TWI533259B - Surrounding-responsive security alarm system and method with dual-layered verification - Google Patents

Description

Dual-confirmed environment-integrated security alert method and integrated system thereof

The present invention relates to a dual-confirmed environment-integrated security alarm method and an integrated system thereof, and more particularly to sensing an environmental parameter in a sensing space by at least two sensing units, and passing through a communication host device The upper one compares the modules, compares whether the two environmental parameters are within a tolerance range, and whether they are higher than a preset one of the safety standard values, so as to achieve a double-confirmed environment integrated security alarm method And its integrated system.

At present, among household energy sources, gas (natural gas) is the energy currently used. Whether it is bottled gas or pipeline gas, it is mainly used for cooking and bathing in general homes due to its convenience and speed and stability. However, due to the usual use, the gas is leaked due to negligence or damage to the gas pipeline, which causes environmental fire or carbon monoxide poisoning, and even causes casualties. Moreover, it is easy to affect other innocent households or neighboring buildings, which in turn affects the safety of people's lives and property. Therefore, how to improve the safety of gas use at home is a problem that cannot be resolved at present.

However, in order to solve the above problems, there is currently a patent case for security monitoring. However, the patent case for security monitoring can only provide images and at most audio messages. In fact, whether the gas has leaks, whether there is a fire or smoke, whether the concentration of carbon monoxide or carbon dioxide is normal, etc. is difficult to obtain through the capture of images and sounds.

Furthermore, there is a patent case of the "Gas Detection and Alarm System" of the Republic of China Invention Patent Publication No. 200730810, which mainly includes a host and a sensing module connected to the host, the sensing module The parameter calibration module has a built-in parameter for correcting and setting the gas concentration and the alarm, and the sensing module is configured to send a corresponding signal to the host after the gas concentration detection, by the host Compare the recorded value of the signal with the preset value of the gas concentration, and issue a corresponding warning when the preset value is exceeded.

However, the above patents still have the following shortcomings:

1. The conventional "gas detection alarm system" can detect the gas concentration by the sensing module of the host, and the host compares the recorded value of the corresponding signal with the preset value of the gas concentration, and if the preset value is exceeded, the corresponding value is issued. Warning. However, the host often receives the corresponding signal sent by the sensing module, and if it exceeds the preset value after comparison, immediately issues a warning. Therefore, it is easy to cause false positives, that is, the false positive rate is greatly improved.

2. The detection unit described in the above "Gas Detection and Alarm System", in the event of damage or malfunction, even when there is no power supply, will lose the alarm function, which will make it difficult to be estimated.

Therefore, in order to solve the above-mentioned conventional "gas detection alarm system", the gas concentration detection can be performed by the sensing module of the host, and the host compares the recorded value of the corresponding signal with the preset value of the gas concentration. A corresponding alert is issued immediately when the preset value is exceeded. However, the host often receives the corresponding signal sent by the sensing module, and if it exceeds the preset value after comparison, immediately issues a warning. Therefore, it is easy to cause false positives, that is, the false positive rate is greatly improved. Furthermore, a dual-confirmed environment-integrated security alert method and its integrated system are proposed to solve the aforementioned shortcomings.

The dual-confirmed environment-integrated security alarm method and the integrated system thereof, the method comprising the steps of: arranging a first sensing unit and a second sensing unit in a sensing space; A sensing unit senses one of the first environmental parameters in the sensing space, wherein the first environmental parameter includes: a first gas content, a first smoke concentration change value, or a first temperature change value, Transmitting the first environmental parameter to a communication host by the first transmitting end of the first sensing unit One of the first receiving ends; the second sensing unit senses one of the second environmental parameters in the sensing space, wherein the second environmental parameter includes: a second gas content, a second smoke concentration a change value or a second temperature change value, the second environment of the second sensing unit transmitting the second environment parameter to the second receiving end of the wireless communication host; one of the communication host devices Comparing the module to whether the first environmental parameter and the second environmental parameter are within an allowable error range, and the tolerance range is between 1 percentage unit and 5 percentage units, and the first environmental parameter Whether the second environment parameter is higher than a preset one of the safety standard values; when the comparison module determines that the first environmental parameter and the second environmental parameter are within the tolerance range, and both are higher than the preset The security standard value is further sent by a control module of the communication host device to send a first abnormal warning signal to a server. When the server receives the first abnormal warning signal, the server performs corresponding execution. One of a warning signal of the first abnormal emergency procedures.

