CN211827366U - Intelligent door lock system based on satellite communication - Google Patents

Abstract

The utility model discloses an intelligence lock system based on satellite communication for realize reporting to the police fast when the calamity takes place and/or personnel meet with danger, so that in time deal with the processing, thereby furthest protects user's life safety and property safety. The intelligent door lock system based on satellite communication comprises a networking server platform and an intelligent door lock, wherein the networking server platform and the intelligent door lock are in signal connection with a satellite respectively. The networked server platform is configured to acquire disaster information and send the disaster information to the satellite. The intelligent door lock is configured to receive the disaster information forwarded by the satellite and warn according to the disaster information. And/or the intelligent door lock is also configured to send distress information to the satellite under a triggering condition. The networked server platform is further configured to receive the distress message forwarded via the satellite for rescue. The utility model provides an intelligence lock system based on satellite communication is used for reporting to the police fast.

Description

Intelligent door lock system based on satellite communication

Technical Field

The utility model relates to a tool to lock field especially relates to an intelligence lock system based on satellite communication.

Background

Satellite communication is simply communication between radio communication stations on earth (including the ground and the lower atmosphere) using a satellite as a relay. The satellite communication system consists of two parts, a satellite and an earth station. Satellite communication has the characteristics of long communication distance, seamless coverage, broadcast type work, high safety and reliability and the like, and is increasingly applied to the fields of military affairs, disaster prevention and control and the like.

SUMMERY OF THE UTILITY MODEL

An object of some embodiments is to provide an intelligence lock system based on satellite communication for realize when the calamity takes place and/or personnel meet with the quick warning when dangerous, so that in time deal with the processing, thereby furthest protects user's life safety and property safety.

In order to achieve the above object, some embodiments of the present invention provide the following technical solutions:

an intelligent door lock system based on satellite communication, comprising: and the networking server platform and the intelligent door lock are in signal connection with the satellite respectively. The networked server platform is configured to obtain disaster information and send the disaster information to the satellite. The intelligent door lock is configured to receive disaster information forwarded through the satellite and perform handling processing according to the disaster information. And/or the intelligent door lock is also configured to send distress information to the satellite under the triggering condition. The networked server platform is further configured to receive the distress message forwarded via the satellite for rescue.

In the intelligent door lock system, on one hand, after acquiring disaster information in real time, the networked server platform sends the disaster information to the satellite. And the satellite receives the disaster information and forwards the disaster information to the intelligent door lock. The intelligent door lock performs coping processing on the user according to the received disaster information so that the user can timely perform appropriate coping processing. On the other hand, the intelligent door lock sends distress information to the satellite under the triggering condition. The satellite receives the help-seeking information and then forwards the help-seeking information to the networked server platform. The networked server platform receives the distress message so as to timely rescue the distress call personnel according to the distress message. Of course, the embodiment of the utility model provides an intelligence lock system based on satellite communication can also realize the function of aforementioned two aspects simultaneously.

Therefore, the embodiment of the utility model provides an intelligence lock system based on satellite communication utilizes satellite communication to realize the both-way communication between networking server platform and the intelligent lock to make the user can in time learn calamity information when the calamity takes place. And/or, the user can obtain help in time when seeking help, thereby effectively guaranteeing the life safety and property safety of the user. Particularly, by means of the seamless coverage of satellite communication and the characteristics of broadcast communication, users in urban blind spots which are difficult to be covered by a ground network and in remote mountain areas with great difficulty in ground network construction can obtain the same service.

In some embodiments, the networked server platform is also in signal connection with a disaster monitoring platform. The networked server platform is configured to obtain disaster information from the disaster monitoring platform. The disaster monitoring platform comprises at least one of an earthquake monitoring platform, a fire monitoring platform, a hydrological monitoring platform and a debris flow monitoring platform.

In some embodiments, the networked server platform includes a control platform and a display screen and satellite communication device in signal connection with the control platform. Under the condition that the networking server platform is configured to acquire disaster information: the control platform is configured to acquire disaster information and send the disaster information to the display screen and the satellite communication device. The display screen is configured to display disaster information; the satellite communication device is configured to transmit disaster information to the satellite. In the event that the networked server platform is configured to receive the distress message forwarded via the satellite: the satellite communication device is also configured to receive the help-seeking information forwarded by the satellite and send the help-seeking information to the control platform; the control platform is also configured to obtain the distress message and send the distress message to the display screen. The display screen is also configured to display distress information.

