CN112037449A - At home, wisdom safety fire control early warning protection system - Google Patents

Abstract

The invention discloses a household intelligent safety fire-fighting early warning protection system, which is used for solving the problem of low response speed of the existing fire-fighting system. The sensor or the detector is used for monitoring the indoor environment and acquiring monitoring data; the camera device is used for carrying out video monitoring indoors and obtaining monitoring data; the host is used for acquiring the monitoring data and the monitoring data, storing and processing the monitoring data and the monitoring data, storing and sending a processing result, and triggering an alarm module in the host to give an alarm if the processing result exceeds a set value; and the cloud platform is used for realizing communication connection with the plurality of hosts to acquire the processing results of the hosts and sending alarm information to the user, the property personnel of the community where the user is located, the fire center of the area where the user is located and the logistics service personnel according to the processing results.

Description

At home, wisdom safety fire control early warning protection system

Technical Field

The invention belongs to the technical field of fire fighting; in particular to a household intelligent safety fire-fighting early warning protection system.

Background

With the increasing living standard of people in China, the safety awareness of daily life is increasing. The popularization and use of household appliances have caused serious potential safety hazards to more and more household appliances. Meanwhile, safety accidents in families often occur due to improper use of household appliances. For example, household electric wires, liquefied gas, furnaces, electric cookers, induction cookers and the like which are the sources of household fire disasters, besides the fire disasters, the household electric wires, the liquefied gas and the like cause human poisoning and death, and the household electric wires, the liquefied gas and the like cause explosion, electric shock due to improper electricity utilization, burn and scald, which are millions in China every year. Because the household appliances in the traditional technologies do not have a method for realizing effective appliance safe use monitoring, effective prevention control and automatic processing in the use process, part of household appliances with intelligent functions are networked but linked with other products in a single way.

And current family safety fire extinguishing system mainly monitors indoor environment with video and/or audio frequency mode through user side cell-phone APP, reaches the purpose of remote monitoring. However, the remote fire-fighting system has the following problems in the use process:

1. the user can not look over the surveillance video through APP at any time, and the user cell-phone also probably keeps away from the user (for example the user is in meeting, charges), and the APP of instant fire extinguishing system sends alarm information, and the user also has and can not in time obtain, leads to the user can not in time make corresponding emergency measure according to APP alarm information.

2. Most users have a certain distance between the working place and the home position for working reasons, and even if the users acquire alarm information from a remote monitoring system, the users cannot go home quickly for processing; if the user takes the way of informing other people (such as neighbors and property personnel) to process, the time is inevitably wasted, and the consequences caused by emergency events (such as the old people falling down accidentally or other emergencies) are inestimable

Disclosure of Invention

Based on the technical problems, the invention provides a household intelligent safety fire-fighting early warning and protecting system which has the characteristic of quick response, can quickly process indoor fire-fighting problems, and furthest guarantees the benefits of users.

In order to solve the technical problems, the technical scheme adopted by the invention is as follows:

the utility model provides a safety fire control early warning protection system of wisdom at home which characterized in that includes:

the sensor or the detector is used for monitoring the indoor environment and acquiring monitoring data;

the camera device is used for carrying out video monitoring indoors and obtaining monitoring data;

the host is used for acquiring the monitoring data and the monitoring data, storing and processing the monitoring data and the monitoring data, storing and sending a processing result, and triggering an alarm module in the host to give an alarm if the processing result exceeds a set value;

and the cloud platform is used for realizing communication connection with the plurality of hosts to acquire the processing results of the hosts and sending alarm information to the user, the property personnel of the community where the user is located, the fire center of the area where the user is located and the logistics service personnel according to the processing results.

In some embodiments, the home intelligent security fire fighting system further comprises at least one server, and the server is used for performing communication connection with each host in a service area of the server, acquiring a processing result of each host in the service area, and sending the processing result to the cloud platform.

In some embodiments, the sensor comprises a combination of one or more of a carbon monoxide sensor, a combustible gas sensor, a smoke sensor, a temperature sensor, an infrared sensor, a door sensor; the detector comprises one or more of a carbon monoxide detector, a combustible gas detector, a smoke detector, a temperature detector, an infrared detector or a door magnetic detector.

In some embodiments, after the cloud platform sends alarm information to the user, the property personnel of the cell where the user is located, the fire center of the area where the user is located, and the logistics service personnel, the cloud platform intermittently or uninterruptedly sends alarm information to the user, the property personnel of the cell where the user is located, the fire center of the area where the user is located, and the logistics service personnel to alarm.

