• 专利附录
  • 专利说明
  • 权利要求
  • 类似技术
  • 同族专利
  • 引用文献
  • 法律状态
  • 优先权
    • 专利摘要:
    Intelligent warning device for earthquakes and fires in buildings which, in the event of an earthquake, provides an early warning, defines evacuation routes and provides building diagnostics. The device consists of two modules: a central processing module (1) and a sensor and transmission module (2). The central processing module (1) consists of three sections: a solar power supply, an acceleration sensor with processing means, and an information processing and data transmission section. The sensor and transmission module (2) consists of two sections: a solar power supply and an acceleration sensor with processing means. The device comprises a network of wirelessly interconnected sensor modules, there being two types of sensor, fire and/or gas sensors and acceleration sensors, the latter being sensitive to seismic movement and listing.
    公开号:ES2541622A1
    申请号:ES201590047
    申请日:2013-11-14
    公开日:2015-07-22
    发明作者:Giovanni GONZALEZ PEÑUELA;Astrid RUBIANO FONSECA;Wilmer Julian CARRILLO LEON
    申请人:Universidad de Granada;
    IPC主号:
    专利说明:

    DESCRIPTION

    Smart seismic alert device

    TECHNOLOGICAL FIELD 5

    The present invention relates to an intelligent seismic alert device, which in case of an earthquake event, fulfills the function of pre-warning, comparing maximum acceptable parameters of acceleration, displacement and / or inclination, in real time and consequently determining whether It is necessary to evacuate or not. The final function is to diagnose the structure and inform whether the acceleration or displacement parameters were exceeded. It consists of two modules: a processing center module and a sensing and transmission module. It is configured through a network of wireless interconnected sensing and transmission modules, composed of sensors that can be of two types: gas and accelerometers, the latter are sensitive to seismic movements and inclinations, it is understood that one or two of them can be present sensors inside the processing center module and / or in the sensing and transmission module.

    The solar power supply, provides energy to the aforementioned sensors, is obtained from photocells, which by means of a current and voltage regulator circuit, controls the battery charge.

    When an earthquake occurs, it generates different types of waves; one of them superficial (S wave), which is destructive, and another longitudinal wave (P wave), faster than the previous one. The device takes advantage of this time difference on arrival to alert the occupants that a seismic event will occur and must be safeguarded (example in the triangle of life). Once the earthquake occurred, the device detects the damage suffered by the structure and detects if there was fire associated with the earthquake. After the earthquake, it evaluates whether the displacements presented are above those of design or the maximum estimated at the discretion, informing if the structure needs to be evacuated, evaluated or any attention by specialist engineers. The system can also be used for tsunamis.

    BACKGROUND OF THE INVENTION

    In the state of the art, there are seismic detection systems to carry out a previous alert, but none of them diagnose the structure according to established maximum parameters, nor do they adjust automatically according to the degradation of the stiffness of the structure. . The few that exist, have quite complex and expensive systems, as well as none of them informs if the structure needs to be evacuated, evaluated or any attention by specialist engineers. Nor do they make the decision, if evacuation is necessary or they must remain in place as a safe place.

    In this sense, document US4628299 refers to a method to provide an early alarm about the future occurrence of an earthquake comprising the following steps: Initially measure the field strength of a radio-broadcast signal at a location 45 separate from the location of transmitting said signal and delivering a humanly sensitive indication in case the field strength of said signal decreases beyond a previously predetermined value. In this case the signal of a station is monitored periodically.
     fifty
    On the other hand, document US591 0763 discloses a system that provides an alert to a specific population of an earthquake, before the ground movements typically associated with this type of natural disaster arrive.
    It uses several local stations, equipped with motion detectors and microprocessors designed to almost instantly give a profile of ground movement to a central processing site which collects similar signals from several sites together. A warning instruction is then transmitted back to all local detection sites to initiate the transmission of warnings to local areas of the general population. 5

    Another document in the state of the art related to this type of technology, is US6392538, this document presents a security system that responds to the notification sent wirelessly to inform a user, to take protective actions in situations such as earthquakes. The system is composed of: An earthquake sensor which detects said condition, a central office, a communications link and a transmitter who notify the central office.

