the data battery interface 12; thus, the data battery module 1 and the sensor module 2 can be connected by the metal contacts through electric signals for information and energy interaction.
The sensor module PCBA module 21 is formed by combining a sensor and a sensor control circuit board, and a metal pin needle (namely the sensor module interface 22) is arranged at the lower part of the sensor control circuit board and used for connecting the sensor module 2 with the part of the data battery module circuit 1; the sensor control circuit board mainly realizes four aspects of functions, and the first aspect controls the sensor to collect data; the second aspect is to transmit the acquired data to the data battery module 1 through a metal pin after processing; a third aspect receives and processes control information transmitted through a pin needle; the fourth aspect realizes the boosting function of the output voltage of the battery core of the data battery module, and meets the functions of a high-voltage sensor module;
preferably, the external power port 23 is a power port such as Type-C; the power source interface such as a Type-C is arranged on one side of the sensor module PCBA module 21, and the sensor module 2 can be directly powered by an external power source through the external power source interface 23, so that the sensor module 2 can work under the condition that the data battery module 1 does not supply power. The sensor module and the data battery module are designed with certain independence, the sensor module 2 can be independently connected with the external power port 23 for use by a power line, the device is a device with a data acquisition function, the data battery module 1 is independently used, and is also a wireless mobile power device with data storage, the data battery module can transmit and store files through an RX and TX integrated coil, and can perform a wireless charging function for the mobile terminal, and the function diversity is convenient for users in complex use environments, and can also meet various requirements and experiences of different users and different environments;
in some embodiments, as in the previous intelligent devices based on internet of things, the sensor module 2 includes, but is not limited to, one or more of an infrared module, a camera module, a PM2.5 inspection module, a water quality detection module, an audio module, a speaker module, a light sensing module, and a wind power module.
Preferably, at least one of the above modules is set in each sensor module 2, so that the data battery module 1 and different sensor modules 2 can be freely combined according to different actual use scenes and requirements, and different types of data collected by different sensor modules 2 can be sent to the mobile terminal through the data battery module 1, and the mobile terminal can be uploaded, backed up and shared to the cloud through the network.
As shown in fig. 3, in some embodiments, the intelligent device based on the internet of things, as described above, further includes: a wireless charging coil 32;
the wireless charging coil 32 is electrically connected with the battery cell 11, and is used for charging the battery cell 11 through the wireless charging coil 32, or the battery cell 11 supplies power to other devices through the wireless charging coil 32.
As shown in fig. 3, in some embodiments, as the foregoing intelligent device based on the internet of things, the data transmission module 31 and the wireless charging coil 32 adopt an integrally arranged RX & TX integrated coil 3; the RX & TX integral coil 3. Wherein RX refers to a chargeable coil, TX refers to a dischargeable coil, and thus RX & TX integrated coils have both charging and discharging functions.
Specifically, after the RX & TX integrated coil 3 detects that the charged device supporting the wireless charging function is present, the wireless charging transmitter is turned on to provide the wireless charging output function for the device, when the charged device is removed, the RX & TX integrated coil cannot detect the charged device within a certain time, and the wireless output of the RX & TX integrated coil 3 is automatically turned off, preferably, when the electric quantity is not output by the electric core 11, the electric energy is saved; by adopting the arrangement, the device has the function of bidirectional wireless charging, can be independently used as a wireless mobile power supply, and meanwhile, the wireless coil also has the function of data transmission, so that the user experience is greatly provided.
As shown in fig. 3, in some embodiments, the data battery module 1 further includes: a data battery module PCBA module 13;
the data battery module PCBA module 13 is integrated with: the system comprises a data storage transmission management chip, a data control chip, an integrated charging management chip and a power supply control chip; specifically, the data storage and transmission management chip can store the environmental information collected by the sensor module 2 in the storage module, so that the environmental information data can be stored and recorded in advance in an environment without network access, and the environmental information data is uploaded when the network access exists, so that a function equivalent to a wireless mobile hard disk can be provided;
the data battery module PCBA module 13 is electrically connected with the battery cell 11, the data battery interface 12, the data transmission module 31 and the wireless charging coil 32.
Specifically, the data storage transmission management chip and the data control chip mainly realize four parts of functions: a. the wireless terminal is connected with the wireless terminal for data interaction, b, data storage, c, data transmission can be carried out through the coil between the wireless terminal and equipment with the function of transmitting data through the wireless coil, and d, the function of indicating the working state is realized; the charge management chip and the power supply control chip are integrated, and the charge and discharge management of the battery cells (lithium batteries) is mainly realized, so that the charge voltage and the charge current of the batteries are kept within a specified range, the safety of the battery cells in the charge/discharge process is ensured, the wireless charge and discharge function of the RX & TX integrated coil is realized, and the wireless charge and discharge state indication function is realized;
as shown in fig. 1 and 3, in some embodiments, the intelligent device based on the internet of things further includes: a battery module case 4; the data battery module 1 further includes: a power indicator lamp 14 and an activation key 15 for starting the battery 11 to supply power to the outside;
the data battery module 1, the data transmission module 31 and the wireless charging coil 32 are all arranged in the battery module shell 4; specifically, the battery module housing 4 is divided into a first upper case 41 and a first lower case 42, which mainly protects the internal battery cell 11 and other devices, and a fixing screw is arranged at the top of the first lower case 41 for fixing the data battery interface 12 of the battery module; in addition, the data battery module 1, the data transmission module 31 and the wireless charging coil 32 are designed in a combined mode, the single-module product cost is extremely high, and the data transmission module 31 and the power supply battery arranged on the sensor module 2 can be avoided, so that the use cost of a user can be greatly reduced; the user can freely combine the data battery module and the different sensor modules according to actual use scenes, and can carry a plurality of sensor modules to replace according to actual conditions, so that the convenience and operability of use are improved, and the user can be in the ecological ring of the Internet of things at any time even if the user is outdoors or goes out
The power indicator lamp 14 and the activation key 15 are arranged on the battery module shell 4; and the power indicator lamp 14 and the activation key 15 are electrically connected with the data battery module PCBA module 13.