The first emergency processing program is one or a combination of the following: the rescue unit corresponding to the first abnormal warning signal goes to the sensing space and performs rescue, and the communication system performs the preset at least one contact person. The notification, or remote control, automatically opens one of the doors and windows of the periphery of the sensing space.

Wherein, when the comparison module determines that the first environmental parameter and the second environmental parameter are not within the tolerance range and is not equal to the preset safety standard value, the control module of the communication host device is further A second abnormal warning signal is sent to the server. When the server receives the second abnormal warning signal, the server executes a second emergency processing program corresponding to one of the second abnormal warning signals.

The second emergency processing program is sent to the sensing space by a maintenance unit corresponding to the second abnormal warning signal, and is inspected for the first sensing unit and the second sensing unit.

Further, a weight component is used to measure the weight of a gas bottle and converted into a gas residual amount, and one of the weight components transmits the gas residual amount to one of the third receiving ends of the communication host device. When the comparison module determines that the gas residual amount is lower than a safety preset value, the control module sends a distribution gas signal to the one gas distribution end.

Wherein, when receiving the distribution gas signal, the gas distribution end assigns a gas conveying device to and supplements the gas to increase the weight of the gas bottle.

Wherein, the gas transportation device is positioned by using a global satellite positioning system mounted on the gas transportation device, and the gas distribution device monitors the position of the gas transportation device.

In addition, an environment-integrated security alarm method and an integrated system thereof, as described above, include: the first sensing unit is disposed in the sensing space and has the first transmitting end; And the second sensing unit is disposed in the sensing space, and has the second transmitting end; the communication host device is disposed in the sensing space, and the first receiving end signal is connected to the first transmitting end And the second receiving end is connected to the second transmitting end, and the comparing module and the control module are disposed on the communication host device; the servo end is connected to the control module of the communication host device group.

Further, a weighing component measures the weight of a gas bottle and converts it into a gas residual amount, and the third transmitting end of the weighing component transmits the residual gas volume to one of the third receiving ends of the communication host device. When the comparison module determines that the gas residual amount is lower than a safety preset value, the control module sends a distribution gas signal to the one gas distribution end.

The first sensing unit is a first embedded sensing chip, and the second sensing unit is a second embedded sensing chip.

The first embedded sensing chip includes a first gas content sensing module, a first carbon monoxide sensing module, a first smoke content sensing module, and a first temperature sensing module.

The second embedded sensing chip is disposed on the communication host device, and the second embedded sensing chip includes a second gas content sensing module, a second carbon monoxide sensing module, and a second embedded sensing chip. The second smoke content sensing module and a second temperature sensing module.

The effect of the invention is:

1. The comparison module of the communication host device of the present invention compares one of the first environmental parameters in the sensing space by the first sensing unit, and the sensing space is sensed by the second sensing unit. One of the second environmental parameters. When the comparison module determines that the first environmental parameter and the second environmental parameter are within the allowable error range, and both are higher than the preset safety standard value, further controlling the module by one of the communication host devices , sends an abnormal warning signal to a server. When the server receives the abnormal warning signal, the server executes an emergency processing procedure corresponding to the abnormal warning signal. The main reason is that the false alarm rate can be greatly reduced by the double confirmation step, and it does not occur because the first sensing unit or the second sensing unit in the sensing space is faulty or has no power state. A major disaster.