In some embodiments, after the cloud platform sends alarm information to the user, the property personnel of the cell where the user is located, the fire center of the area where the user is located, and the logistics service personnel, the cloud platform establishes communication connection with the user, the property personnel of the cell where the user is located, the fire center of the area where the user is located, and the logistics service personnel, and confirms whether the user, the property personnel of the cell where the user is located, the fire center of the area where the user is located, or the logistics service personnel have gone to a place of affairs for processing; when any one of the user, the property personnel of the community where the user is located, the fire center of the area where the user is located or the logistics service personnel goes to the place of affairs for processing, the cloud platform informs the information that the personnel goes to the place of affairs for processing to the personnel who do not go to the place of affairs among the user, the property personnel of the community where the user is located, the fire center of the area where the user is located and the logistics service personnel.

In some embodiments, after the cloud platform receives information that any one of the user, the property personnel of the cell where the user is located, the fire center in the area where the user is located, or the logistics service personnel has gone to the place of affairs for processing, the cloud platform intermittently or uninterruptedly communicates with the personnel who have gone to the place of affairs for processing, and confirms whether the alarm needs to be released with the personnel who have gone to the place of affairs for processing.

In some embodiments, after the cloud platform receives information that any one of the user, the property personnel of the cell where the user is located, the fire center of the area where the user is located, or the logistics service personnel has gone to the place of affairs for processing, the cloud platform intermittently or uninterruptedly communicates with the personnel having gone to the place of affairs for processing, and confirms whether the personnel having gone to the place of affairs for processing need help, if the personnel having gone to the place of affairs for processing confirms that the personnel need help, the cloud platform establishes communication with the user, the property personnel of the cell where the user is located, the fire center of the area where the user is located, and the personnel having gone to the place of affairs for processing, and informs the personnel having gone to the place of affairs that the personnel need help.

In some embodiments, be provided with the warning on the host computer and remove the module, the fire fighter or the logistics service personnel of the fire control center in user, user's place district remove danger or confirm not have danger and then trigger the warning and remove the module, the host computer removes the warning and will remove alarm information transmission and give cloud platform, cloud platform will remove alarm information transmission and give the user, among the property staff in user's place district, the fire fighter and the logistics service personnel of the regional fire control center in user place not to the personnel of place of affairs.

In some embodiments, the cloud platform further establishes a communication connection with the emergency center, and when the cloud platform obtains the processing result of each host, sends alarm information to the user, property personnel in the cell where the user is located, a fire center, an emergency center, and a logistics service staff in the area where the user is located according to the processing result.

In some embodiments, the cloud platform analyzes and processes the acquired processing result of the host and obtains an analysis processing result, and the cloud platform sends alarm information to the user, property personnel in a cell where the user is located, a fire center, an emergency center, and a logistics service worker in an area where the user is located according to the analysis processing result.

In some embodiments, the host further comprises a display screen, and the host is in communication connection with the cloud platform and is used for downloading and receiving videos, audios, graphics and texts sent by the cloud platform and playing the videos, audios, graphics and texts through the display screen or projection; the host is also provided with a one-key alarm button, and when a user presses the one-key alarm button, the host sends alarm information and sends the alarm information to the user, property personnel in a community where the user is located, a fire center in an area where the user is located and a cloud platform.

In some embodiments, the host is further equipped with an infrared sensor, the host activates the display when the infrared sensor detects a person, and the display is in a power saving state when the infrared sensor does not detect a person.

In summary, due to the adoption of the technical scheme, the invention has the beneficial effects that:

when a fire-fighting event (such as a fire, combustible gas leakage, a theft event, falling down of the old and the like) occurs indoors in the use process of the household intelligent safety fire-fighting system, the host machine firstly judges, when the alarm is judged to be needed, the alarm module in the host machine automatically alarms, and informs a processing result to the cloud platform, and the cloud platform sends alarm information to a user, property personnel of a community where the user is located, a fire center of an area where the user is located and logistics service personnel, so that the user, the property personnel of the community where the user is located, the fire center of the area where the user is located and the logistics service personnel can quickly acquire the alarm information and respond and process the fire-fighting event. Compared with the mode of only giving alarm information to the user in the prior art, the invention can form the user, the property personnel of the community where the user is located, the fire-fighting center, the logistics service personnel, the emergency center and the like into an organic whole, so that when a fire-fighting incident occurs, the intermediate process is shortened, the processing can be rapidly carried out, the processing speed of the fire-fighting incident is improved to the maximum extent, and the loss of the user is reduced.