In some embodiments, the networked server platform further comprises an alarm device in signal connection with the control platform. Under the condition that the networked server platform is configured to acquire disaster information, the control platform is further configured to send the acquired disaster information to the alarm device; the alarm device is configured to warn according to disaster information. In the case where the networked server platform is configured to receive distress information forwarded via a satellite: the control platform is also configured to send the acquired distress information to an alarm device; the alarm device is configured to warn according to the distress message.

In some embodiments, the intelligent door lock comprises a controller, and a satellite communication assembly, an alarm and a distress call unit which are respectively in signal connection with the controller. Under the condition that the networking server platform is configured to acquire disaster information: the satellite communication component is configured to receive disaster information forwarded via the satellite and to send the disaster information to the controller. The controller sends out a control instruction according to the disaster information; the alarm is configured to warn according to the corresponding control instruction; the distress unit is configured to send distress information to the controller. In the event that the networked server platform is configured to receive the distress message forwarded via the satellite: the controller is also configured to receive the distress message and send the distress message to the satellite communication assembly; the satellite communication component is further configured to transmit the distress message to a satellite.

In some embodiments, the smart door lock further comprises a door lock assembly in signal connection with the controller. The door lock assembly is configured to lock or unlock according to a corresponding control command.

In some embodiments, the alarm comprises an audible and visual alarm.

Drawings

The accompanying drawings, which are included to provide a further understanding of the embodiments of the invention and are incorporated in and constitute a part of this specification, illustrate embodiments of the invention and together with the description serve to explain the invention and not to limit the invention unduly. In the drawings:

fig. 1 is a schematic diagram of an intelligent door lock system based on satellite communication according to some embodiments of the present invention;

fig. 2 is a schematic diagram of another intelligent door lock system based on satellite communication according to some embodiments of the present invention;

fig. 3 is a schematic diagram of another intelligent door lock system based on satellite communication according to some embodiments of the present invention;

fig. 4 is a schematic diagram of another intelligent door lock system based on satellite communication according to some embodiments of the present invention;

fig. 5 is a schematic diagram of another intelligent door lock system based on satellite communication according to some embodiments of the present invention;

fig. 6 is a schematic diagram of a first lock body according to some embodiments of the present invention;

fig. 7 is a schematic diagram of a second lock body according to some embodiments of the present invention.

Detailed Description

For the convenience of understanding, the technical solutions provided by some embodiments of the present invention are described in detail below with reference to the accompanying drawings. It is obvious that the described embodiments are only some, not all embodiments of the proposed solution. All other embodiments that can be obtained by a person skilled in the art based on some embodiments of the present invention belong to the scope of protection of the present invention.

Unless otherwise defined, technical or scientific terms used in the embodiments of the present application should have the ordinary meaning as understood by those having ordinary skill in the art to which the present invention belongs. The use of "first," "second," and similar terms in the embodiments of the invention do not denote any order, quantity, or importance, but rather the embodiments are used to distinguish one element from another. The word "comprising" or "comprises", and the like, means that the element or item listed before the word covers the element or item listed after the word and its equivalents, but does not exclude other elements or items.

A communications satellite is a spatial portion of a satellite communications system. The communication satellite is typically a transponded active communication satellite equipped with a communication transponder and an antenna for frequency conversion, amplification and transponding of the received signal. An geostationary orbital communication satellite can cover approximately 40% of the earth's surface, allowing any ground, sea, or air communication stations within the coverage area to simultaneously communicate with one another. 3 geostationary orbit communication satellites spaced at equal intervals above the equator can realize global communication except for the two polar regions.