    However, this invention has disadvantages that are based on the fact that the system is expensive, due to the required infrastructure. For the above; It is necessary to create a seismological network 15 that depends on the tectonic characteristics of the area to be covered. In addition, it does not take into account the static and dynamic characteristics of each building. This alarm system treats as a set of buildings by zones and all equally, regardless of the materials with which it was built, distribution of the mass in the building. Nor does it take into account alert systems during the event and subsequent diagnosis of the structure to the event.

    In addition to the previous documents, the US6731220 patent, which specifically relates a method of resolution of strong movements and a device that can use the recorded data of earthquakes in all parts of the world, to analyze the waveform of the strong agitations to obtain the characteristic parameters thereof. The method according to the invention is as follows: Calculate and analyze each kind of characteristic parameter of an earthquake in a pre-established time frame. The device uses a battery module, acceleration and tilt sensor module, micro controller module, alarm output module and status display module. This invention 30 is specifically used to analyze the characteristic parameters of an earthquake, however it does not involve aspects such as the response of the structure to the earthquake or its diagnosis.

    On the other hand, document US7598884, describes a seismic alarm system comprising two or more sensors to detect motion signals and the electronic processing elements of the signal to analyze them. According to the invention, the system has at least two detection units, each comprising a shock sensor and the electronic analysis elements, configured in such a way that they detect the primary waves of earthquakes using signals from the shock sensors. . 40

    The detection units monitor the primary waves to see if their intensity exceeds a predetermined value. Between the two units of the system there is a configured alarm which will be activated once the characteristic variables and the default values are compared, if these values coincide, a primary wave is thus confirmed. Four. Five

    Considering the above information; it is evident that there is a need in the state of the art to design and implement an intelligent earthquake alarm system specific to the static and dynamic characteristics of each particular building and that is capable of detecting the earthquake, not only to carry out the warning of prior alarm, but also can analyze the structural capacity of the building and give evacuation indications according to the response and structural conditions after the earthquake. It should be noted that the documents
    previously mentioned they are directed to the quantification of the earthquake but not of the response of the structure.

    In addition to the advantages of manipulation and adaptation to any type of civil structure, the device is characterized by being autonomous in terms of the power supply since 5 works by solar energy, reducing operating costs and ensuring its operation regardless of any electrical failure in the structure. Also, the device being wireless facilitates installation and guarantees connectivity.

    In all cases, once the earthquake has occurred, the processing center, in real time, 10 digitally stores the records of all the sensors, independently identified, analyzes them through the use of artificial intelligence and involves the particular structural conditions of each structure , which allows decision-making based on the structural characteristics of the building.
     fifteen
    The device can suggest the occupants to remain in their facilities once the earthquake has occurred because they consider the structure safe. This is because the accelerations previously established for evacuation were not exceeded. Additionally, it is required that the device be easy to use and with significant simplicity, in order to reduce its operation and maintenance costs. twenty

    DESCRIPTION OF THE FIGURES

    The invention can be understood in a better way by means of the figures, where each of the elements that make up the intelligent seismic alert system 25 to be protected is shown. In addition, the figures indicate the reference numbers assigned to the elements that make up said apparatus.

    Figure 1A corresponds to a distribution scheme of the intelligent seismic alert device according to the present invention, in which a possible configuration of the modules comprising the device, which are: processing center (1), is detailed. And one or more sensing and transmission modules (2) that make up a wireless network (2). Figure 1B shows a possible configuration for the device depending on the architectural or structural conformation of the building.
     35
    Figure 2 corresponds to the front view of the processing center module (1) of the intelligent seismic alert device, where the cover of the device supporting the solar panel (A) is illustrated. Figure 2A shows an internal view in detail of the processing center module (1) of the intelligent seismic alert device.
     40
    Figure 3 corresponds to a front view of the sensing and transmission module (2) of the intelligent seismic alert device, this external structure, in principle, is identical to that of Figure 2. Figure 3A, is an exploded view of the internal part of the sensing and transmission module (2).
     Four. Five
    Figure 4 corresponds to the flow chart where the operations carried out with the device of the invention are outlined before, during and after a seismic event.

