CN107891712B - Intelligent universal vehicle-mounted tire pressure monitoring induction base and application method and system thereof - Google Patents

Abstract

The invention discloses an intelligent general vehicle-mounted tire pressure monitoring induction base and an application method and a system thereof, which can monitor the battery power and the host temperature of various tire pressure monitoring hosts through an automatic induction technology, compare the battery power and the host temperature with preset power critical values and temperature critical values, and automatically charge a host battery when the current battery power is too low or charge the host battery under the control of a user control instruction; when the temperature of the current host is higher, the outer cover can be automatically lowered to protect the host from being exposed to the sun, or the outer cover is lowered to protect the host under the control of a user control instruction. The automatic control mode and the manual control mode are parallel, the functions of starting and stopping the charging module and the outer cover device are realized, the purpose of intelligently protecting the tire pressure monitoring host is achieved, and the tire pressure monitoring host is fully protected from the influence of the power problem and the temperature problem; the induction base can charge the tire pressure monitoring host through a wireless charging technology, is energy-saving and environment-friendly, and is worthy of popularization.

Description

Intelligent universal vehicle-mounted tire pressure monitoring induction base and application method and system thereof

Technical Field

The invention relates to the technical field of tire monitoring, in particular to an intelligent general vehicle-mounted tire pressure monitoring induction base and an application method and system thereof.

Background

The tire pressure monitoring system is an important component for guaranteeing the smooth running of an automobile, and in case of insufficient electric quantity of a host, the tire pressure monitoring system can possibly cause the situation that the tire pressure is not monitored, so that a battery needs to be replaced or the host battery needs to be charged in time when the electric quantity of the host is found to be insufficient, but the host battery cannot be replaced or charged conveniently in the current environment, so that hidden dangers related to the tire pressure in the driving process of the automobile can be avoided.

On the other hand, when the temperature is high in summer, the automobile is exposed to the sun, the temperature of the main machine is too high, and the performance of the tire pressure monitoring system is also affected.

Disclosure of Invention

In order to overcome the defects of the prior art, the invention aims to provide an intelligent universal vehicle-mounted tire pressure monitoring induction base and an application method and a system thereof, and aims to solve the problems that in the prior art, when the electric quantity of a tire pressure monitoring host is insufficient, a host battery cannot be charged in time, and when the temperature of the host is too high, measures cannot be taken to protect the host in time.

The purpose of the invention is realized by adopting the following technical scheme:

the utility model provides an on-vehicle tire pressure monitoring of general type of intelligence response base, the response base includes control module, monitoring module, wireless transmitting module, communication module and mutual module that charges, wherein:

the control module is respectively connected with the monitoring module, the wireless charging transmitting module, the communication module and the interaction module; the control module is also connected with an external outer cover device; the wireless charging transmitting module is also connected with an external power generation device; the communication module is also connected with an external cloud server;

the control module receives a control instruction of a user through the communication module or the interaction module, and sets the lowest electric quantity, the full electric quantity, the sunshade temperature and the cover collecting temperature according to the control instruction;

the monitoring module monitors the battery power and the host temperature of the tire pressure monitoring host and sends the monitored battery power and the monitored host temperature to the control module;

the control module sends a charging instruction to the wireless charging transmitting module when the monitored electric quantity of the battery is lower than the lowest electric quantity, and sends a charging stopping instruction to the wireless charging transmitting module when the monitored electric quantity of the battery reaches the full electric quantity; the wireless charging transmitting module charges the wireless charging receiving module of the tire pressure monitoring host after receiving the charging instruction, and stops charging the wireless charging receiving module of the tire pressure monitoring host after receiving the charging stopping instruction; or the control module receives a control instruction of a user through the communication module or the interaction module, and controls the wireless charging transmitting module to start or stop charging the wireless charging receiving module of the tire pressure monitoring host according to the control instruction;

the control module also sends a sunshade instruction to the outer cover device when the monitored temperature of the host reaches the sunshade temperature, and sends a cover receiving instruction to the outer cover device when the monitored temperature of the host is lower than the cover receiving temperature; or the control module receives a control instruction of a user through the communication module or the interaction module and controls the sunshade or the retraction of the outer cover device according to the control instruction;

the control module also synchronizes the monitored battery power and the host temperature to the cloud server through the communication module.

