WO2014082344A1 - Wireless startup system and startup method for achieving many-to-many sensing function by utilizing identification code - Google Patents

Abstract

The present invention relates to a wireless startup system and a startup method for achieving a many-to-many sensing function by utilizing an identification code. The wireless startup system includes a plurality of sensing devices and a plurality of startup devices. The sensing device can randomly generate an identification code, is set with the corresponding startup device in a wireless transmission mode, and enables the sensing device and the startup device to respectively store the group of identification codes. When the sensing device detects an environmental change, the sensing device can still transform all the stored identification codes into a wireless signal, and send the signal to the outside. After the startup device receiving the wireless signal, if the startup device judges that the identification code in the wireless signal is corresponding to the stored identification code, the startup device can lead the electric power provided by a power supply unit into an electric apparatus. Therefore, the set procedure of the wireless startup system can be effectively simplified, the plurality of sensing devices and the plurality of startup devices can carry out cross induction through the different identification codes so as to achieve a perfect many-to-many sensing function.

Description

 Wireless start system and startup method for achieving multi-to-many sensing function by using identification code

 The invention relates to a wireless starting system and a starting method for achieving a multi-to-many sensing function by using an identification code, wherein a plurality of sensing devices and starting devices in the wireless starting system can perform code setting by an identification code, and the sensing device is When detecting the change of the surrounding environment, all the stored identification codes can be sent to the outside world, so that the starting device can determine the system and method for starting an electronic device after the identification code matches, and the wireless starting method can effectively simplify the wireless Start the system setup program and achieve the many-to-many sensing function.

Background technique

 With the rapid development of technology and the improvement of the quality of life, the safety of the living environment has become an important issue that has attracted more and more attention. The relevant industry is also constantly researching and improving technology. Design a comprehensive security system to effectively protect the home security of the residents, or to monitor and protect the company's line number and financial institutions.

However, since the current security system is too complicated in the processing procedure of the software, it is usually necessary to properly set the security system through a professional operator, so that the user cannot adjust it conveniently according to his own needs. . Referring to FIG. 1 , a conventional security system 1 includes a security system host 10 , a plurality of sensing devices 11 , and an alarm device 12 . The security system host 10 is provided with a host processing module 101 . a setter module 102 and a memory module 103; the sensing device 11 can be a light transmission a sensor, an infrared sensor, a smoke sensor, etc.; the alarm 12 is electrically connected to the host processing module 101. When the security system 1 is initially installed, the user must install each of the sensing devices 11 in a specific a position (eg, a porch), and through the setter module 102, setting various parameters of the sensing device 11 (eg, conditions for triggering sensing), and the memory module 103 can store the sensing devices The detection device 11 can transmit a trigger signal to the host processing module 101 to cause the host module 101 to drive the alarm device 12 when each of the sensing devices 11 detects a change in the surrounding environment. Generate an alert.

 In the foregoing security system 1, the sensing devices 11 are respectively connected to the security system host 10 through a physical line. Therefore, once the installation is completed, if the user wants to change the position of the sensing position 11 , it is necessary to change the layout of the physical line in a big way, causing a lot of inconvenience, in addition, with the different needs of users, the security system host

In addition to being electrically connected to the alarm device 12, it may be necessary to simultaneously connect a camera, an emergency light or a speaker. However, in order to allow each of the sensing devices 11 to generate a trigger signal, multiple devices can be simultaneously driven ( SP, alarm, emergency light or camera), after the user completes the connection of the physical line, the setter module 102 must still be set to specify each sensing device 11 and the corresponding device that can be driven. In this way, not only the complexity of the setting procedure is greatly improved, but also when the user wants to additionally install a sensing device 11 or other devices with different functions, the security system host 10 must be re-set. inconvenient.

The inventors have found that, in addition to the conventional security system, other control systems applied to different levels have similar problems, and a control system applied to a garden or a greenhouse is For example, the conventional control system can only use a temperature sensor to activate the sprinkler to sprinkle when the temperature is too high. If you want to detect the temperature, humidity and light level at the same time, sprinkle and turn on at the appropriate time. For different actions such as lighting fixtures or closing the greenhouse sunroof, three sets of sensors and corresponding controllers must be arranged separately. In addition, if the user still wants to perform multiple actions under different conditions (eg when the humidity is too low) Only sprinkling water, when the temperature is too high, sprinkling water at the same time and closing the greenhouse sunroof), it must be judged through a host as in the above-mentioned security system. This will not only greatly increase the production and maintenance costs of the control system, but also The setting is still too complicated. Therefore, how to improve the conventional security system or the control system to solve the problem that the setting procedure is too cumbersome is an important problem that the present invention is intended to solve here.