Meanwhile, the host machine of the invention is also provided with a one-key alarm button, when the emergency danger is caused, the user can realize one-key alarm by using the one-key alarm button and send alarm information to the user, property personnel in a community where the user is located, a fire center in an area where the user is located and logistics service personnel. The host machine of the invention is provided with the door magnetic sensor, so that the invention also has the anti-theft function.

Drawings

FIG. 1 is a block diagram illustrating an embodiment of a system of the present invention;

FIG. 2 is a block diagram illustrating an embodiment of a system of the present invention;

FIG. 3 is a block diagram schematic of the system of the present invention in use;

FIG. 4 is a block diagram illustrating an embodiment of a host of the present invention;

FIG. 5 is a block diagram illustrating an embodiment of a host of the present invention;

FIG. 6 is a block diagram illustrating an embodiment of a host according to the present invention;

FIG. 7 is a schematic structural diagram of an embodiment of an image capturing apparatus according to the present invention;

FIG. 8 is a schematic top view of the sliding sleeve of the present invention;

FIG. 9 is a block diagram illustrating an embodiment of a host of the present invention;

FIG. 10 is a block diagram illustrating an embodiment of a host of the present invention;

the labels in the figures are: 1. the device comprises a shell, 2, a mounting seat, 3, a driving motor, 4, a screw rod, 5, a screw rod nut, 6, a sliding groove, 7, a sliding sleeve, 8, an annular groove, 9, a sliding block, 10, a convex rib, 11, a camera, 12, a voice module, 13 and an infrared detector.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments.

In the description of the present invention, it is to be understood that the terms "one end", "the other end", "both ends", "between", "middle", "lower", "upper", "lower", etc. indicate orientations or positional relationships based on those shown in the drawings, and are only for convenience of description and simplicity of description, and do not indicate or imply that the device or element referred to must have a specific orientation, be constructed in a specific orientation, and be operated, and thus, should not be construed as limiting the present invention.

In the description of the present invention, it should be noted that, unless otherwise explicitly specified or limited, the terms "disposed" and "connected" are to be interpreted broadly, e.g., as a fixed connection, a detachable connection, or an integral connection; may be directly connected or indirectly connected through an intermediate. The specific meanings of the above terms in the present invention can be understood in specific cases to those skilled in the art.

With the attached drawings, the household intelligent safety fire-fighting system comprises:

the sensor or the detector is used for monitoring the indoor environment and acquiring monitoring data;

the camera device is used for carrying out video monitoring indoors and obtaining monitoring data;

the host is used for acquiring the monitoring data and the monitoring data, storing and processing the monitoring data and the monitoring data, storing and sending a processing result, and triggering an alarm module in the host to give an alarm if the processing result exceeds a set value;

and the cloud platform is used for realizing communication connection with the plurality of hosts to acquire the processing results of the hosts and sending alarm information to the user, the property personnel of the community where the user is located, the fire center of the area where the user is located and the logistics service personnel according to the processing results.

In some embodiments, the home intelligent security fire fighting system further comprises at least one server, and the server is used for performing communication connection with each host in a service area of the server, acquiring a processing result of each host in the service area, and sending the processing result to the cloud platform. The server is generally a server arranged in one area, is used for realizing communication connection with each host through the server, and performs data interaction with the cloud platform through the server. The host computer is in communication connection with the cloud platform and is used for downloading and receiving videos, audios, graphs and characters sent by the cloud platform and playing the videos, the audios, the graphs and the characters through the display screen or projection; the host is also provided with a one-key alarm button, and when a user presses the one-key alarm button, the host is in communication connection with the user, property personnel of a community where the user is located, a fire center of an area where the user is located and a cloud platform, and alarms.

In some embodiments, the sensor comprises a combination of one or more of a carbon monoxide sensor, a combustible gas sensor, a smoke sensor, a temperature sensor, an infrared sensor, a door sensor; the detector comprises one or more of a carbon monoxide detector, a combustible gas detector, a smoke detector, a temperature detector, an infrared detector or a door magnetic detector.

In some implementations, the sensor has a waterproof function for preventing water from entering the inside of the sensor, thereby ensuring normal use of the sensor.

