JP3058062U - Multifunctional signal emitter - Google Patents

Abstract

(57) [Problem] To provide a multifunctional signal transmitter capable of forming a 24-hour management protection system for a solitary elderly person. A voltage stabilization circuit, a main processor, a sub-processor, a memory circuit, a voltage detection circuit, a high-frequency emission circuit and an interface circuit are combined at least, and a key and a vibration sensor are provided. The sub processor processes the signal of the vibration sensor, and when an abnormal situation occurs, the main processor acquires the firing code stored in the memory circuit, and the high frequency firing circuit fires after encoding, and this signal is transmitted. The mutual assistance management center receives, decodes, and identifies the information to identify the source and abnormal situation and take necessary measures to achieve the safety mutual protection function.

Description

[Detailed description of the invention]

[0001]

[Technical field to which the invention belongs]

 The present invention relates to a type of multi-function signal transmitter, particularly manufactured in a form that can be worn and carried, receives and processes an abnormal condition triggered by a key and a vibration sensor by a built-in processor, and a memory circuit and a high-frequency transmitter circuit are provided. Combined to emit a signal code, and the mutual assistance center receives and decodes it, informs the signal source and the situation, prompts the necessary actions, and thus relates to what constitutes a safe mutual protection system.

[0002]

[Prior art]

 In modern society, the care of the elderly alone has become a major issue. Elderly people are often ill and have inconvenience in their behavior due to weakness.If an accident or illness occurs in a solitary elderly person, they will not be able to relieve themselves, take measures, or seek timely help. Risk of life could be introduced.

[0003] At present, the problem of the elderly living alone is becoming more and more severe, and although the government has established various welfare policies and systems, there is a lack of cooperation with related organizations and a lack of caregivers. However, the remarkable effect has not been improved, and the problem of the elderly living alone has not been solved.

[0004] Furthermore, most of the welfare policies by the government agencies first list data on the elderly living alone, and dispatch staff members regularly visit the elderly living alone, which can provide some care to the elderly. However, she was far from 24-hour care, and she was unable to provide timely assistance if the elderly were in an accident alone.

[0005]

[Problems to be solved by the invention]

 To solve the problem of the elderly living alone, it is necessary to establish a system to monitor the situation of the elderly living alone 24 hours a day, and the present invention was made based on this idea. In other words, the main problem of the present invention is to provide a device capable of processing an abnormal situation and emitting a code signal, which can be received by the mutual support center so that the source and the contents of the abnormal situation can be known. The necessary measures can be taken, thereby forming a full 24-hour mutual protection system.

Another object of the present invention is to manufacture the above device in a form suitable for being worn and carried by its circuit configuration, and to provide a 24-hour monitoring function. .

[0007]

[Means for Solving the Problems]

 The invention according to claim 1 includes units such as a voltage stabilizing circuit 10, a main processor 20, a sub-processor 30, a memory circuit 40, a voltage detecting circuit 50, a high-frequency emitting circuit 60, and an interface circuit 70. The voltage stabilizing circuit 10 includes a key (S2) 80 and a vibration sensor (S2) 90. The voltage stabilizing circuit 10 is a single voltage stabilizing IC (IC1), and the main processor 20 requires a 12V power supply provided by a battery. The main processor (CPU1) 20 receives the data input to the computer via the interface circuit 70, saves the data in the memory circuit 40, and receives the signal received by the sub-processor 30. When the key 80 is pressed, the time is measured, and the firing code is received. The sub-processor (CPU 2) 30 detects whether or not the vibration sensor 90 is operating and measures the time, and also outputs the signal of the voltage detection circuit 50 in normal operation to the sleep power saving mode to reduce power consumption. Receiving and transmitting to the main processor 20, normally in a low frequency working state, the working frequency of which is controlled by a vibrator (X1) on one side, so that power can be saved and the expiration date can be extended. The memory circuit (M1) 40 is used to store various firing codes and variables. The voltage detection circuit 50 is a voltage detection IC (IC2), and determines whether the battery voltage is lower than 10 V. And sends a signal to the sub-processor 30. The high-frequency emission circuit 60 converts the data code of the memory circuit 40 into a radio (RF) signal and emits the signal. The interface circuit (CN1) 70 is connected to the computer 100, inputs data related to the user, the firing code of various situations, and numerical values such as variables from the computer 100, and processes the memory circuit 40 and the memory circuit 40. The key (S2) 80 is a push-type switch, and when the user encounters a sudden situation or accident, pressing this key sends a signal to the main processor 20 and sends the signal to the main processor 20. S1) 90 is a vibration switch, which continuously generates a signal when the user performs an arbitrary operation and sends the signal to the sub-processor 30, and emits a different signal depending on a preset variable under abnormal conditions. In addition, the identification of the user's status and occurrence after receiving and decoding the signal by the mutual assistance management center and the necessary rescue measures shall be combined. Yes as capable of forming a complete safety protection system, and a multi-function signal emitters having the above configuration.