On the basis of the above embodiment, preferably, the monitoring module includes an electric quantity sensing unit and a temperature sensing unit, the electric quantity sensing unit automatically senses the electric quantity of the battery at intervals of predetermined time, and the temperature sensing unit automatically senses the temperature of the host at intervals of predetermined time.

On the basis of any of the above embodiments, preferably, the wireless charging docking between the wireless charging transmitting module and the wireless charging receiving module, and between the wireless charging transmitting module and the external electronic device is realized through NFC, an electromagnetic field, or solar energy.

An application method of the intelligent universal vehicle-mounted tire pressure monitoring induction base in any one of the embodiments is characterized by comprising the following steps:

the method comprises the steps of presetting, wherein a control module receives a control instruction of a user through a communication module or an interaction module, and sets the lowest electric quantity, the full-electricity electric quantity, the sunshade temperature and the cover collecting temperature according to the control instruction;

monitoring, namely monitoring the battery power and the host temperature of the tire pressure monitoring host by a monitoring module, and sending the monitored battery power and the monitored host temperature to a control module;

a charging control step, wherein a control module sends a charging instruction to a wireless charging transmitting module when the monitored electric quantity of the battery is lower than the lowest electric quantity, and sends a charging stopping instruction to the wireless charging transmitting module when the monitored electric quantity of the battery reaches the full electric quantity; the wireless charging transmitting module charges the wireless charging receiving module of the tire pressure monitoring host after receiving the charging instruction, and stops charging the wireless charging receiving module of the tire pressure monitoring host after receiving the charging stopping instruction; or the control module receives a control instruction of a user through the communication module or the interaction module, and controls the wireless charging transmitting module to start or stop charging the wireless charging receiving module of the tire pressure monitoring host according to the control instruction;

a temperature control step, wherein the control module also sends a sunshade instruction to the outer cover device when the monitored temperature of the host reaches the sunshade temperature, and sends a cover receiving instruction to the outer cover device when the monitored temperature of the host is lower than the cover receiving temperature; or the control module receives a control instruction of a user through the communication module or the interaction module and controls the sunshade or the retraction of the outer cover device according to the control instruction;

and in the synchronization step, the control module synchronizes the monitored battery power and the monitored host temperature to the cloud server through the communication module.

An application system of an intelligent universal vehicle-mounted tire pressure monitoring induction base comprises:

the intelligent general vehicle tire pressure monitoring induction base in any one of the embodiments;

the outer cover device is used for placing the outer cover to shade the tire pressure monitoring host after receiving the shading instruction, and retracting the outer cover after receiving the covering instruction; or shading the sun of the tire pressure monitoring host or retracting the outer cover according to the control instruction;

the power generation device is used for supplying power to the wireless charging and transmitting module;

the cloud server is used for storing the monitored battery power and the monitored host temperature;

and the user terminal is used for reading the data on the cloud server and sending a control instruction to the communication module.

On the basis of the above embodiment, preferably, the power generation device includes a photovoltaic cell panel, a control circuit and an energy storage unit; the photovoltaic cell panel converts light energy into electric energy which is stored in the energy storage unit through the control circuit; the energy storage unit is also connected with the wireless charging transmitting module.

On the basis of any of the above embodiments, preferably, the power generation device is further provided with a USB interface.

On the basis of any of the above embodiments, preferably, the induction base further comprises a heat dissipation device for providing a heat dissipation function for the induction base and the power generation device.

Compared with the prior art, the invention has the beneficial effects that:

the invention discloses an intelligent general vehicle-mounted tire pressure monitoring induction base and an application method and a system thereof, which can monitor the battery power and the host temperature of various tire pressure monitoring hosts through an automatic induction technology, compare the battery power and the host temperature with preset power critical values and temperature critical values, and automatically charge a host battery when the current battery power is too low or charge the host battery under the control of a user control instruction; when the temperature of the current host is higher, the outer cover can be automatically lowered to protect the host from being exposed to the sun, or the outer cover is lowered to protect the host under the control of a user control instruction. The automatic control mode and the manual control mode are parallel, the functions of starting and stopping the charging module and the outer cover device are realized, the purpose of intelligently protecting the tire pressure monitoring host is achieved, and the tire pressure monitoring host is fully protected from the influence of the power problem and the temperature problem; the induction base can charge the tire pressure monitoring host through a wireless charging technology, is energy-saving and environment-friendly, and is worthy of popularization.