Compared to cable or terrestrial radio based communication technologies (e.g., fiber optic communication, microwave communication, etc.), satellite communication offers many advantages, such as: 1. seamless coverage capability: communication can be performed from any two points as long as the range covered by the electric wave transmitted by the satellite is covered; 2. the reliability is high: is not susceptible to land disasters (e.g., earthquakes, fires, floods, etc.) and any complex geographic conditions (e.g., remote mountainous areas); 3. meanwhile, the system can receive at multiple places, and can economically realize broadcast and multicast communication. With these advantages, satellite communication is finding increasingly widespread use.

In recent years, various disasters (for example, earthquakes, fires, and the like) have occurred, and the occurrence of these disasters often causes significant casualties and property damage. There are also many people who are in the home suffering from various unfortunate conditions such as sudden illness, exposure to criminal injury, etc. Under the condition that the life and property safety of people is threatened, tragedies occur because people cannot acquire disaster information or send help information in time. The intelligent door lock is used as a safety protection barrier of a user family, and can be endowed with more and more perfect functions by a rapidly developed communication technology, so that more effective and safer protection is provided for the user.

Based on this, the embodiment of the utility model provides an intelligence lock system based on satellite communication is provided. Referring to fig. 1, the intelligent door lock system based on satellite communication includes a networked server platform 200 and an intelligent door lock 300 respectively connected to a satellite 100 through signals. The networked server platform 200 is configured to obtain disaster information and send the disaster information to the satellite 100. The smart door lock 300 is configured to receive disaster information forwarded via the satellite 100 and perform a coping process according to the disaster information. And/or, the smart door lock 300 is further configured to send a distress message to the satellite 100 under a triggering condition. The networked server platform 200 is also configured to receive distress information forwarded via the satellite 100 for assistance.

Here, the satellite 100 is a communication satellite (e.g., international communication satellite 9, asian cellular satellite, etc.) configured to forward disaster information or distress information to support bidirectional communication between the networked control platform 200 and the intelligent door lock 300. The two-way communication includes the networked control platform 200 communicating to the intelligent door lock 300, and the intelligent door lock 300 communicating to the networked control platform 200.

The networked server platform 200 may be a virtual network platform (e.g., a cloud platform) or a physical server platform, and is specifically determined according to actual needs, which is not limited by the embodiment of the present invention. It should be noted that the networked server platforms 200 in the following embodiments are all described by taking an entity server platform as an example.

The disaster information is also disaster condition information. The disasters include things that cause destructive influences on the living environment of people, such as earthquakes, fires, debris flows, floods and the like. Optionally, the disaster information may include a disaster occurrence place, a disaster category, and the like, for example, the disaster information is "down mountain is experiencing earthquake", "Shenzhen is encountering typhoon", and the like.

Optionally, with continued reference to fig. 1, the networked server platform 200 is further in signal connection with a disaster monitoring platform 400. The networked server platform 200 is configured to obtain disaster information from the disaster monitoring platform 400. Illustratively, the disaster monitoring platform 400 includes at least one of an earthquake monitoring platform, a fire monitoring platform, a hydrological monitoring platform, and a debris flow monitoring platform. Of course, the present invention is not limited thereto. For example, the monitoring platform may be a monitoring website or a monitoring system of a government monitoring department. And under the condition that the monitoring platform is a monitoring website, the earthquake monitoring platform, the fire monitoring platform, the hydrological monitoring platform and the debris flow monitoring platform respectively correspond to an earthquake monitoring and forecasting net, a forest fire monitoring net, a hydrological monitoring net and a debris flow monitoring net. And under the condition that the monitoring platform is a monitoring system of a government-related disaster monitoring department, the earthquake monitoring platform, the fire monitoring platform, the hydrological monitoring platform and the debris flow monitoring platform respectively correspond to the monitoring system of the government-related disaster monitoring department. Of course, the disaster monitoring platform 400 can also include a 110 alarm center platform, a 119 fire alarm center platform, etc.

The coping processing refers to giving out corresponding treatment schemes according to different disaster information. For example, when the disaster information is "fire, the intelligent door lock 300 broadcasts the disaster information by voice and simultaneously unlocks automatically; when the disaster information is 'typhoon occurrence', the intelligent door lock 300 broadcasts the disaster information in a voice mode; when the disaster information is "earthquake takes place", the intelligent door lock 300 sends out audible and visual alarm, and this disaster information of voice broadcast is automatic unblock simultaneously. The coping process comprises a plurality of modes, and can be specifically selected and determined according to the actual situation, and the embodiment of the utility model provides a do not limit this.