Wherein, carbon monoxide sensor, combustible gas sensor, smoke transducer, temperature sensor, infrared sensor. The door magnetic sensor, which is otherwise known as a carbon monoxide detector, a combustible gas detector, a smoke detector, a temperature detector, an infrared detector and a door magnetic detector, belongs to the prior art products, and can be understood and appreciated by those skilled in the art, and are not described herein again. For example, the smoke detector can adopt an LS-828-7 photoelectric smoke detector, an LS-828-9 independent smoke detector, an LS-828-16 networking photoelectric smoke detector and the like; the combustible gas detector can adopt an LS-838-14 independent combustible gas detector, an LS-838-1 independent combustible gas detector, an LS-838-3 networking combustible gas detector, an LS-838-11 independent combustible gas detector and the like; the carbon monoxide detector can adopt an LS-858-4 independent digital display type carbon monoxide detector, an LS-858-1 networking type carbon monoxide detector, an LS-858-5 independent digital display type carbon monoxide detector and the like; the infrared detector can adopt LS-818-13 dual technology infrared detector, LS-818-1 wide angle type passive infrared detector, LS-818-2 wide angle type passive infrared detector and the like, and the sensor and the detector belong to the products in the prior art and are not described herein again.

The door magnetic sensor consists of a wireless emitter and a permanent magnet, is used for detecting whether doors, windows, drawers and the like are illegally opened or moved, and is divided into a wireless door magnet, a wireless rolling door magnet and a wired door magnet. Whether a person intrudes is judged by a door sensor.

In some embodiments, after the cloud platform sends alarm information to the user, the property personnel of the cell where the user is located, the fire center of the area where the user is located, and the logistics service personnel, the cloud platform intermittently or uninterruptedly sends alarm information to the user, the property personnel of the cell where the user is located, the fire center of the area where the user is located, and the logistics service personnel to alarm. The cloud platform can continuously send alarm information in a discontinuous or uninterrupted mode so as to prompt a user, property personnel of a community where the user is located, a fire center of an area where the user is located and logistics service personnel.

The logistics service personnel in the invention are personnel providing product service, and the logistics service personnel can be used for installing and maintaining products of the host and the sensor and can also be used as processing personnel of alarm information. When the user and the property personnel in the cell where the user is located do not go to the incident scene (for example, when other emergencies are processed), the logistics service personnel can go to the incident scene for processing.

The cloud platform sends alarm information to users, property personnel in a community where the users are located, fire centers in areas where the users are located and logistics service personnel, and can be in communication connection with the users, the property personnel, the fire centers and the logistics service personnel in modes of videos, voices, short messages and the like.

With reference to fig. 4, in some embodiments, the host includes a processor, and the processor is electrically connected to a storage module, an alarm module, a receiving module, a sending module, and an alarm release module, where the receiving module is configured to receive monitoring data from a sensor or a detector and monitoring data from a camera, and the receiving module is configured to perform data interaction with the sensor and the detector and the camera in a wireless or wired connection manner, and further configured to receive an instruction from a cloud platform. The storage module is used for storing monitoring data from the sensor or the detector and monitoring data of the camera device, and simultaneously stores a processing result obtained after the processor processes the monitoring data and the monitoring data. And the sending module is used for sending the processing result obtained after the processing of the processor to the cloud platform, or after the processing of the processor, the sending module sends the processing result to the server, and the server sends the processing result to the cloud platform. The alarm module is used for receiving the instruction sent by the processor and giving an alarm, wherein the alarm module can adopt an acoustic alarm, a photoelectric alarm or an acousto-optic alarm; and the alarm releasing module is used for closing the alarm module after receiving the instruction of the processor.

The processor is further used for executing corresponding operation according to the received control instruction from the cloud platform.

In some embodiments, when the processor processes the monitoring data of the sensor or the detector, the processor invokes the raw data stored in the storage module and uses the raw data as a criterion (or threshold) for evaluation, for example, when the carbon monoxide sensor, the temperature detector, the infrared sensor, and the combustible gas detector detect that the data is greater than a set threshold, the processor performs an alarm process.

In some embodiments, the processor further processes the monitoring data (video and audio) acquired by the camera device to obtain indoor conditions, such as whether a thief enters or an old person falls down; meanwhile, the monitoring data acquired by the camera device can be combined with the monitoring data, so that the processor can process and analyze the data conveniently, and the alarm accuracy is improved.