Summary of the invention

 The present invention is directed to the deficiencies of the prior art, and provides a wireless starting system and a starting method for achieving a multi-to-many sensing function by using an identification code, wherein a plurality of sensing devices and starting devices in the wireless starting system can perform code setting by using an identification code. And the system and method capable of starting an electronic device after the detecting device determines that the identification code matches, when the detecting device detects the surrounding environment change, and can send all the identification codes stored to the outside, and the starting device determines that the identification code matches The method will effectively simplify the setting procedure of the wireless booting system and achieve the function of many-to-many sensing.

 In order to achieve the above object, the present invention utilizes an identification code to achieve a multi-to-many sensing function, and includes a plurality of sensing devices and a plurality of activation devices. The sensing device includes:

A sensing module that produces a sense of detection when the surrounding environment changes Signal number;

 An encoding module capable of randomly generating an identification code when activated;

 a first transmission module for receiving and transmitting signals;

 a first storage module; and

 a first processing module, the first processing module is electrically connected to the sensing module, the encoding module, the first transmission module, and the first storage module, and the first processing module can convert the identification code into an identification signal, and After the first transmission module is sent to the outside, and then receives a certain signal through the first transmission module, the identification code is stored in the first storage module as a sensing identification code; the first processing When receiving the sensing signal, the module can still convert all the sensing identification codes stored in the first storage module into a wireless signal, and send the wireless signal to the outside through the first transmission module;

 The starting device is electrically connected to an electronic device and a power supply unit respectively to turn on or off the power supply unit, thereby providing or disconnecting power of the electronic device, and includes: a decoding module, configured to Identifying signals and wireless signals for decoding; a second transmission module for receiving and transmitting signals;

 a second storage module; and

a second processing module is electrically connected to the decoding module, the second transmission module, and the second storage module, and the second processing module can receive the identification signal through the second transmission module, and pass the decoding module After the identification code is obtained, the identification code is stored in the second storage module as a startup identification code, and the determination signal is sent to the outside through the second transmission module; the second processing module is still transparent. Receiving the second transmission module Transmitting, by the decoding module, the sensing identifiers carried in the wireless signal, and turning on the power of the power supply unit if it is determined that each of the sensing identifiers matches the startup identification code To the electronic device to cause the electronic device to start operating.

 Preferably, after the determining device determines that each sensing identification code matches the activation identification code, the second processing module can continue to conduct power of the power supply unit to the electronic device for a predetermined time.

 Preferably, the sensing module is one of the following electrical components: an infrared sensing module, an acoustic sensing module, and a temperature sensing module.

 Preferably, a power module is disposed in the sensing device, and the power module is electrically connected to the first processing module to provide power required for the first processing module to operate normally.

 A wireless booting method for achieving a multi-to-many sensing function by using an identification code, the wireless starting method is to cause each of the sensing devices to perform the following steps:

 Randomly generating an identification code;

 Converting the identification code into an identification signal, and transmitting the identification signal to the outside world by wireless transmission;

 After receiving a certain signal, the identification code is stored as a sensing identification code; and

 In the event that a change in the surrounding environment is detected, all of the stored identification codes are converted into a wireless signal and sent to the outside world;

 The wireless booting method can also enable each of the booting devices to perform the following steps:

Receiving the identification signal; Decoding the identification signal to obtain the identification code, and storing the identification code as a startup identification code;

 Sending the determination signal to the outside world by wireless transmission;

 Receiving the wireless signal, decoding the wireless signal to obtain the sensing identifier carried in the wireless signal; and

 When it is determined that each of the proximity identification codes matches the activation identification code, the power of the power supply unit is turned on to the electronic device to cause the electronic device to start operating.

 Preferably, the starting device can continue to conduct power of the power supply unit to the electronic device for a predetermined time after determining that each of the sensing identification codes is consistent with the activation identification code.