The triggering condition refers to a condition required for the intelligent door lock 300 to send out the distress message, for example, the triggering condition may be pressing a specific key or inputting a specific voice.

The distress information includes the position information of the user of the intelligent door lock 300 and the content of distress call, for example: "the Beijing Hai lake district knows Chunlu No. 11 XX district No. 7 building No. 2 unit 201 room, conflagration, requests help".

That is, the embodiment of the utility model provides an intelligence lock system based on satellite communication can realize following function:

on the one hand, the disaster information can be communicated to the intelligent door lock 300 when a disaster occurs. Specifically, after acquiring disaster information in real time, the networked server platform 200 sends the disaster information to the satellite 100; the satellite 100 receives the disaster information and forwards the disaster information to the intelligent door lock 300; the intelligent door lock 300 performs handling processing according to the received disaster information. Like this, rely on seamless coverage of satellite communication (towards the urban blind spot that ground network is difficult to cover, and the big outlying mountain area of ground network construction degree of difficulty) and the characteristics of "broadcasting mode" communication (be "point-to-face" mode, the information exchange mode of this kind of broadcasting is very effective to the high-speed transmission of a large amount of commonality information), the embodiment of the utility model provides an intelligent lock system based on satellite communication just can send disaster information simultaneously to the general users who distributes in geographical position everywhere to can effectively avoid because the geographical position reason and the condition that partial user that leads to can't learn disaster information appears, thereby furthest's assurance general users ' life safety and property safety.

On the other hand, when the user asks for help, the user can communicate help information to the networked server platform 200 under a trigger condition. Specifically, the intelligent door lock 300 sends out distress information to the satellite 100 under the triggering condition; the satellite 100 receives the distress message and forwards the distress message to the networked server platform 200; the networked server platform 200 receives the distress message to help the person calling for help according to the distress message. Therefore, the embodiment of the utility model provides an intelligence lock system based on satellite communication just can guarantee that the user in time obtains the succour when needs the succour to effectual guarantee user's life safety and property safety. Especially worth mentioning is, rely on the seamless characteristics that cover of satellite communication, the embodiment of the utility model provides an intelligent lock system based on satellite communication can also effectively avoid the personnel of calling for help because the restriction of geographical position (for example, the city blind spot that ground network is difficult to cover and the big outlying mountain area of the ground network construction degree of difficulty) and can't in time obtain the condition of succour and appear to effectively ensure user's life safety and property safety on this geographical position.

Of course, the embodiment of the utility model provides an intelligence lock system based on satellite communication can also realize the function of above-mentioned two aspects simultaneously.

To sum up, the embodiment of the utility model provides an intelligent lock system based on satellite communication utilizes satellite communication to realize the two-way communication between networking server platform 200 and the intelligent lock 300 to make the user in time learn calamity information when the calamity takes place, and/or, can in time obtain the succour when the user seeks the succour, thereby effectual guarantee user's life safety and property safety. Particularly, by means of the seamless coverage of satellite communication and the characteristics of broadcast communication, users in urban blind spots which are difficult to be covered by a ground network and in remote mountain areas with great difficulty in ground network construction can obtain the same service.

In some embodiments, referring to fig. 2, the networked server platform 200 includes a control platform 1, and a display screen 2 and a satellite communication device 3 in signal connection with the control platform 1. In the case where the networked server platform 200 is configured to obtain disaster information: the control platform 1 is configured to acquire disaster information and send the disaster information to the display screen 2 and the satellite communication device 3; the display screen 2 is configured to display disaster information; the satellite communication device 3 is configured to transmit disaster information to the satellite 100. In case the networked server platform 200 is configured to receive said distress message forwarded via the satellite 100: the satellite communication device 3 is also configured to receive the distress message forwarded via the satellite 100 and to transmit the distress message to the control platform 1; the control platform 1 is also configured to acquire distress information and send the distress information to the display screen 2; the display screen 2 is also configured to display distress information.