    Figure 5 shows an example of the shape and size of the box for the devices according to the invention, where the width is 210 mm, the length is 185 mm and the depth 40 mm.

    DETAILED DESCRIPTION OF THE INVENTION

    The object of the present invention is to provide an intelligent seismic alert device, which basically consists of:
     5
    • A processing center module (1) and a sensing and transmission module (2).

    • The processing center module (1) consists of three sections: solar power supply (A), acceleration sensor and its processing (B), and information processing and data transmission (C). These are contained in a box. 10
    The solar power supply section is composed of a solar cell panel (A '), a charging circuit (A "), and a battery (A"').
    The acceleration sensing section and its processing (B), contains a sensor (13) that measures variations in acceleration and inclination in the three main axes, a microcontroller (14) which processes the signals delivered by the sensor and an element of sending of information comprising a device that is responsible for sending the wireless information (15) to the element (16) located in the section (C) that corresponds to the information processing and data transmission, where the element (16) it is a device similar to the device (15) that differs in that it only receives information emitted wirelessly by the device (15) located either within the processing center module (1) or in the sensing and transmission module (2) .
    The section of information processing and data transmission (C), is composed of a device for sending and receiving wireless information (16), microcontroller (17) and a memory unit (18).
     25
    • The sensing and transmission module (2), consists of two sections: solar power supply (A), acceleration sensor and its processing (B), these are contained in a box.
    The solar power supply section (A) is composed of a solar cell panel (A '), a charging circuit (A "), and a battery (A"'). 30
    The acceleration sensing section and its processing (B), contains a sensor (23) that measures variations in acceleration and inclination in the three main axes, a microcontroller (24) which processes the signals delivered by the sensor and an element of sending information comprising a device that is responsible for sending the information wirelessly (25) to the element (16) located in section (C) of the processing center module (1).

    In accordance with the above, it will be understood that the module (1) differs from the module (2), in the presence of the section (C) and that according to the user's need, any module (2) may be adapted to become in the module (1). 40

    Additionally, the intelligent seismic alert device of the present invention may comprise a network of two or more sensing and transmission modules (2) wirelessly interconnected with each other and with the processing center module (1).
     Four. Five
    In this sense, the number of sensing and transmission modules (2) will depend on the modes of vibration of the structure, its height, its mass distribution and the stiffness of its columns, irregularity in plan, irregularity in elevation, it is say of the dynamic characteristics of the structure. In one embodiment of the invention, the number of modules will be between 1 and 100, preferably 1 and 50, more preferably 1 and 10 per floor and 50 depending on the number of floors and stiffness of the structure.

    The processing center module (1) of the intelligent seismic alert device simultaneously receives and stores the information emitted by the element (24) of the sensing and transmission module or modules (2) and its own element (15).

    The shape and size of the box for the devices of the invention may vary according to the needs and preferences of the users. In the example presented in the invention, the width is between 210 mm and 300 mm, the length between 185 mm and 250 mm and the depth between 30 mm and 50 mm).

    Another object of the present invention is the use of the processing center module (1) within 10 of the intelligent seismic alert device, where the processing center module is used to analyze the information and allows the device to make the decision to notify the eviction or permanence within a structure after its movement.

    EXAMPLE OF OPERATION OF THE DEVICE OF THE INVENTION 15

    In a preliminary stage to the installation of the device of the invention, as illustrated in Figure 4, the person versed in the subject (Mechanical Engineer, Civil Engineer or related) will make the previous studies aimed at determining the dynamic characteristics of the structure, damage thresholds, coefficient of degradation of stiffness and responsiveness of the structure. From this information, the processing center module (1) is initially programmed, which will constantly receive the information sent by the sensing and transmission modules (2).

    Once the device of the invention is installed in the structure, the device goes into hibernation state, since the acceleration limits introduced with the initial programming are not exceeded.

    During a seismic event, for example, when the thresholds initially programmed for P waves, which arrive before the harmful waves S are exceeded, the device compares and stores the sensed information with the default for the structure, if this is exceeded, the The device will emit an alarm of the triangle of life, this can be of a sound or audiovisual type, which will be useful to reduce the probability of loss of life.