Referring to fig. 5, in some embodiments, the host further includes an access control module electrically connected to the processor, and the access control module is used to control access.

In some embodiments, still be provided with the display screen on the host computer, be used for showing the condition outside the entrance guard through the display screen to be convenient for the user to carry out identification.

In some embodiments, the host computer can also send the monitoring data, the monitoring data and the processing result to a cloud platform at the back end together, the cloud platform analyzes and judges again according to the monitoring data and the monitoring data so as to judge whether the processing result of the host computer is accurate, and when the processing result of the host computer is accurate, the cloud platform establishes communication connection with the user, the property staff of the community where the user is located, the fire center information of the area where the user is located and the logistics service staff according to the stored user information, the information of the property staff of the community where the user is located, the information of the fire center and the information of the logistics service staff, so that the alarm information is sent to the user, the property staff of the community where the user is located, the fire center information of the area where the user is located and the logistics service staff.

In some embodiments, the cloud platform can also classify according to the processing result of the host, and when the host detects that the combustible gas generated indoors exceeds the standard or finds a thief entering the room, the cloud platform can preferentially inform the user and/or property personnel of the community where the user is located to process;

when the host computer detects that an indoor fire disaster occurs, the cloud platform preferentially informs a fire center of an area where a user is located, and the fire center firstly carries out processing to an incident place.

When the host detects that the old people fall down indoors, the cloud platform can preferentially inform the user and/or property personnel in the cell where the user is located to go to process.

When the host and the cloud platform process and analyze the monitoring data and the detection data, the alarm can be given according to the processing and analyzing result in a grading manner, so that the utilization rate of social resources is improved, and the waste of the social resources is prevented.

In some embodiments, after the cloud platform sends alarm information to the user, the property personnel of the cell where the user is located, the fire center of the area where the user is located, and the logistics service personnel, the cloud platform establishes communication connection with the user, the property personnel of the cell where the user is located, the fire center of the area where the user is located, and the logistics service personnel, and confirms whether the user, the property personnel of the cell where the user is located, the fire center of the area where the user is located, or the logistics service personnel have gone to a place of affairs for processing; when any one of the user, the property personnel of the community where the user is located, the fire center of the area where the user is located or the logistics service personnel goes to the place of affairs for processing, the cloud platform informs the information that the personnel goes to the place of affairs for processing to the personnel who do not go to the place of affairs among the user, the property personnel of the community where the user is located, the fire center of the area where the user is located and the logistics service personnel. The invention establishes communication for the personnel who have already gone to the incident place, and then informs other personnel who have not gone to the incident place of the other personnel, thereby preventing the waste of excessive human resources.

In some embodiments, after the cloud platform receives information that any one of the user, the property personnel of the cell where the user is located, the fire center in the area where the user is located, or the logistics service personnel has gone to the place of affairs for processing, the cloud platform intermittently or uninterruptedly communicates with the personnel who have gone to the place of affairs for processing, and confirms whether the alarm needs to be released with the personnel who have gone to the place of affairs for processing. On one hand, the personnel are confirmed to be treated, and on the other hand, whether the fire-fighting event is the fire-fighting event can be confirmed on site through the personnel who go to the incident place.

In some embodiments, after the cloud platform receives information that any one of the user, the property personnel of the cell where the user is located, the fire center of the area where the user is located, or the logistics service personnel has gone to the place of affairs for processing, the cloud platform intermittently or uninterruptedly communicates with the personnel having gone to the place of affairs for processing, and confirms whether the personnel having gone to the place of affairs for processing need help, if the personnel having gone to the place of affairs for processing confirms that the personnel need help, the cloud platform establishes communication with the user, the property personnel of the cell where the user is located, the fire center of the area where the user is located, and the personnel having gone to the place of affairs for processing, and informs the personnel having gone to the place of affairs that the personnel need help. Therefore, the fire fighting event processing system can not only ensure that the fire fighting event can be processed, but also improve the utilization rate of social resources.

In some embodiments, be provided with the warning on the host computer and remove the module, the fire fighter or the logistics service personnel of the fire control center in user, user's place district remove danger or confirm not have danger and then trigger the warning and remove the module, the host computer removes the warning and will remove alarm information transmission and give cloud platform, cloud platform will remove alarm information transmission and give the user, among the property staff in user's place district, the fire fighter and the logistics service personnel of the regional fire control center in user place not to the personnel of place of affairs. That is to say, the system of this application both can remove the warning through the cloud platform, and the warning can be removed through the warning removal module on the host computer again simultaneously, further improves accuracy and the convenience that this application used.