Drawings

The invention is further illustrated with reference to the following figures and examples.

Fig. 1 is a schematic structural diagram illustrating an intelligent general vehicle tire pressure monitoring sensing base according to an embodiment of the present invention;

fig. 2 is a schematic flow chart illustrating an application method of an intelligent general-purpose vehicle tire pressure monitoring sensing base according to an embodiment of the present invention;

fig. 3 shows a schematic structural diagram of an application system of an intelligent general vehicle tire pressure monitoring sensing base according to an embodiment of the present invention.

Detailed Description

The present invention will be further described with reference to the accompanying drawings and the detailed description, and it should be noted that any combination of the embodiments or technical features described below can be used to form a new embodiment without conflict.

Detailed description of the preferred embodiment

As shown in fig. 1, an embodiment of the present invention provides an intelligent general vehicle tire pressure monitoring induction base, where the induction base includes a control module, a monitoring module, a wireless charging transmitting module, a communication module, and an interaction module, where:

the control module is respectively connected with the monitoring module, the wireless charging transmitting module, the communication module and the interaction module; the control module is also connected with an external outer cover device; the wireless charging transmitting module is also connected with an external power generation device; the communication module is also connected with an external cloud server;

the control module receives a control instruction of a user through the communication module or the interaction module, and sets the lowest electric quantity, the full electric quantity, the sunshade temperature and the cover collecting temperature according to the control instruction;

the monitoring module monitors the battery power and the host temperature of the tire pressure monitoring host and sends the monitored battery power and the monitored host temperature to the control module;

the control module sends a charging instruction to the wireless charging transmitting module when the monitored electric quantity of the battery is lower than the lowest electric quantity, and sends a charging stopping instruction to the wireless charging transmitting module when the monitored electric quantity of the battery reaches the full electric quantity; the wireless charging transmitting module charges the wireless charging receiving module of the tire pressure monitoring host after receiving the charging instruction, and stops charging the wireless charging receiving module of the tire pressure monitoring host after receiving the charging stopping instruction; or the control module receives a control instruction of a user through the communication module or the interaction module, and controls the wireless charging transmitting module to start or stop charging the wireless charging receiving module of the tire pressure monitoring host according to the control instruction;

the control module also sends a sunshade instruction to the outer cover device when the monitored temperature of the host reaches the sunshade temperature, and sends a cover receiving instruction to the outer cover device when the monitored temperature of the host is lower than the cover receiving temperature; or the control module receives a control instruction of a user through the communication module or the interaction module and controls the sunshade or the retraction of the outer cover device according to the control instruction;

the control module also synchronizes the monitored battery power and the host temperature to the cloud server through the communication module.

The embodiment of the invention can monitor the battery power and the host temperature of various tire pressure monitoring hosts through an automatic induction technology, compare the battery power and the host temperature with the preset power critical value and temperature critical value, and automatically charge the host battery when the current battery power is too low or charge the host battery under the control of a user control instruction; when the temperature of the current host is higher, the outer cover can be automatically lowered to protect the host from being exposed to the sun, or the outer cover is lowered to protect the host under the control of a user control instruction. The automatic control mode and the manual control mode are parallel, the functions of starting and stopping the charging module and the outer cover device are realized, the purpose of intelligently protecting the tire pressure monitoring host is achieved, and the tire pressure monitoring host is fully protected from the influence of the power problem and the temperature problem; the induction base can charge the tire pressure monitoring host through a wireless charging technology, is energy-saving and environment-friendly, and is worthy of popularization.

The embodiment of the invention does not limit the mode of the monitoring module for monitoring the tire pressure monitoring host, preferably, the monitoring module can be used for monitoring through an automatic induction technology, the monitoring module comprises an electric quantity induction unit and a temperature induction unit, the electric quantity induction unit automatically induces the electric quantity of the battery at preset time intervals, and the temperature induction unit automatically induces the temperature of the host at preset time intervals.