That is, in the case where the networked server platform 200 is configured to acquire disaster information: the networked server platform 200 transmits disaster information to the satellite 100 while displaying the disaster information. Specifically, after acquiring the disaster information, the control platform 1 sends the disaster information to the display screen 2 and the satellite communication device 3, respectively. The display screen 2 displays the received disaster information, so that an administrator (e.g., a community property manager, an office building manager, etc.) of the networked server platform 200 can timely know the disaster information and make reasonable treatment. Meanwhile, the satellite communication device 3 transmits the received disaster information to the satellite 100.

In the case where the networked server platform 200 is configured to receive distress information forwarded via the satellite 100: the networked server platform 200 receives the distress message forwarded via the satellite 100 and displays the distress message. Specifically, the satellite communication device 3 receives the distress message forwarded via the satellite 100, and then transmits the distress message to the control platform 1. The control platform 1 acquires the distress information and sends the distress information to the display screen 2. The display screen 2 displays the distress information so that an administrator (e.g., a community property person, an office building administrator, etc.) of the networked server platform 200 can timely acquire the distress information and make reasonable treatment. The function of the control platform 1 is as described above, and the specific structure thereof can be selected and determined according to actual needs, which is not limited by the embodiment of the present invention. Illustratively, the control platform 1 is an electronic device having data storage and processing functions, such as a single chip, a processor, and a control chip.

The function of the satellite communication device 3 is as described above, and the specific structure thereof can be selected and determined according to actual needs, which is not limited by the embodiment of the present invention. Illustratively, the satellite communication device 3 includes a satellite signal transmitter and a satellite signal receiver integrated within the networked server platform 200.

The function of display screen 2 is as described above, and its specific structure can be selected according to actual need and confirms, the embodiment of the utility model provides a do not limit this. For example, the Display 2 may be a Liquid Crystal Display (LCD), an Organic Light-Emitting Diode (OLED) Display, and the like, but not limited thereto.

Optionally, referring to fig. 3, the networked server platform 200 further includes an alarm device 4 in signal connection with the control platform 1. Under the condition that the networked server platform 200 is configured to acquire disaster information, the control platform 1 is further configured to send the acquired disaster information to the alarm device 4; the alarm device 4 is configured to warn according to disaster information. In the case where the networked server platform 200 is configured to receive distress information forwarded via the satellite 100: the control platform 1 is also configured to send the acquired distress information to the alarm device 4; the alarm device 4 is configured to warn according to the distress information.

That is, the alarm device 4 can perform the following two functions:

in the case where the networked server platform 200 is configured to obtain disaster information: the alarm device 4 receives the disaster information sent by the control platform 1, and gives an alarm according to the disaster information, and timely draws attention of an administrator (e.g., community property personnel, office building administrator, etc.) of the networked server platform 200, so that the administrator can timely know the disaster information and make reasonable treatment.

In the case where the networked server platform 200 is configured to receive distress information forwarded via the satellite 100: the alarm device 4 receives the help-seeking information sent by the control platform 1, and gives an alarm according to the help-seeking information, and timely brings the attention of the administrator (such as community property personnel, office building management personnel and the like) of the networked server platform 200, so that the administrator can timely know the help-seeking information and make reasonable treatment.

The function of the alarm device 4 is as described above, and the structure thereof can be selected and determined according to actual needs, and the present invention does not limit this. Optionally, the alarm device 4 comprises an audible and visual alarm. By way of example, the audible and visual alarm can broadcast disaster information or distress information in a voice mode and send out a high-brightness flash signal at the same time.

In some embodiments, referring to fig. 4, the intelligent door lock 300 includes a controller 5, and a satellite communication module 6, an alarm 7 and a distress call unit 8 respectively connected to the controller 5. The satellite communication component 6 is configured to receive the disaster information forwarded via the satellite 100 and to send the disaster information to the controller 5. The controller 5 issues a control instruction according to the disaster information. The alarm 7 is configured to warn in accordance with a corresponding control instruction. The distress unit 8 is configured to issue distress information to the controller 5. The controller 5 is also configured to receive the distress message and send the distress message to the satellite communication assembly 6. The satellite communication assembly 6 is also configured to transmit distress messages to the satellite 100.