[0008] The invention according to claim 2 is that the multifunctional signal transmitter has a size and a form suitable for being carried by a user and is not restricted in space for use, and the signal reception of the emergency rescue engine is performed. 2. The multi-function signal transmitter according to claim 1, wherein if it is within the range, the mutual assistance management center can be notified of sudden or unexpected situations at any time, and a 24-hour safe mutual assistance protection system can be formed. .

[0009]

[Embodiment of the invention]

 The present invention includes at least a combination of a voltage stabilizing circuit, a main processor, a sub-processor, a memory circuit, a voltage detecting circuit, a high-frequency emitting circuit, and an interface circuit, and further includes a key and a vibration sensor, and the main processor receives a key input signal. The sub-processor processes the signal of the vibration sensor, and when an abnormal situation occurs, the main processor acquires the firing code stored in the memory circuit, and the high-frequency firing circuit fires after encoding, and this signal is output. The Mutual Aid Management Center receives the information and decodes and identifies them, so that they can know the source and abnormal situation and take necessary measures to achieve the safety and mutual protection function.

[0010]

【Example】

 FIG. 1 is a system block diagram of the electric circuit of the present invention, and FIG. 2 is an electric circuit diagram of the present invention. As shown in these figures, the present invention is composed of units such as a voltage stabilization circuit 10, a main processor 20, a sub-processor 30, a memory circuit 40, a voltage detection circuit 50, a high-frequency emission circuit 60, and an interface circuit 70. In addition, a key S280 and a vibration sensor S290 are provided as abnormal condition trigger means.

The voltage stabilizing circuit 10 is one voltage stabilizing IC (IC 1), and lowers a 12 V power supply provided by a battery to a working voltage required by the main processor 20.

The main processor (CPU 1) 20 receives the data input to the computer via the interface circuit 70, stores the data in the memory circuit 40, receives the signal received by the sub processor 30, In response to the pressing, the time is measured, the firing code is received and transmitted to the high frequency firing circuit 60, and the sleep power saving mode is set in a normal state to reduce power consumption.

The sub-processor (CPU 2) 30 detects the presence or absence of operation of the vibration sensor 90 and measures the time, receives the signal of the voltage detection circuit 50 and transmits the signal to the main processor 20, and in a normal state, operates in a low frequency operation state. The working frequency is controlled by a vibrator (X1) on one side, so that power can be saved and the expiration date can be extended.

The memory circuit M140 is used to store various firing codes and variables.

The voltage detection circuit 50 serves as a voltage detection IC (IC 2), detects whether the voltage of the battery is lower than 10 V, and sends a signal to the sub-processor 30.

The high-frequency emission circuit 60 converts the data code of the memory circuit 40 into a radio (RF) signal and emits the signal.

The interface circuit (CN 1) 70 is connected to the computer 100, inputs data related to the user from the computer 100, a firing code of various situations, numerical values such as variables, and the like, and processes the memory circuit 40. The data is stored in the circuit 40.

The key (S 2) 80 is a push-type switch, and sends a signal to the main processor 20 by pressing the key when the user encounters a sudden situation or accident.

The vibration sensor (S 1) 90 is a vibration type switch, and continuously generates a signal and sends it to the sub-processor 30 when a user performs an arbitrary operation.