 Since each of the sensing devices transmits the identification code wirelessly to perform data transmission with each of the activation devices, the user can conveniently install the sensing device at any place, thereby solving the problem that the user has to spend a lot of time in the past. A redundant program for setting the connection line and setting the sensing device and the corresponding activation device through a host.

 Each of the sensing devices can transmit the wireless signal to the corresponding plurality of activation devices to activate the electronic device, so that the user only needs to configure a plurality of sensing devices, that is, the sensing devices can be detected. When detecting changes in the surrounding environment (such as: when an outsider invades the house), the activation device is automatically notified to activate the corresponding electronic device (such as: a lamp, a camera, or an alarm) to achieve a cross between multiple sensing devices and multiple activation devices. The function of sensing and starting further improves the wireless starting system.

DRAWINGS

Figure 1 is a schematic diagram of a conventional security system; 2 is a schematic diagram of an embodiment of a wireless booting system of the present invention; FIG. 2 is a schematic diagram of an embodiment of a wireless booting system of the present invention;

 4A is a flowchart of an embodiment of a wireless booting method of the present invention;

 4B is a flow chart of an embodiment of a wireless booting method of the present invention.

Among them, 2 is a wireless starting system, A, Al, A2, A3 are sensing devices, B, Bl, B2, B3 are starting devices, C is an electronic device, D is a power supply unit, 310 is a sensing module, and 311 is an encoding module. 312 is the first transmission module, 313 is the first storage module, 314 is the first processing module, 315 is the power module, 321 is the decoding module, 322 is the second transmission module, 323 is the second storage module, and 324 is the second. Processing module.

detailed description

 The present invention is described in detail below with reference to the accompanying drawings and specific embodiments.

 The present invention is a wireless booting system and method for achieving a multi-to-many sensing function using an identification code. Referring to FIG. 2, which is a first preferred embodiment of the present invention, the wireless starting system 2 includes a plurality of sensing The device A and the plurality of activation devices B, wherein each of the sensing devices A is capable of detecting changes in the surrounding environment, and each of the activation devices B is electrically connected to a power supply unit D and an electronic device C to be electrically connected. Or cutting off the power supplied by the power supply unit D to the electronic device C.

As shown in the second and third embodiments, the sensing device A includes a sensing module 310, an encoding module 311, a first transmission module 312, a first storage module 313, and a first processing module. 314 and a power module 315; the sensing module 310 is capable of detecting changes in the surrounding environment and detecting changes (eg, an outsider invades the home), The first module 311 is configured to receive and transmit signals, and the power module 315 is electrically connected to the first processing module 314 to provide The first processing module 314 is configured to operate normally. The activation device B includes a decoding module 321 , a second transmission module 322 , a second storage module 323 , and a second processing module 324 . The decoding module 321 . The signal can be decoded; the second transmission module 322 is configured to receive and transmit signals. In particular, the components of the sensing device A and the starting device B can be integrated into a single processing chip or a micro-controller MCU (Micro Controller Unit) according to the design requirements of the manufacturer. Heming Chen Ming.

 Referring to FIG. 2, FIG. 3 and FIG. 4A, in the first preferred embodiment of the present invention, the wireless booting method includes a pair of code programs and a sensing program, and the pairing program enables the user to The sensing device A corresponds to at least one starting device B, and the flow includes the following steps:

 (401) When the user simultaneously presses one of the sensing device A and the pairing function button on the starting device B, the wireless activation system 2 can enter a pair of code modes. At this time, the encoding module 311 of the sensing device A Can randomly generate an identification code (such as: A1X);

 (402) The first processing unit 314 of the sensing device A converts the identification code into an identification signal, and transmits the identification signal to the outside world through the first transmission module 312.

(403) after receiving the identification signal, the second transmission module 322 of the activation device B can perform decoding through the decoding module 321 to obtain an identification code carried in the identification signal, and the second processing of the activation device B Module 324 can store the identification code to the second The storage module 323 is used as a startup identification code;

 (404) After the activation device B stores the identification code as the activation identification code, a confirmation signal can be generated, and the confirmation signal is transmitted back to the sensing device A via the second transmission module 323;

 (405) After receiving the confirmation signal, the sensing device A can store the identification code to the first storage module 313 as a sensing identification code, so that the sensing identification code can be combined with the activation identification code. Corresponding (such as: A1X shown in the figure), and then complete the code matching program in the wireless starting method.