2. The first emergency processing procedure disclosed in the present invention is one or a combination of the following: a rescue unit corresponding to one of the abnormal warning signals goes to the sensing space and performs rescue, and the rescue unit can be a hospital, a fire station, a policeman. Bureaus and other units, so as to make the first time emergency treatment of the location of the incident, to avoid the expansion of casualties.

3. The second emergency processing program disclosed in the present invention is directed to the sensing space by one of the maintenance units corresponding to the second abnormal warning signal and is inspected. When the comparison module on the communication host device determines that the first environmental parameter and the second environmental parameter are not within the tolerance range, the server will assign A maintenance unit goes to the sensing space for maintenance. The first sensing unit and the second sensing unit can be maintained to operate under normal conditions.

4. The present invention further discloses that a communication system is notified to at least one of the preset contacts, and the contact person may be the user, the relative, the family, the friend, or even the neighbor, when the situation is still under control. It can be used for immediate notification processing. For example, if only gas leakage occurs, and there is no fire point, you can contact the preset contact person to view it in the sensing space and further process it, which can greatly reduce the human and material resources of the rescue unit. cost.

5. The present invention also discloses that a window can be automatically opened through remote control. Currently, smart home appliances are more and more popular. For example, when an accident occurs, the smart home appliance in the home can be operated through a handheld electronic device (such as a mobile phone or a tablet). Urgent handling, mainly in the first time in the event of an emergency, to avoid regrets.

6. Use a weighing component to measure the weight of a gas bottle and convert it to a gas residual. And a third transmitting end of the weighing component transmits the residual amount of gas to a third receiving end of the communication host device. When the comparison module determines that the gas residual amount is lower than a safety preset value, the control module sends a distribution gas signal to the one gas distribution end. Therefore, the possibility of completely exhausting the gas bottle and the efficiency of gas distribution can be avoided.

7. A global satellite positioning system is installed on each gas transport device. The gas distribution end can position the gas transportation device by using a global satellite positioning system mounted on the gas transportation device, and the gas distribution device monitors the position of the gas transportation device. The main purpose is to improve the efficiency of gas distribution in order to avoid accidents in the distribution route and to deal with delays in distribution immediately.

(1)‧‧‧First sensing unit

(11) ‧‧‧First launch end

(2) ‧‧‧Second sensing unit

(21) ‧‧‧second launch end

(3) ‧‧‧Communication host device

(31) ‧‧‧First receiving end

(32) ‧‧‧second receiving end

(33) ‧‧‧ Alignment Module

(34)‧‧‧Control Module

(35) ‧‧‧ third receiving end

(4) ‧‧‧Server

(5) ‧‧‧Weighing components

(51)‧‧‧ Gas Bottle

(52) ‧‧‧ third launch end

(6) ‧ ‧ gas distribution end

(61) ‧ ‧ gas transmission device

(611)‧‧‧Global Positioning System

(A) ‧‧‧Sensing space

(B1)‧‧‧ doors and windows

(B2) ‧‧‧Fire Station

(B3) ‧ ‧ hospital

(B4)‧‧‧Smart electronic devices

(B5) ‧ ‧ indoor telephone

[First figure] is a schematic diagram of the first sensing unit and the second sensing unit of the present invention being disposed in a sensing space.

[Second Picture] is a three-dimensional schematic diagram of the first sensing unit and the communication host device of the present invention disposed in a sensing space.

[Third image] is a schematic diagram of sensing a first environmental parameter in the sensing space by the first sensing unit of the present invention.

[Fourth figure] is a schematic diagram of sensing a second environmental parameter in the sensing space by the second sensing unit of the present invention.

[Fifth Figure] is a block diagram of the present invention.

[Sixth Drawing] is a flow chart of the present invention.

[Seventh figure] is a schematic diagram of a first abnormal warning signal sent to a servo terminal by a control module of the communication host device of the present invention.

[Eighth figure] is a schematic diagram of the first emergency processing program to be executed by the server of the present invention, the first emergency processing program includes: the rescue unit corresponding to one of the abnormal warning signals goes to the sensing space and performs rescue, A communication system notifies the preset at least one contact, or the remote control automatically opens one of the doors and windows of the periphery of the sensing space.