    When the S wave arrives, the device is responsible for storing the information delivered by each one of the sensing and transmission modules (2).
    Once the event is over, the device suspends the alarm of the triangle of life, and analyzes the information delivered by each of the sensing and transmission modules (2), in order to assess the structural condition and issue the second alarm to warn about the permanence or evacuation of the structure. 40
    权利要求:
    Claims (7)
    [1]

    1. An intelligent seismic alert device, characterized in that it comprises:
    • A processing center module (1) and a sensing and transmission module (2), in 5 where the processing center module (1) consists of three sections: solar power supply (A), acceleration sensor and its processing (B), and information processing and data transmission (C) and because the processing center module (1) and the sensing and transmission module (2) are contained in different boxes.
     10
    [2]
    2. The intelligent seismic warning device of claim 1, characterized in that the solar power supply section (A) is composed of a solar cell panel (A '), a charging circuit (A "), and a battery (A "') and the acceleration sensing section and its processing (B) contains a sensor (13) that measures variations in acceleration and inclination in the three main axes, a microcontroller (14) that processes the signals delivered by the 15 sensor and an information sending element comprising a device (15) that is responsible for sending the wireless information to the element (16) located in section (C) that corresponds to the information processing and data transmission.

    [3]
    3. The intelligent seismic alert device according to claim 2, characterized in that the element (16) is a device similar to the device (15) that differs in that it only receives information emitted wirelessly by the well located device (15) either within the processing center module (1) or in the sensing and transmission module (2).
     25
    [4]
    4. The intelligent seismic alert device according to claim 1, characterized in that the sensing and transmission module (2) is composed of two sections: solar power supply (A) and acceleration sensor and its processing (B), and because they are contained in a box.
     30
    [5]
    5. The intelligent seismic alert device according to claim 1, characterized in that in the sensing and transmission module (2), the section of the solar power supply (A) is composed of a solar cell panel (A ' ), a charging circuit (A "), and a battery (A" '), and because the acceleration sensing section and its processing (B), contains a sensor (23) that measures variations in acceleration and inclination in the three main axes, a microcontroller (24) which processes the signals delivered by the sensor and an information sending element comprising a device that is responsible for sending the information wirelessly (25) to the element (16) located in the section (C) of the processing center module (1).
     40
    [6]
    The intelligent seismic alert device according to claim 1, characterized in that the processing center module (1) simultaneously receives and stores the information emitted by the element (24) of the sensing and transmission module or modules (2) and of its own element (15).
     Four. Five
    [7]
    7. The use of a processing center module (1) within the intelligent seismic alert device to analyze the information and allow decision-making to notify eviction or permanence within a structure after its movement.
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    同族专利:
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    CO6700147A1|2013-06-28|
    WO2014076657A1|2014-05-22|
    ES2541622B1|2016-04-27|
    引用文献:
    公开号 | 申请日 | 公开日 | 申请人 | 专利标题
    CA2170561C|1996-02-28|2001-01-30|Raymond Wood|Gas, fire and earthquake detector|
    DE69829056T2|1997-08-19|2005-12-29|Tectonics Research Group Inc., Ville Lemoyne|METHOD AND APPARATUS FOR DETECTING UPPER EARTHQUAKES|
    JP2006194847A|2005-01-11|2006-07-27|Koji Shimizu|Earthquake alarm|
    CN101996470A|2009-08-11|2011-03-30|融智信科技发展有限公司|Wireless earthquake warning based on MEMS accelerometer|
    CN102507121B|2011-11-23|2014-04-16|浙江大学|Building structure seismic damage assessment system and method based on wireless sensor network|CN108961687A|2018-07-12|2018-12-07|柴剑勇|A kind of destructiveness near earthquake non-blind area method for early warning|
    法律状态:
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    优先权:
    申请号 | 申请日 | 专利标题
    CO12207180A|CO6700147A1|2012-11-15|2012-11-15|Intelligent alert and fire device in structures|
    CO12-207180|2012-11-15|
    PCT/IB2013/060142|WO2014076657A1|2012-11-15|2013-11-14|Intelligent warning device for earthquakes and fires in buildings|
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