In some embodiments, the cloud platform further establishes a communication connection with the emergency center, and when the cloud platform obtains the processing result of each host, sends alarm information to the user, property personnel in the cell where the user is located, a fire center, an emergency center, and a logistics service staff in the area where the user is located according to the processing result.

In some embodiments, the cloud platform analyzes and processes the acquired processing result of the host and obtains an analysis processing result, and the cloud platform sends alarm information to the user, property personnel in a cell where the user is located, a fire center, an emergency center, and a logistics service worker in an area where the user is located according to the analysis processing result.

When a fire-fighting event (such as a fire, combustible gas leakage, a theft event, falling down of the old and the like) occurs indoors in the use process of the household intelligent safety fire-fighting system, the host machine firstly judges, when the alarm is judged to be needed, the alarm module in the host machine automatically alarms, and informs a processing result to the cloud platform, and the cloud platform sends alarm information to a user, property personnel of a community where the user is located, a fire center of an area where the user is located and logistics service personnel, so that the user, the property personnel of the community where the user is located, the fire center of the area where the user is located and the logistics service personnel can quickly acquire the alarm information and respond and process the fire-fighting event. Compared with the mode of only giving alarm information to the user in the prior art, the invention can form the user, the property personnel of the community where the user is located, the fire-fighting center, the logistics service personnel, the emergency center and the like into an organic whole, so that when a fire-fighting incident occurs, the intermediate process is shortened, the processing can be rapidly carried out, the processing speed of the fire-fighting incident is improved to the maximum extent, and the loss of the user is reduced.

In some embodiments, the image pickup apparatus includes a housing 1, a driving motor 3 is installed in the housing 1, wherein an installation seat 2 is installed in the housing 1, the driving motor 3 is installed on the installation seat 2, a lead screw 4 is installed on an output shaft of the driving motor 3, a lead screw nut 5 is sleeved on the lead screw 4, a sliding groove 6 is formed in the periphery of the lead screw 5, a sliding sleeve 7 capable of sliding in the sliding groove is disposed in the sliding groove 6, a protruding ridge 10 mutually adaptive to the sliding groove 6 is disposed on an inner wall of the sliding sleeve 7, and the sliding sleeve 7 can slide vertically along the lead screw 4 and can rotate along with the lead screw 4 through the mutual matching of the protruding ridge 10 and the sliding groove 6, the sliding sleeve 5 is connected to a lower section of the lead screw, the lead screw nut 5 is located above the sliding sleeve 7, and when the lead screw nut 5 ascends and descends on the lead screw 4, the sliding sleeve 7 can be driven to slide the sliding sleeve 7 The screw rod 4 slides, and the bottom of the sliding sleeve 5 is provided with a camera 11 and an infrared detector 13. Wherein, the bottom of the housing 1 is provided with a through hole for the sliding sleeve 5 to pass through, so that the bottom of the sliding sleeve 5 can extend out of the housing 1.

In some embodiments, two sliding grooves 6 are symmetrically arranged on the periphery of the screw rod 4 along the length direction of the screw rod 4, and 2 protruding ridges 10 matched with the sliding grooves 6 are arranged on the inner wall of the sliding sleeve 7, so as to improve the moving stability of the sliding sleeve 7.

The camera device can drive the camera and the infrared detector to rotate through a driving motor in the using process, and can drive the camera and the infrared detector to lift simultaneously, so that the camera device can monitor from a plurality of angles, and more accurate information can be obtained.

In some embodiments, the lower end surface of the lead screw nut 5 is provided with an annular sliding groove 8, and the upper end surface of the sliding sleeve 7 is provided with a sliding block 9 which is matched with the annular sliding groove 8 and can slide in the annular sliding groove 8. Thereby enabling the lead screw nut 5 to be connected with the sliding sleeve 7 without affecting the normal rotation of the sliding sleeve 7.

In some embodiments, the host can acquire monitoring data of the camera and a thermal image of the infrared detector, and the processor in the host can compare the acquired thermal image, so as to determine whether the person falls down. Wherein the area of thermal imaging picture can be compared to the treater to judge whether personnel fall down. When indoor personnel normally walk, the area of a thermal imaging image of the personnel is smaller because the camera device is arranged at the indoor top. When the indoor personnel lie down, the area of the thermal imaging graph is larger, so that whether the personnel fall down can be judged according to the area comparison of the thermal imaging graph, and the thermal imaging graph has the characteristics of accurate judgment and small processing workload of the processor.