That is, in the case where the networked server platform 200 is configured to acquire disaster information: the smart door lock 300 receives disaster information transferred via the satellite 100 and warns a user according to the disaster information. Specifically, the satellite communication component 6 receives the disaster information forwarded by the satellite 100 and then sends the disaster information to the controller 5; the controller 5 sends out a control instruction according to the disaster information; the alarm 7 gives an alarm (for example, gives an audible and visual alarm) according to the corresponding control instruction.

In the case where the networked server platform 200 is configured to receive distress information forwarded via the satellite 100: the smart door lock 300 transmits the distress message to the satellite 100 under the triggering condition. Specifically, the distress call unit 8 sends distress information to the controller 5 under the triggering condition; after receiving the distress message, the controller 5 sends the distress message to the satellite communication component 6; the satellite communication component 6 transmits the distress message to the satellite 100.

The function of the controller 5 is as described above, and the specific structure thereof can be determined according to actual needs, and the embodiment of the present invention is not limited. Optionally, the controller 5 is an electronic device with data storage processing and functions, such as a single chip, a microprocessor, a microcontroller, or a control chip.

The function of the satellite communication assembly 6 is as described above, and its specific structure can be determined according to actual needs, and the embodiment of the present invention is not limited. Optionally, the satellite communication device 3 comprises a satellite signal transmitter and a satellite signal receiver.

The function of alarm 7 is as above, and its concrete structure can be confirmed according to actual need, the embodiment of the utility model provides a do not limit. Optionally, the alarm 7 comprises an audible and visual alarm. The audible and visual alarm is configured to send out voice broadcast information and highlight flashing signals. It can be understood that the audible and visual alarm prestores voice broadcast information corresponding to various disasters one by one, so that the audible and visual alarm can rapidly warn according to the corresponding control instructions of the controller 5. The voice broadcast information corresponding to the fire is "fire, please cover the mouth and nose with wet cloth, lie low posture, quickly escape along stairs", the voice broadcast information corresponding to the earthquake is "earthquake, please quickly escape to emergency refuge area along stairs", and the like.

The function of the call-for-help unit 8 is as described above, and its specific structure can be determined according to actual needs, the embodiment of the present invention is not limited. It is understood that the distress call unit 8 stores distress messages in advance, so that the corresponding distress messages can be sent out quickly when the user seeks help. Optionally, the distress call unit 8 is a trigger device provided with a key. The trigger device is pre-stored with distress information corresponding to each key. For example, the keys on the trigger device are each numbered with a different number, starting with a "1"; pressing the key corresponding to the number "1" can send out distress message "No. 2 building unit 201 room of Chang 2 of No. 7 district of No. 11 of spring road of Beijing Haihu district, meet lawless persons, request rescue"; pressing the key corresponding to the number "2" can send out the distress message "Beijing Haihu district knows No. 11 spring road No. XX cell No. 7 building No. 2 cell 201 room, fire, request help".

Optionally, referring to fig. 5, the intelligent door lock 300 further includes a door lock assembly 9 in signal connection with the controller 5. The door lock assembly 9 is configured to be locked or unlocked according to a corresponding control command.

Illustratively, the door lock assembly 9 includes a first lock body, a second lock body, and a lock cylinder.

Referring to fig. 6, the first lock includes a first housing 911 and a first handle 912. The first casing 911 is substantially rectangular and is attached to the first surface of the door body. The first face is the one side that the door body faced the open air. The first handle 912 is generally L-shaped, and has a first end connected to the first housing 911 and a second end that is cantilevered.

Referring to fig. 7, the second lock body includes a second housing 921 and a second handle 922. The second casing 921 is substantially rectangular and is attached to the second surface of the door body. The second surface is the surface of the door body facing indoor. The second handle 922 is generally L-shaped, and has a first end connected to the second housing 921 and a second end suspended.

The key cylinder is in signal connection with the controller 5 and is configured to be locked and unlocked according to a control signal of the controller 5. In addition, the lock cylinder is drivingly connected to the first handle 912 and the second handle 922, and is configured to be locked or unlocked when the first handle 912 or the second handle 922 is rotated.