[9th] is a schematic view of another state of the present invention.

[Tenth Graph] is a block diagram showing another state of the present invention.

[11th] is a schematic diagram of the distribution of the gas conveying devices of the present invention.

In combination with the above technical features, the main effects of the dual-confirmed environment-integrated security alert method and its integrated system of the present invention will be apparent from the following embodiments.

First, please refer to the first to fifth figures. The integrated system with dual confirmation environment integrated security alarm includes:

A first sensing unit (1) is disposed in a sensing space (A). The sensing space (A) may be a home, a factory, a station, an airport, a garage, and the like. In the present embodiment, the home is used as the sensing space (A), but the limitation may not be made accordingly. The first sensing unit (1) senses one of the first environmental parameters in the sensing space (A). The first sensing unit (1) includes a first transmitting end (11). The first environmental parameter includes: a first gas content, a first smoke concentration change value, or a first temperature change value. Wherein, the first gas content comprises a first gas content, a first carbon monoxide content, a first methane content, a first ethane content, a first propane content, a first butane content, and a first natural gas. Content, a first oxygen concentration, and the like.

A second sensing unit (2) is disposed in the sensing space (A). The second sensing unit (2) senses one of the second environmental parameters in the sensing space (A). The second sensing unit (2) includes a second transmitting end (21). The second environmental parameter includes: a second gas content, a second smoke concentration change value, or a second temperature change value. Wherein, the second gas content comprises a second gas content, a second carbon monoxide content, a second methane content, a second ethane content, a second propane content, a second butane content, and a second natural gas. Content, a second oxygen concentration, and the like.

It is further noted that the first sensing unit (1) and the second sensing unit (2) are disposed in the same sensing space (A). Moreover, the first sensing unit (1) is a first embedded sensing chip. The first embedded sensing chip includes a first gas content sensing module, a first carbon monoxide sensing module, a first smoke content sensing module, and a first temperature sensing module. The second sensing unit (2) is a second embedded sensing chip. The second sensing unit (2) includes a second gas content sensing module, a second carbon monoxide sensing module, a second smoke content sensing module, and a second temperature sensing module. The invention mainly embeds the first gas content sensing module, the first carbon monoxide content sensing module, the first smoke content sensing module and the first temperature sensing module into a sensing chip by using an embedded method. on. The second gas content sensing module, the second carbon monoxide sensing module, the second smoke content sensing module and the second temperature sensing module are embedded in the embedded manner. Sensing on the wafer. The advantage is that the embedded sensing chip itself does not need a power source, and the radio frequency identification system (Radio Frequency Identification, RFID) or wireless near field communication (NFC) can be used as the implemented wireless transmission mode.

a communication host device (3), the communication host device (3) is embedded with the second embedded sensing chip, and the communication host device (3) further includes a first receiving end (31) and a second receiving The end (32), a comparison module (33), a control module (34) and a third receiving end (35) [as shown in the ninth figure]. The first transmitting end (11) of the first sensing unit (1) transmits the first environmental parameter to the first receiving end (31) of the communication host device (3). The second transmitting end (21) of the second sensing unit (2) transmits the second environmental parameter to the second receiving end (32) of the communication host device (3). Further, the comparison module (33) on the communication host device (3) is within a tolerance range of the first environmental parameter and the second environmental parameter, and the tolerance range is 1 A percentage unit to 5 percentage units, and whether the first environmental parameter and the second environmental parameter are both higher than a preset one of the safety standard values.

a servo terminal (4) for receiving an abnormal warning signal issued by the control module (34) of the communication host device (3). The servo terminal (4) executes an emergency processing program corresponding to one of the abnormal warning signals.