In some embodiments, the processor can further determine whether a person falls according to the combination of the monitoring data acquired by the camera and the thermal imaging graph.

In some embodiments, when the processor obtains the monitoring image in the monitoring data of the person, the processor further determines whether the person falls according to the number of frames of image change. For example, when a person sits normally or lies down, the time required for converting from a standing state to a lying state is longer (generally 3 to 5 seconds), and if the person accidentally falls, the time is generally 1 to 2 seconds, so that the processor can judge whether the person accidentally falls according to the frame number required from the standing state to the lying state in the acquired monitoring image.

In some embodiments, the processor compares the areas of the thermal imaging images, when the area change proportion of the thermal imaging images exceeds a preset value, the processor analyzes and processes the monitoring images in the monitoring data of the camera, and if the number of frames from the standing state to the lying state in the monitoring images exceeds the preset value, it is determined that a person in the room falls accidentally.

Therefore, when the processor is used for processing, whether personnel fall accidentally can be accurately judged, and meanwhile, the workload of the processor can be reduced.

In some embodiments, the processor is further electrically connected to the driving motor and configured to control the driving motor to operate, and when the area change ratio of the thermal imaging map exceeds a set value after the processor performs comparison according to the area of the thermal imaging map, the processor drives the driving motor to operate, so as to obtain the thermal imaging map and the monitoring image again from different angles and different heights.

In some embodiments, the installation cylinder is further provided with a voice module, the voice module is electrically connected with the processor and is controlled by the processor, when the processor judges that a person accidentally falls down indoors, the processor controls the voice module to make a sound for confirming whether the person needs help, and the voice module can send the sound obtained by the person to the processor for recognition so as to confirm whether the person needs help.

In some embodiments, the processor automatically triggers the alarm module to alarm when a voice reply is not received from the person within a set time interval.

In some embodiments, the host further comprises a display screen, and the host is in communication connection with the cloud platform and is used for downloading and receiving videos, audios, graphics and texts sent by the cloud platform and playing the videos, the audios, the graphics and the texts through the display screen or projection. The processor of the host is also electrically connected with a display module, and the display screen is controlled to be turned on or turned off through the display module; the host is also provided with a one-key alarm button, and when a user presses the one-key alarm button, the host sends alarm information and sends the alarm information to the user, property personnel in a community where the user is located, a fire center in an area where the user is located and a cloud platform. Namely, when the user presses the one-key alarm button, the host sends alarm information and sends the alarm information to the cloud platform, and the cloud platform sends the alarm information to the user, the property personnel of the community where the user is located, the fire center of the area where the user is located and the cloud platform, so that the alarm function is realized, and the joint response of the user, the property personnel of the community where the user is located, the fire center of the area where the user is located and the cloud platform is realized.

In some embodiments, the host is further equipped with an infrared sensor, and when the infrared sensor detects a person, the host activates the display screen, and when the infrared sensor does not detect a person, the display screen is in an energy-saving state, so that an energy-saving effect is achieved.

The above description is an embodiment of the present invention. The foregoing is a preferred embodiment of the present invention, and the preferred embodiments in the preferred embodiments can be combined and used in any combination if not obviously contradictory or prerequisite to a certain preferred embodiment, and the specific parameters in the embodiments and examples are only for the purpose of clearly illustrating the invention verification process of the inventor and are not intended to limit the patent protection scope of the present invention, which is subject to the claims and the equivalent structural changes made by the content of the description and the drawings of the present invention are also included in the protection scope of the present invention.

Claims (10)

1. A household intelligent safety fire-fighting early warning protection system is characterized by comprising

The sensor or the detector is used for monitoring the indoor environment and acquiring monitoring data;

the camera device is used for carrying out video monitoring indoors and obtaining monitoring data;

the host is used for acquiring the monitoring data and the monitoring data, storing and processing the monitoring data and the monitoring data, storing and sending a processing result, and triggering an alarm module in the host to give an alarm if the processing result exceeds a set value;

and the cloud platform is used for realizing communication connection with the plurality of hosts to acquire the processing results of the hosts and sending alarm information to the user, the property personnel of the community where the user is located, the fire center of the area where the user is located and the logistics service personnel according to the processing results.