 As shown in FIG. 4B, after the sensing device A detects a change in the surrounding environment, the wireless starting system 2 can automatically enter the sensing program, including the following steps:

 (406) The sensing module 310 of the sensing device A generates an inductive signal to the first processing module 314 when detecting changes in the surrounding environment;

 (407) after receiving the sensing signal, the first processing module 314 of the sensing device A reads all the sensing identification codes (such as: A1X, A1Y, A1Z) stored in the first storage module 313, and Converting the identification code into a wireless signal;

 (408) the sensing device A transmits the wireless signal to the outside through the first transmission module 312;

 (409) The activation device B in the range of the wireless signal transmission receives the wireless signal through the second transmission module 322, and performs decoding through the decoding module 321 to obtain all the information carried in the wireless signal. Inductive identification code;

(410) the second processing module 324 of the boot device B determines the wireless signal Is the proximity identification code consistent with each of the activation identification codes (eg, A1X, A2X, A3X) stored in the second storage module 323? If yes, proceed to step (411); otherwise, end the sensing procedure; and

 (411) The second processing module 324 of the starting device B turns on the power provided by the power supply unit D to enable the corresponding electronic device to start operating.

 Referring to Figures 2 and 3, although the foregoing embodiment of the wireless activation method of the present invention is described with only a single sensing device A, the wireless activation method can be simultaneously applied in practical applications. A plurality of sensing devices A and a plurality of starting devices B are used to achieve a starting performance of cross sensing between the plurality of sensing devices A and the plurality of starting devices B. For example: Please refer to Figure 2, the user can install each of the sensing devices A1, A2, A3 at each entrance and exit of the house (such as: porch, balcony or back door), and the starting modules Bl The B2 and the B3 are respectively electrically connected to the power supply unit D and the different electronic devices C (in the embodiment, the electronic device C can be a camera, an alarm, and a lighting device, respectively), and through the wireless starting method described above, The sensing device A1 is sequentially coded with each of the starting devices B1, B2, and B3 to respectively correspond three sets of identification codes A1X, A1Y, and A1Z to each of the starting devices B1, B2, and B3; The user can still set the sensing device A2 to each of the starting devices B1, B2, and B3 to match the three sets of identification codes A2X, A2Y, and A2Z to the respective starting devices B1, B2, and B3. The sensing device A3 can perform code setting with each of the starting devices B1, B2, and B3 through the three sets of identification codes A3X, A3Y, and A3Z, respectively.

After the pairing of the sensing devices A1, A2, and A3 and the starting devices B1, B2, and B3 are respectively set, three sets of sensing codes are stored in the sensing device A1. A1X, A1Y, AZ (Similarly, the sensing identification code in the sensing device A2 is A2X, A2Y, A2Z; the sensing identification code in the sensing device A3 is A3X, A3Y, A3Z), and the starting device B1 stores three The group activates the identification codes A1X, A2X, A3X (same reason, the activation identification code in the activation device B2 is A1Y, A2Y, A3Y; the activation identification code in the activation device B3 is A1Z, A2Z, A3Z), in the induction When the device A1 senses that the surrounding environment changes, the sensing device A1 can convert the sensing identification codes A1X, A1Y, and A1Z into wireless signals, and each of the starting devices B1, B2, and B3 stores a corresponding one. The identification code A1X, A1Y, A1Z is activated (for example, the starting device B1 can determine that the sensing identification code A1X in the wireless signal is the same as the stored activation identification code A1X), so that the power of the power supply unit D can be turned on. The electronic device C further realizes the function of cross sensing and starting between the plurality of sensing devices A and the plurality of starting devices B, and further improves the wireless starting system 2.