Specifically, in the embodiment, the control module (34) is a central processing unit (CPU), which is mainly used to interpret instructions and processing data in the software. The general user can directly connect to the control module (34) by using a mobile phone or a computer (wired or wireless), thereby immediately understanding the environmental status from the data, and allowing the user to initially estimate the current situation on the spot. Or, at the remote end, the mobile terminal or the computer is connected to the server (4), and the connection and data transmission of the server (4) are performed, and the communication host device (3) detects and receives the communication device (3). All status information is transmitted to a mobile phone or computer operated by the user remotely, so that the user can monitor various situations of the sensing space (A) at a distance.

More specifically, the communication host device (3) in the embodiment further includes a warning module, and after receiving the abnormal warning signal transmitted by the comparison module (33), in addition to the control The module (34) will send the abnormal warning signal to the servo terminal (4), and the warning module will prompt and alert at the scene by means of light, sound or vibration. In order to avoid a disaster situation, some people in the family are in a state of sleep and cannot immediately notice the dangerous event, resulting in a more painful accident.

In addition, the communication host device (3) further includes an image module, the image module has a camera lens, and the camera lens is connected to the control module (34) for the user to remotely access the mobile phone or The computer is connected to the control module (34) of the communication host device (3), thereby controlling the operation of the camera lens, so that the user can view various changes of the environment, so that the security can be further improved.

Further, the communication host device (3) is further connected (wired/wireless) to a wind guiding device, and when the communication host device (3) receives the abnormal warning signal, it will be activated by the communication host device (3). The air guiding device further discharges harmful gases (such as carbon monoxide and gas) to avoid accidents.

Further, the communication host device (3) is further connected (wired/wireless) to a sprinkling device, and when the communication host device (3) receives the abnormal warning signal, it will be activated by the communication host device (3). The sprinkler equipment, in turn, extinguishes the fire source to achieve the most timely treatment.

Furthermore, please refer to the flowchart of the sixth figure, and refer to the fifth, seventh and eighth figures. Another object of the present invention is to provide a dual-confirmed environment-integrated security alert method. The method comprises the steps of: locating the first sensing unit (1) and the second sensing unit (2) in the sensing space (A).

The first sensing unit (1) senses the first environmental parameter in the sensing space (A). The first environmental parameter (11) of the first sensing unit (1) transmits the first environmental parameter to the first receiving end (31) of the communication host device (3).

The second sensing unit (2) senses the second environmental parameter in the sensing space (A). The second environmental parameter (21) of the second sensing unit (2) transmits the second environmental parameter to the second receiving end (32) of the wireless communication host (3).

Further comparing, by the comparison module (33) on the communication host device (3), whether the first environmental parameter and the second environmental parameter are within an allowable error range, and the first environmental parameter and the second Whether the environmental parameters are higher than the preset safety standard value.

The comparison module (33) on the communication host device (3) further determines the following situation:

1. When the comparison module (33) determines that the first environmental parameter and the second environmental parameter are within the tolerance range, further determining or comparing the first environmental parameter with the second environmental parameter Whether it is higher than the preset safety standard value. If the first environmental parameter or/and the second environmental parameter is higher than the preset safety standard value, the first abnormal warning signal is sent by the control module (34) of the communication host device (3). To the servo end (4). When the server (4) receives the first abnormal warning signal, the server (4) executes a first emergency processing program corresponding to one of the first abnormal warning signals. The first emergency processing program is one of the following or a combination thereof: the rescue unit corresponding to one of the abnormal warning signals goes to the sensing space (A) and performs emergency rescue, and at least one preset to the communication system The contact person or the remote control automatically opens one of the doors and windows (B1) of the periphery of the sensing space (A). Among them, the rescue unit may assign an ambulance to a fire station (B2) or a hospital (B3). The communication system is a smart electronic device (B4). Alternatively, the server (4) can be notified by an indoor telephone (B5) such as a home neighbor or an administrator to achieve immediate processing. Furthermore, if the first environmental parameter or/and the second environmental parameter is not higher than the preset safety standard value, the comparison module (33) actively determines the first sensing unit (1) And the second sensing unit (2) is in a state of normal operation. Therefore, the first environmental parameter and the second environmental parameter do not exceed the preset safety standard value.