2. The residential smart security fire protection system according to claim 1, further comprising at least one server, wherein the server is configured to perform communication connection with each host in a service area of the server, obtain a processing result of each host in the service area, and send the processing result to the cloud platform; the host computer is in communication connection with the cloud platform and is used for downloading and receiving videos, audios, graphs and characters sent by the cloud platform and playing the videos, the audios, the graphs and the characters through the display screen or projection; the host is also provided with a one-key alarm button, and when a user presses the one-key alarm button, the host sends alarm information and sends the alarm information to the user, property personnel in a community where the user is located, a fire center in an area where the user is located and a cloud platform.

3. The residential smart safety fire protection system of claim 1, wherein the sensor comprises one or a combination of more of a carbon monoxide sensor, a combustible gas sensor, a smoke sensor, a temperature sensor, an infrared sensor, a door sensor; the detector comprises one or more of a carbon monoxide detector, a combustible gas detector, a smoke detector, a temperature detector, an infrared detector or a door magnetic detector.

4. The residential intelligent security fire-fighting system according to claim 1, wherein after the cloud platform sends alarm information to the user, the property personnel of the community where the user is located, the fire center of the area where the user is located, and the logistics service personnel, the cloud platform intermittently or uninterruptedly sends alarm information to the user, the property personnel of the community where the user is located, the fire center of the area where the user is located, and the logistics service personnel to alarm.

5. The residential intelligent security fire fighting system according to any one of claims 1-4, wherein after the cloud platform sends alarm information to the user, the property personnel of the cell where the user is located, the fire center of the area where the user is located, and the logistics service personnel, the cloud platform establishes communication connection with the user, the property personnel of the cell where the user is located, the fire center of the area where the user is located, and the logistics service personnel, and confirms whether the user, the property personnel of the cell where the user is located, the fire center of the area where the user is located, or the logistics service personnel have gone to the place of affairs for processing; when any one of the user, the property personnel of the community where the user is located, the fire center of the area where the user is located or the logistics service personnel goes to the place of affairs for processing, the cloud platform informs the information that the personnel goes to the place of affairs for processing to the personnel who do not go to the place of affairs among the user, the property personnel of the community where the user is located, the fire center of the area where the user is located and the logistics service personnel.

6. The system of claim 5, wherein when the cloud platform receives information that any one of the user, the property personnel of the community where the user is located, the fire center in the area where the user is located, or the logistics service personnel has gone to the venue for processing, the cloud platform intermittently or continuously communicates with the personnel who have gone to the venue for processing and confirms whether the alarm needs to be released with the personnel who have gone to the venue for processing.

7. The system of claim 6, wherein when the cloud platform receives the information that any one of the user, the property personnel of the community where the user is located, the fire center of the area where the user is located, or the logistics service personnel has gone to the place of affairs for processing, the cloud platform intermittently or continuously communicates with the personnel who have gone to the place of affairs for processing, and confirms whether the personnel who have gone to the place of affairs for processing need help, if the personnel who have gone to the place of affairs for processing confirm that the personnel need help, the cloud platform establishes communication with the user, the property personnel of the community where the user is located, the fire center of the area where the user is located, and the personnel who have gone to the place of affairs for processing need help, and informs the personnel who have gone to the place of affairs that help is needed.

8. The resident intelligent safety fire fighting system according to claim 7, wherein the host computer is provided with an alarm removing module, the alarm removing module is triggered after the property personnel of the user, the district where the user is located, the fire fighter or the logistics service personnel of the fire center of the area where the user is located remove the danger or confirm that no danger exists, the host computer removes the alarm and transmits the removal alarm information to the cloud platform, and the cloud platform transmits the removal alarm information to the user, the property personnel of the district where the user is located, the fire fighter and the logistics service personnel of the fire center of the area where the user is located, without going to the accident site.

9. The system of claim 1, wherein the cloud platform further establishes a communication connection with an emergency center, and when the cloud platform obtains the processing results of the hosts, the cloud platform sends alarm information to the user, the property personnel in the community where the user is located, the fire center, the emergency center, and the logistics service personnel in the area where the user is located.

10. The residential intelligent security fire fighting system according to claim 8, wherein the cloud platform analyzes the acquired processing result of the host and obtains an analysis processing result, and sends alarm information to the user, the property personnel in the community where the user is located, the fire center, the emergency center, and the logistics service personnel in the area where the user is located according to the analysis processing result.

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