Preferably, the wireless charging and docking between the wireless charging transmitting module and the wireless charging receiving module, and between the wireless charging transmitting module and the external electronic device can be realized through NFC, electromagnetic field or solar energy. The advantage of doing so is, when making the response base carry out wireless charging for the tire pressure monitoring host computer, also can utilize wireless charging technology to charge for other electronic equipment, and convenience of customers charges for own electronic equipment on the car, improves user experience. For example, when wireless charging docking is realized by adopting an electromagnetic field technology, the induction base can charge the tire pressure monitoring host in the same wireless radio frequency band; when the NFC technology is adopted for wireless charging, the electronic equipment supporting the NFC function, such as a mobile phone, a tablet personal computer and a charger can be charged.

In the first embodiment, an intelligent universal vehicle-mounted tire pressure monitoring and sensing base is provided, and correspondingly, an application method of the intelligent universal vehicle-mounted tire pressure monitoring and sensing base is further provided. Since the method embodiment is substantially similar to the embodiment of the inductive base, it is relatively simple to describe, and reference may be made to the partial description of the embodiment of the inductive base for relevant points. The method embodiments described below are merely illustrative.

Detailed description of the invention

As shown in fig. 2, an embodiment of the present invention provides an application method of an intelligent general vehicle tire pressure monitoring sensing base in a first embodiment, which is characterized by comprising:

presetting a step S101, wherein a control module receives a control instruction of a user through a communication module or an interaction module, and sets the lowest electric quantity, the full-electricity electric quantity, the sunshade temperature and the cover collecting temperature according to the control instruction;

a monitoring step S102, in which a monitoring module monitors the battery power and the host temperature of the tire pressure monitoring host and sends the monitored battery power and the monitored host temperature to a control module;

a charging control step S103, in which the control module sends a charging instruction to the wireless charging transmitting module when the monitored electric quantity of the battery is lower than the lowest electric quantity, and sends a charging stopping instruction to the wireless charging transmitting module when the monitored electric quantity of the battery reaches the full electric quantity; the wireless charging transmitting module charges the wireless charging receiving module of the tire pressure monitoring host after receiving the charging instruction, and stops charging the wireless charging receiving module of the tire pressure monitoring host after receiving the charging stopping instruction; or the control module receives a control instruction of a user through the communication module or the interaction module, and controls the wireless charging transmitting module to start or stop charging the wireless charging receiving module of the tire pressure monitoring host according to the control instruction;

a temperature control step S104, wherein the control module further sends a sunshade instruction to the outer cover device when the monitored temperature of the host reaches the sunshade temperature, and sends a cover receiving instruction to the outer cover device when the monitored temperature of the host is lower than the cover receiving temperature; or the control module receives a control instruction of a user through the communication module or the interaction module and controls the sunshade or the retraction of the outer cover device according to the control instruction;

and a synchronization step S105, wherein the control module synchronizes the monitored battery power and the monitored host temperature to the cloud server through the communication module.

The embodiment of the invention can monitor the battery power and the host temperature of various tire pressure monitoring hosts through an automatic induction technology, compare the battery power and the host temperature with the preset power critical value and temperature critical value, and automatically charge the host battery when the current battery power is too low or charge the host battery under the control of a user control instruction; when the temperature of the current host is higher, the outer cover can be automatically lowered to protect the host from being exposed to the sun, or the outer cover is lowered to protect the host under the control of a user control instruction. The automatic control mode and the manual control mode are parallel, the functions of starting and stopping the charging module and the outer cover device are realized, the purpose of intelligently protecting the tire pressure monitoring host is achieved, and the tire pressure monitoring host is fully protected from the influence of the power problem and the temperature problem; the induction base can charge the tire pressure monitoring host through a wireless charging technology, is energy-saving and environment-friendly, and is worthy of popularization.