The lock cylinder is arranged inside the door body and comprises a driver and a lock tongue. The driver is in signal connection with the controller 5 and is configured to receive a corresponding control command sent by the controller 5 and drive the lock tongue to move. The latch bolt is connected with the driver and configured to perform locking and unlocking. Of course, the driver is also in transmission connection with the first handle 912 and the second handle 922, and is further configured to drive the lock tongue to lock or unlock when the first handle 912 or the second handle 922 is rotated.

It should be noted that the door lock assembly 9 may also include other undescribed features, such as a fingerprint acquirer, a card reading circuit, a power supply, and the like, and the specific functions and structures thereof can be found in the documents in the related art and will not be described in detail herein.

Optionally, with continued reference to fig. 6, the controller 5 and the satellite communication module 6 are respectively disposed in the first housing 911. It should be noted that the specific position of the satellite communication assembly 6 in the first housing 911 can be determined as required, and the embodiment of the present invention is not limited thereto, and only one possible situation is shown in fig. 6. The specific position of the controller 5 in the first housing 911 can also be determined as required, and the embodiment of the present invention is not limited thereto, and only one possible situation is shown in the figure.

Optionally, referring to fig. 7, the alarm 7 and the call unit 8 are respectively disposed on the second housing 921. It should be noted that, the specific position of the alarm 7 on the second housing 921 can be determined as required, and the embodiment of the present invention is not limited, and only one possible situation is shown in fig. 7. The specific position of the distress call unit 8 on the second housing 921 can also be determined as required, and the embodiment of the present invention is not limited, and only one possible situation is shown in fig. 7.

In order to more clearly illustrate the intelligent door lock system based on satellite communication and the application thereof in the embodiment of the present invention, the following detailed description will be made according to a specific embodiment.

Example one

The networked server platform 200 acquires the fire information that fire is happening in building 4 in the XX cell 6 through a fire monitoring website in signal connection with the networked server platform. The fire information is transmitted to the display screen 2, the satellite communication device 3 and the alarm device 4 (for example, an audible and visual alarm) through the control platform 1. Satellite communication device 3 sends fire information to satellite 100, and display screen 2 shows fire information, and alarm device 4 (audible-visual annunciator) voice broadcast disaster information simultaneously sends high bright flashing light signal to network server platform 200's administrator (for example district property personnel) in time learns this fire information, thereby makes corresponding processing (for example in time dial 119).

The satellite communication module 6 in the smart door lock 300 receives the fire information forwarded via the satellite 100 and transmits the fire information to the controller 5. The controller 5 issues a control command (trigger command) based on the fire information. The alarm 7 sends out prestored voice broadcast information (for example, "fire, please cover mouth and nose with damp cloth, lie low, quickly escape along stairs") and a highlight flashing signal according to a corresponding control command (trigger command). Meanwhile, the door lock assembly 9 is unlocked according to the corresponding control instruction, so that the situation that the user cannot open the intelligent door lock 300 in a panic state is avoided. Therefore, the user can timely know the fire information and can escape from the fire area as soon as possible according to the prompt of the voice broadcast information.

Example two

The user is robber-stealing at home, and the robber-stealing control can not use the mobile communication terminal such as the mobile phone. The user borrows the machine and presses the corresponding key of the distress unit 8 (the trigger device arranged on the key) on the intelligent door lock 300. The distress call unit 8 sends corresponding pre-stored distress information (for example, "the cell 201 room of building 2, building 7, knows spring road 11 XX in beijing hai lake district, meets lawbreakers, and requests rescue") to the controller 5. The controller 5 receives the distress message and transmits the distress message to the satellite communication module 6. The satellite communication component 6 transmits the distress message to the satellite 100.

The satellite 100 forwards the distress message.

The satellite communication device 4 in the networked server platform 200 receives the distress message forwarded via the satellite 100 and transmits the distress message to the control platform 1. After acquiring the distress information, the control platform 1 sends the distress information to the display screen 2 and the alarm device 4 (for example, an audible and visual alarm). The display screen 2 displays the distress information, and meanwhile, the alarm device 4 (such as an audible and visual alarm) broadcasts the distress information in a voice mode and sends out a highlight flash signal. So that an administrator (e.g., cell property personnel) of the networked server platform 200 can timely acquire the help information and make corresponding processing (e.g., timely dial 110).