Referring to FIG. 3, it should be particularly noted that the application aspect of the present invention is not limited to the security system, and the wireless activation system 2 of the present invention can be applied to various fields according to different sensing methods. For example, the sensing module 310 of the sensing device A can be an infrared sensing module, a temperature sensing module, a vibration sensing module, a humidity sensing module, a light sensing module, a sound sensing module, a gravity sensing module, or a gas detecting module, etc., That is, the sensing device A can be installed in a garden or a greenhouse to activate an air conditioner, a lamp or a sprinkler when the temperature, brightness or humidity exceeds a predetermined value; or the sensing device A is installed in the livestock farm, The grass or feed is automatically supplied when it is detected that the cow enters the fence; or the sensing device A is placed in the laboratory to automatically activate the blower or the alarm when an excessive gas concentration is detected. In addition, in the second preferred embodiment of the present invention, the activation device B determines that the proximity identification code in the wireless signal transmitted by the sensing device A matches the stored activation identification code. The power of the power supply unit D can be continuously turned on to the corresponding electronic device for a predetermined time (for example, five minutes, or can be set by the user) to meet the needs of the user.

 The invention has been described in detail above, but it is obvious that those skilled in the art can make various changes and modifications without departing from the scope of the invention as defined by the appended claims.

Claims

Claim

 A wireless start-up system that utilizes an identification code to achieve a multi-to-many sensing function, and includes a plurality of sensing devices and a plurality of starting devices. The sensing device includes: a sensing module capable of detecting an ambient environment In the case of a change, an inductive signal is generated;

 An encoding module capable of randomly generating an identification code when activated;

 a first transmission module for receiving and transmitting signals;

 a first storage module; and

 a first processing module, the first processing module is electrically connected to the sensing module, the encoding module, the first transmission module, and the first storage module, and the first processing module can convert the identification code into an identification signal, and After the first transmission module is sent to the outside, and then receives a certain signal through the first transmission module, the identification code is stored in the first storage module as a sensing identification code; the first processing When receiving the sensing signal, the module can still convert all the sensing identification codes stored in the first storage module into a wireless signal, and send the wireless signal to the outside through the first transmission module;

 The starting device is electrically connected to an electronic device and a power supply unit respectively to turn on or off the power supply unit, thereby providing or disconnecting power of the electronic device, and includes a decoding module for Identifying signals and wireless signals for decoding; a second transmission module for receiving and transmitting signals;

 a second storage module; and

a second processing module, respectively, the decoding module, the second transmission module, and the second storage The module is electrically connected, and the second processing module can receive the identification signal through the second transmission module, and after obtaining the identification code through the decoding module, storing the identification code into the second storage module, as An activation code is transmitted, and the determination signal is sent to the outside through the second transmission module; the second processing module can still receive the wireless signal through the second transmission module, and obtain the wireless signal through the decoding module. The sensing code is carried in the wireless signal, and when it is determined that each of the sensing identification code matches the activation identification code, the power of the power supply unit is turned on to the electronic device, so that the electronic device starts to work. move.

 2 . The wireless activation system of claim 1 , wherein the activation device determines that each sensing identification code matches a startup identification code, the second processing module. It is still possible to continuously conduct power of the power supply unit to the electronic device for a predetermined time.

 The wireless activation system of claim 1, wherein the sensing module is one of the following electrical components: an infrared line sensing module, an acoustic wave sensing module, and a temperature sensing module.

 The wireless starting system of claim 1 , wherein the sensing device is provided with a power module, and the power module is electrically connected to the first processing module. To provide the electrical energy required for the first processing module to function properly.

 5. The wireless booting method of claim 1, wherein the wireless booting method causes each of the sensing devices to perform the following steps:

Randomly generating an identification code; Converting the identification code into an identification signal, and transmitting the identification signal to the outside world by way of wireless transmission;

 After receiving a certain signal, the identification code is stored as a sensing identification code; and

 In the event that a change in the surrounding environment is detected, all of the stored identification codes are converted into a wireless signal and sent to the outside world;

 The wireless booting method can also enable each of the booting devices to perform the following steps:

 Receiving the identification signal;

 Decoding the identification signal to obtain the identification code, and storing the identification code as a startup identification code;

 Sending the determination signal to the outside world by wireless transmission;

 Receiving the wireless signal, decoding the wireless signal to obtain the sensing identifier carried in the wireless signal; and

 When it is determined that each of the proximity identification codes matches the activation identification code, the power of the power supply unit is turned on to the electronic device to cause the electronic device to start operating.

 The wireless activation method of claim 5, wherein the activation device is capable of determining that each of the proximity identification codes is consistent with the activation identification code. The power of the power supply unit is continuously conducted to the electronic device for a predetermined time.