Specifically, the activation button 14 is disposed on one side of the first lower case 42, and is mainly used for performing switch control on the battery cell 11 of the data battery module 1, for example: when the data battery module 1 and the sensor module 2 are combined together, a user needs to start discharging of the battery cell 11 by activating the key 15, namely, after the battery cell 11 is started, an effective power supply can be input to the sensor module 2, and data content acquired by the sensor module is sent to a device such as an intelligent mobile terminal through a wireless data transmission function of the data battery module 1; meanwhile, the user can upload, backup and share the data to the cloud end on the mobile terminal through the network; when the data battery module 1 is not combined with the sensor module 2 (namely, is used independently), the activation key 15 can start the function of supplying power outwards when the device is used as a mobile power supply, and can start a wireless charging output function when the terminal needs to be charged wirelessly; the power indicator lamp 14 is arranged above the activation button and used for displaying the working state and the electric quantity state of the battery cell, when the battery cell 11 is in the data transmission function or the wireless charging output function, the green light breathing lamp can flash, when the data transmission function or the wireless charging output function is abnormal, the red light breathing lamp can flash, and when the electric quantity of the battery cell 11 is insufficient, the power indicator lamp 14 can be in a rapid flash state to remind a user to charge the battery cell; further, when the activation button 14 is pressed, data transmission can be performed when the wireless charging coil of the data battery module is connected with a storage device having a wireless coil data transmission function. The above-mentioned arrangement of the power indicator lamp 14 is only one possible embodiment, and is not limited to the present application, and other lighting schemes can be adopted on the basis of the above, but are within the scope of protection of the present application.
As shown in fig. 1 and 3, in some embodiments, the intelligent device based on the internet of things, as described above, further includes a sensor module housing 5;
the sensor module 2 is arranged in the sensor module shell 5;
the sensor module shell 5 and the battery module shell 4 are respectively provided with a buckle structure for adapting connection; for fixing the sensor module housing 5 to the battery module housing 4.
Specifically, the sensor module housing 5 is preferably composed of a second lower shell 51 and a second upper shell 52, so as to play a role of protection and support, wherein the second upper shell 52 and the second upper shell 52 are relatively small in size, and convenience in outdoor and traveling is ensured; the middle position above the second inferior valve 51 of the sensor module 2 can also be provided with the LED lamp 54 to correspond a light guide mouth at second inferior valve 51 top, and then can pass through this light guide mouth to sensor module PCBA module 21 through the status information of LED, audio-visual show is given to the user, wherein, status information shows the content and includes: whether the sensor module 2 is operating normally;
in addition, when the sensor module interface 22 is a pin male and the data battery interface 12 is a pin female; the sensor module shell 5 is provided with a groove 53 at the pin male end, the battery module shell 4 is provided with a protrusion 43 corresponding to the groove at the pin female end, and then the sensor module shell 5 and the battery module shell 4 can be firmly fixed together, so that the connection relation of the devices inside the sensor module shell 5 and the battery module shell is firmer, and the devices are not easy to fall off.
The working principle of the device is as follows:
application example 1: when a user goes out of a hotel, a hotel or a civilian destination, the user can connect a camera sensor module (i.e. one of the sensor modules 2) to the data battery module 1; the camera sensor module starts to record shooting picture data when an illegal molecule enters the main entrance and the main exit can be monitored, and corresponding picture data is transmitted to the data battery module 1 through the communication connection between the sensor module interface 22 and the data battery interface 13; and then the data battery module sends the picture data to the mobile terminal of the user through the data transmission module 31, and the mobile terminal can upload the received data to the cloud end through the network. Preferably, the system also comprises an artificial intelligence background which analyzes and processes the situation and gives information and content fed back by the user (namely, giving out warning sound, alarming to the local police, etc.)
Application example 2: when a user uses the device in outdoor sports places such as golf, the user can connect a wind sensor module (namely, when a sensor in the sensor module 2 is a wind sensor) to the data battery module 1, and after the wind sensor module senses and obtains wind force and wind direction data, the corresponding wind force and wind direction data are transmitted to the data battery module 1 through the communication connection between the sensor module interface 22 and the data battery interface 13; and then the data battery module sends the wind power and wind direction data to the mobile terminal of the user through the data transmission module 31, and the mobile terminal can upload the received data to the cloud end through the network. After network cloud analysis, the data detected by the wind power sensor module can be displayed on the mobile terminal, suggestions such as swing angles, heights and forces can be given, and then the user can greatly improve the movement level of the user through high-quality connection.
The foregoing description is only of the preferred embodiments of the present application and is not intended to limit the same, but rather, various modifications and variations may be made by those skilled in the art. Any modification, equivalent replacement, improvement, etc. made within the spirit and principles of the present application should be included in the protection scope of the present application.