The utility model provides an intelligence lock system based on satellite outside possessing above-mentioned application, still can be applied to the big places of personnel density such as village in the city, office building, high-rise building, school, large-scale building dish to can carry out concrete setting according to the actual conditions in different places.

In the foregoing description of embodiments, the particular features, structures, materials, or characteristics may be combined in any suitable manner in any one or more embodiments or examples.

The above description is only for the specific embodiments of the present invention, but the protection scope of the present invention is not limited thereto, and any person skilled in the art can easily think of the changes or substitutions within the technical scope of the present invention, and all should be covered within the protection scope of the present invention. Therefore, the protection scope of the present invention shall be subject to the protection scope of the claims.

Claims (7)

1. An intelligent door lock system based on satellite communication, comprising: the system comprises a networked server platform and an intelligent door lock which are respectively in signal connection with a satellite; wherein,

the networked server platform is configured to: acquiring disaster situation information and sending the disaster situation information to the satellite; the smart door lock is configured to: receiving the disaster information forwarded by the satellite, and performing coping processing according to the disaster information;

and/or the presence of a gas in the gas,

the smart door lock is further configured to: sending distress information to the satellite under a triggering condition; the networked server platform is further configured to: and receiving the distress information forwarded by the satellite for rescue.

2. The intelligent door lock system based on satellite communication according to claim 1, wherein the networked server platform is further in signal connection with a disaster monitoring platform; the networked server platform is configured to: acquiring the disaster information from the disaster monitoring platform;

the disaster monitoring platform comprises at least one of an earthquake monitoring platform, a fire monitoring platform, a hydrological monitoring platform and a debris flow monitoring platform.

3. The satellite communication-based smart door lock system according to claim 1, wherein the networked server platform comprises: the satellite communication system comprises a control platform, a display screen and a satellite communication device, wherein the display screen and the satellite communication device are in signal connection with the control platform;

under the condition that the networking server platform is configured to acquire disaster information: the control platform is configured to acquire the disaster information and send the disaster information to the display screen and the satellite communication device; the display screen is configured to display the disaster information; the satellite communication device is configured to send the disaster information to the satellite;

in the event that the networked server platform is configured to receive the distress message forwarded via the satellite: the satellite communication device is also configured to receive the help-seeking information forwarded by the satellite and send the help-seeking information to the control platform; the control platform is further configured to acquire the distress message and send the distress message to the display screen; the display screen is also configured to display the distress message.

4. The satellite communication-based smart door lock system according to claim 3, wherein said networked server platform further comprises: the alarm device is in signal connection with the control platform;

under the condition that the networking server platform is configured to acquire disaster information:

the control platform is also configured to send the acquired disaster information to the alarm device;

the alarm device is configured to warn according to the disaster information;

in the event that the networked server platform is configured to receive the distress message forwarded via the satellite:

the control platform is further configured to send the acquired distress information to the alarm device;

the alarm device is configured to warn according to the distress information.

5. The satellite communication-based intelligent door lock system according to claim 1, wherein the intelligent door lock comprises: the system comprises a controller, and a satellite communication assembly, an alarm and a distress call unit which are respectively in signal connection with the controller; wherein,

under the condition that the networking server platform is configured to acquire disaster information: the satellite communication component is configured to receive the disaster information forwarded via the satellite and send the disaster information to the controller; the controller sends out a control instruction according to the disaster information; the alarm is configured to warn according to the corresponding control instruction;

in the event that the networked server platform is configured to receive the distress message forwarded via the satellite: the distress call unit is configured to send distress information to the controller; the controller is further configured to receive the distress message and send the distress message to the satellite communication assembly; the satellite communication component is further configured to send the distress message to the satellite.

6. The satellite communication-based smart door lock system according to claim 5, wherein the smart door lock further comprises: the door lock assembly is in signal connection with the controller;

the door lock assembly is configured to be locked or unlocked according to the corresponding control command.

7. The intelligent satellite communication-based door lock system according to any one of claims 5 or 6, wherein the alarm comprises an audible and visual alarm.

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