2. When the comparison module (33) determines that the first environmental parameter and the second environmental parameter are not within the tolerance range, the first sensing unit (1) or/and the second sensing is represented. If the unit (2) may malfunction, the second abnormal warning signal is further sent by the control module (34) to the servo terminal (4). When the server (4) receives the second abnormal warning signal, the server (4) executes a second emergency processing program corresponding to one of the second abnormal warning signals. The second emergency processing program is sent to the sensing space (A) by a maintenance unit corresponding to the second abnormal warning signal, and for the first sensing unit (1) and the second sensing unit (2) ) to carry out maintenance. The first sensing unit (1) and the second sensing unit (2) can be maintained to operate under normal conditions.

It is further noted that the present invention mainly determines whether the first environmental parameter and the second environmental parameter are within the tolerance range by the comparison module (33). And whether the first environmental parameter and the second environmental parameter are higher than the preset safety standard value. Further, the purpose of double confirmation is to prevent the sensor from directly transmitting its sensed value to the servo terminal (4) during sensing, so that the present invention can greatly reduce the false alarm rate.

Furthermore, please refer to the ninth to eleventh figures. Further, a weighing element (5) is placed in the sensing space (A) [user's home], and a gas bottle (51) is placed on the weighing element (5). The weighing element (5) mainly measures the weight of the gas bottle (51) and converts it into a gas residual amount. The weighing element (5) has a third transmitting end (52). The gas residual amount is mainly transmitted to the third receiving end (35) of one of the communication host devices (3) through the third transmitting end (52). Specifically, in addition to knowing the gas residual amount of the gas bottle (51) through the weighing element (5), it can be measured by a pressure gauge, and the pressure gauge is disposed in the gas bottle (51). The outlet of the gas bottle is used to sense the pressure change of the gas bottle (51), and then the pressure change is converted into the gas residual amount, wherein the pressure gauge can be of a type or a digital type.

When the comparison module (33) of the communication host device (3) determines that the gas residual amount is lower than a safety preset value, a control gas signal is issued by the control module (34) of the communication host device (3). To one Gas distribution end (6). When the gas distribution signal is received by the gas distribution end (6), a gas conveying device (61) can be directly assigned to and supplemented with gas to increase the weight of the gas bottle. Or notify a gas line adjacent to the location of the communication host device (3), the gas line must be in a relationship with the gas distribution end (6), and the gas line assigns the The gas transport device (61) continues to deliver.

It is further noted that a global satellite positioning system (611) [Global Positioning System, GPS] is disposed on each gas transport device (61). The gas transport device (61) can be positioned mainly by the global satellite positioning system (611) installed on the gas transport device (61), and each gas transport device is monitored by the gas distribution terminal (6). ) The location. If the gas transportation device (61) has a car accident or any accident during the transportation, the gas distribution terminal (6) can immediately handle the situation. Immediately assigned and another gas transport device (61) to the place where it was originally intended to be transported, without causing delays in shipping.

In view of the above description of the embodiments, the operation, use, and effects of the present invention can be fully understood. The above described embodiments are merely preferred embodiments of the invention, and are not intended to limit the scope of the invention. That is, the simple equivalent changes and modifications made by the scope of the invention and the description of the invention are within the scope of the invention.

(1)‧‧‧First sensing unit

(2) ‧‧‧Second sensing unit

(3) ‧‧‧Communication host device

(A) ‧‧‧Sensing space

Claims (10)