Detailed description of the preferred embodiment

As shown in fig. 3, an embodiment of the present invention provides an application system of an intelligent general-purpose vehicle tire pressure monitoring sensing base, including:

the intelligent general vehicle tire pressure monitoring induction base 301 in the second embodiment;

the outer cover device 302 is used for placing the outer cover to shade the tire pressure monitoring host after receiving the shading instruction, and retracting the outer cover after receiving the covering instruction; or shading the sun of the tire pressure monitoring host or retracting the outer cover according to the control instruction;

the power generation device 303 is used for supplying power to the wireless charging and transmitting module;

a cloud server 304 for storing the monitored battery power and host temperature;

and the user terminal 305 is used for reading data on the cloud server 304 and sending a control instruction to the communication module.

The embodiment of the invention can monitor the battery power and the host temperature of various tire pressure monitoring hosts through an automatic induction technology, compare the battery power and the host temperature with the preset power critical value and temperature critical value, and automatically charge the host battery when the current battery power is too low or charge the host battery under the control of a user control instruction; when the temperature of the current host is higher, the outer cover can be automatically lowered to protect the host from being exposed to the sun, or the outer cover is lowered to protect the host under the control of a user control instruction. The automatic control mode and the manual control mode are parallel, the functions of starting and stopping the charging module and the outer cover device 302 are realized, the purpose of intelligently protecting the tire pressure monitoring host is achieved, and the tire pressure monitoring host is fully protected from the influence of the power problem and the temperature problem; the induction base 301 and the tire pressure monitoring host are charged in the same wireless radio frequency band through a wireless charging technology, energy is saved, environment is protected, and the tire pressure monitoring host is worthy of popularization.

The embodiment of the present invention does not limit the power generation mode of the power generation device 303, and preferably, the power generation device 303 may generate power by using solar energy, and the power generation device 303 may include a photovoltaic cell panel, a control circuit, and an energy storage unit; the photovoltaic cell panel converts light energy into electric energy which is stored in the energy storage unit through the control circuit; the energy storage unit is also connected with the wireless charging transmitting module. The advantage of doing so is, can utilize solar energy to charge for tire pressure monitoring host computer, and energy-concerving and environment-protective, pollution-free.

Preferably, the power generation device 303 may further be provided with a USB interface. The benefit of doing so is, except that induction base 301 can utilize wireless charging technology to charge for the electronic equipment that supports wireless function of charging, power generation facility 303 can also use traditional USB interface charging mode to carry out wired charging for the electronic equipment that does not support wireless function of charging, and convenience of customers charges for each kind of electronic equipment of oneself on the car, improves user experience.

Preferably, the embodiment of the present invention further includes a heat dissipation device for providing a heat dissipation function for the induction base 301 and the power generation device 303.

Various other modifications and changes may be made by those skilled in the art based on the above-described technical solutions and concepts, and all such modifications and changes should fall within the scope of the claims of the present invention.

Claims (7)

1. The utility model provides an on-vehicle tire pressure monitoring of general type of intelligence response base, a serial communication port, the response base includes control module, monitoring module, wireless transmitting module, communication module and the mutual module that charges, wherein:

the control module is respectively connected with the monitoring module, the wireless charging transmitting module, the communication module and the interaction module; the control module is also connected with an external outer cover device; the wireless charging transmitting module is also connected with an external power generation device; the communication module is also connected with an external cloud server;

the control module receives a control instruction of a user through the communication module or the interaction module, and sets the lowest electric quantity, the full electric quantity, the sunshade temperature and the cover collecting temperature according to the control instruction;

the monitoring module monitors the battery power and the host temperature of the tire pressure monitoring host and sends the monitored battery power and the monitored host temperature to the control module;

the control module sends a charging instruction to the wireless charging transmitting module when the monitored electric quantity of the battery is lower than the lowest electric quantity, and sends a charging stopping instruction to the wireless charging transmitting module when the monitored electric quantity of the battery reaches the full electric quantity; the wireless charging transmitting module charges the wireless charging receiving module of the tire pressure monitoring host after receiving the charging instruction, and stops charging the wireless charging receiving module of the tire pressure monitoring host after receiving the charging stopping instruction; or the control module receives a control instruction of a user through the communication module or the interaction module, and controls the wireless charging transmitting module to start or stop charging the wireless charging receiving module of the tire pressure monitoring host according to the control instruction; the wireless charging transmission module, the wireless charging receiving module and the external electronic equipment realize wireless charging butt joint through NFC, electromagnetic field or solar energy;

the control module also sends a sunshade instruction to the outer cover device when the monitored temperature of the host reaches the sunshade temperature, and sends a cover receiving instruction to the outer cover device when the monitored temperature of the host is lower than the cover receiving temperature; or the control module receives a control instruction of a user through the communication module or the interaction module and controls the sunshade or the retraction of the outer cover device according to the control instruction;

the control module also synchronizes the monitored battery power and the host temperature to the cloud server through the communication module.