An environment-integrated security alarm method with double confirmation, the method comprising the steps of: arranging a first sensing unit and a second sensing unit in a sensing space; the first sensing unit is sensing a first environmental parameter in the sensing space, wherein the first environmental parameter comprises: a first gas content, a first smoke concentration change value or a first temperature change value, by the first sensing unit And transmitting, by the first transmitting end, the first environment parameter to a first receiving end of a communication host device; the second sensing unit sensing one of the second environmental parameters in the sensing space, wherein the first transmitting unit The second environmental parameter includes: a second gas content, a second smoke concentration change value or a second temperature change value, and the second environmental parameter is transmitted to the communication by the second transmitting end of the second sensing unit a second receiving end of the host device; whether the first environment parameter and the second environmental parameter are within an allowable error range by the comparison module on the communication host device, and the tolerance range is 1 a percentage unit to 5 percentage units, and whether the first environmental parameter and the second environmental parameter are higher than a preset one of the safety standard values; when the comparison module determines the first environmental parameter and the second environment When the parameter is within the allowable error range and is higher than the preset safety standard value, the control module of the communication host device sends a first abnormal warning signal to a server, and the server receives the parameter. When the first abnormal warning signal is sent, the server performs a first emergency processing procedure corresponding to one of the first abnormal warning signals. The method of claim 2, wherein the first emergency processing procedure is one of the following or a combination thereof: by the rescue unit corresponding to the first abnormal warning signal The sensing space is rescued, and a communication system is notified to at least one of the preset contacts, or the remote control automatically opens one of the doors and windows of the periphery of the sensing space. The double-confirmed environment-integrated security alarm method of claim 1, wherein the comparison module determines that the first environmental parameter and the second environmental parameter are not within the tolerance range, and When the security standard value is equal to the preset value, the second abnormal warning signal is sent to the server by the control module of the communication host device, and the servo terminal receives the second abnormal warning signal. Perform a second emergency procedure corresponding to one of the second abnormal warning signals. The double-confirmed environment-integrated security alarm method according to claim 3, wherein the second emergency processing program is sent to the sensing space by a maintenance unit corresponding to one of the second abnormal warning signals, and is directed to The first sensing unit and the second sensing unit perform maintenance. For example, the double-confirmed environmentally integrated safety alarm method described in claim 1 further uses a weighing component to measure the weight of a gas bottle and convert it into a gas residual amount, one of the weighing components. The third transmitting end transmits the gas residual amount to a third receiving end of the communication host device, and the comparison module determines that the gas residual amount is lower than a safety preset value, and the control module sends a distribution gas signal To a gas distribution terminal. The double-confirmed environment-integrated security alarm method according to claim 5, wherein when the gas distribution end receives the distribution gas signal, the gas distribution device assigns a gas transportation device to and supplements the gas to increase the gas bottle. the weight of. The double-confirmed environmentally integrated security alert method according to claim 6, wherein the gas transport device is positioned by the global satellite positioning system mounted on the gas transport device, and the gas is distributed by the gas. The end monitors the location of the gas transport device. An integrated system for performing the dual-confirmed environment-integrated security alarm method as described in claim 1 includes: the first sensing unit is disposed in the sensing space, and the first a transmitting end; and the second sensing unit is disposed in the sensing space and has the second transmitting end; the communication host device is disposed in the sensing space, and the first receiving end signal is connected to the First hair The emitter end and the second receiving end signal are connected to the second transmitting end, and the comparing host module and the control module are arranged on the communication host device; the servo end is connected to the control of the communication host device Module. An integrated system with a double-confirmed environmentally integrated safety alert method as described in claim 8 further, wherein a weighing component measures the weight of a gas bottle and converts it into a gas residual amount, the scale The third transmitting end of the heavy component transmits the residual amount of the gas to the third receiving end of the communication host device, and the comparison module determines that the gas residual amount is lower than a safety preset value, the control module sends out A distribution of gas signals to a gas distribution terminal. The integrated system of the dual-confirmed environment-integrated security alarm method of claim 8, wherein the first sensing unit is a first embedded sensing chip, and the second sensing unit is Is a second embedded sensing chip, and the first embedded sensing chip comprises a first gas content sensing module, a first carbon monoxide content sensing module, and a first smoke content sensing module. And a first temperature sensing module, and the second embedded sensing chip is disposed on the communication host device, and the second embedded sensing chip includes a second gas content sensing module, The carbon monoxide content sensing module, a second smoke content sensing module and a second temperature sensing module.