2. The intelligent universal vehicle-mounted tire pressure monitoring induction base according to claim 1, wherein the monitoring module comprises an electric quantity induction unit and a temperature induction unit, the electric quantity induction unit automatically induces the electric quantity of the battery at preset time intervals, and the temperature induction unit automatically induces the temperature of the host at preset time intervals.

3. The application method of the intelligent general vehicle tire pressure monitoring induction base according to any one of claims 1 to 2, is characterized by comprising the following steps:

the method comprises the steps of presetting, wherein a control module receives a control instruction of a user through a communication module or an interaction module, and sets the lowest electric quantity, the full-electricity electric quantity, the sunshade temperature and the cover collecting temperature according to the control instruction;

monitoring, namely monitoring the battery power and the host temperature of the tire pressure monitoring host by a monitoring module, and sending the monitored battery power and the monitored host temperature to a control module;

a charging control step, wherein a control module sends a charging instruction to a wireless charging transmitting module when the monitored electric quantity of the battery is lower than the lowest electric quantity, and sends a charging stopping instruction to the wireless charging transmitting module when the monitored electric quantity of the battery reaches the full electric quantity; the wireless charging transmitting module charges the wireless charging receiving module of the tire pressure monitoring host after receiving the charging instruction, and stops charging the wireless charging receiving module of the tire pressure monitoring host after receiving the charging stopping instruction; or the control module receives a control instruction of a user through the communication module or the interaction module, and controls the wireless charging transmitting module to start or stop charging the wireless charging receiving module of the tire pressure monitoring host according to the control instruction; the wireless charging transmission module, the wireless charging receiving module and the external electronic equipment realize wireless charging butt joint through NFC, electromagnetic field or solar energy;

a temperature control step, wherein the control module also sends a sunshade instruction to the outer cover device when the monitored temperature of the host reaches the sunshade temperature, and sends a cover receiving instruction to the outer cover device when the monitored temperature of the host is lower than the cover receiving temperature; or the control module receives a control instruction of a user through the communication module or the interaction module and controls the sunshade or the retraction of the outer cover device according to the control instruction;

and in the synchronization step, the control module synchronizes the monitored battery power and the monitored host temperature to the cloud server through the communication module.

4. The utility model provides an application system of on-vehicle tire pressure monitoring of general type of intelligence response base which characterized in that includes:

the intelligent universal vehicle tire pressure monitoring induction base of any one of claims 1 to 2;

the outer cover device is used for placing the outer cover to shade the tire pressure monitoring host after receiving the shading instruction, and retracting the outer cover after receiving the covering instruction; or shading the sun of the tire pressure monitoring host or retracting the outer cover according to the control instruction;

the power generation device is used for supplying power to the wireless charging and transmitting module;

the cloud server is used for storing the monitored battery power and the monitored host temperature;

and the user terminal is used for reading the data on the cloud server and sending a control instruction to the communication module.

5. The application system of the intelligent universal vehicle-mounted tire pressure monitoring induction base according to claim 4, wherein the power generation device comprises a photovoltaic cell panel, a control circuit and an energy storage unit; the photovoltaic cell panel converts light energy into electric energy which is stored in the energy storage unit through the control circuit; the energy storage unit is also connected with the wireless charging transmitting module.

6. The application system of the intelligent general vehicle tire pressure monitoring induction base according to claim 4 or 5, wherein the power generation device is further provided with a USB interface.

7. The application system of the intelligent general vehicle tire pressure monitoring induction base according to claim 4 or 5, further comprising a heat dissipation device for providing a heat dissipation function for the induction base and the power generation device.

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