The functions achieved by the multifunctional signal emitter of the present invention having an abnormal electric circuit composition are as follows. 1. When the user presses the key 80, a signal generated by the key 80 is sent to the main processor 20, and the main processor 20 operates to count the pressing time of the key 80. When the pressing time of the key 80 exceeds 2 seconds, The main processor 20 reads the firing code corresponding to the key 80 and the user's identification code from the memory circuit 40, converts them by the high frequency firing circuit 60, emits a rescue signal, and outputs the rescue signal. Is fired with the cycle and the number set in the variables stored in the memory circuit 40. The above is the rescue function of the present invention, and the firing signal is released when the continuous pressing time of the key 80 exceeds 10 seconds. 2. The sub-processor 30 is normally in a time mode of a low-frequency working state, and detects the operation of the vibration sensor 90 at any time. When the vibration sensor 90 operates, the timer built in the sub-processor 30 is automatically reset to zero. If the vibration sensor 90 is not operating within a unit time, the sub-processor 30 sends one signal to the main processor 20, resets the timer to zero, and performs the counting operation redundantly. 20 determines whether or not the data transmitted by the sub-processor 30 (this data is set via the interface circuit CN1) does not vibrate after a lapse of time by referring to the variables set in the memory circuit 40; If there is no vibration, the corresponding firing code and the user's identification code are read from the memory circuit 40 and the high-frequency firing circuit 60 is read. Firing a warning signal after more encoding conversion, as well as firing with a cycle and the number of times provided in the variable memory circuit 40. This is the warning function of the present invention. 3. The voltage detection circuit 50 detects the amount of electricity in the battery, and when the battery voltage falls below 10 V, the voltage detection circuit 50 sends a signal to the sub-processor 30 and the sub-processor 30 sends a signal to the main processor 20 to put the battery in a low voltage state. It notifies that there is, and fires at the cycle and the number of times set in the variables of the memory circuit 40 to notify the battery power shortage.

As can be seen from the above description, the multi-function signal transmitter of the present invention emits different signals depending on variables set in advance under abnormal conditions due to the combination of the constituent circuits, and these signals are Received and decoded by the mutual assistance center, the identity of the user and the situation of occurrence are identified, and necessary rescue measures are taken. A complete mutual protection system is thus completed.

As shown in FIG. 3, the multi-function signal transmitter of the present invention emits different signals according to different situations depending on its electric circuit composition, and notifies the mutual assistance management center, thereby providing a safe mutual protection protection function. To achieve. However, the user is not fixed in the same position, and the convenience in use is considered in the design. Also, with the advancement of science and technology today, the electric circuit element of the present invention can be manufactured in a significantly reduced volume, so that the dimensions and shape suitable for carrying the entire launcher in a portable form, such as a wristwatch or a necklace, etc. You can do it. In this way, the user can wear the present invention and carry it, and there is no restriction on the use space, and if the projectile is within the signal receiving range of the emergency rescue engine, the projectile will notify the mutual aid management center of a sudden or unexpected situation. Can form a 24-hour mutual assistance and protection system. This is a desirable form of safety protection for the elderly, especially applied to the general elderly, and the mutual aid area can be expanded in towns, cities and school districts.

[0023]

[Effect of the invention]

 In summary, the multifunctional signal transmitter of the present invention is suitable for being carried around by its electric circuit composition, and emits a signal when an unexpected situation occurs. Is a device that can form a complete safety protection system, solve the safety problems of the elderly living alone, and have practicality, novelty, and industrial value. It can be said that.

[Brief description of the drawings]

FIG. 1 is a system block diagram of an electric circuit of the present invention.

FIG. 2 is a detailed view of the electric circuit of the present invention.

FIG. 3 is a schematic view illustrating a portable embodiment of the present invention;

[Explanation of symbols]

 Reference Signs List 10 voltage stabilization circuit 20 main processor 30 sub-processor 40 memory circuit 50 voltage detection circuit 60 high-frequency emission circuit 70 interface circuit 80 key 90 vibration sensor 100 computer

Claims (2)

[Utility model registration claims] 1. A voltage stabilizing circuit 10, a main processor 2.
0, sub-processor 30, memory circuit 40, voltage detection circuit 50, high-frequency emission circuit 60, and interface circuit 7
0 and a key (S2) 80 and a vibration sensor (S2) 90 as an abnormal situation trigger means. The voltage stabilizing circuit 10 includes one voltage stabilizing IC (IC1).
The main power supply (CPU 1) 20 receives data input to the computer via the interface circuit 70 and the memory circuit 40. In addition to receiving the signal received by the sub-processor 30, the key 80 is pressed to measure the time, the firing code is received and transmitted to the high-frequency firing circuit 60, and in a normal state, the power saving mode is set to the sleep power saving mode. The sub-processor (CPU 2) 30 includes a vibration sensor 90
In addition to detecting the presence / absence of the operation and measuring the time, the signal of the voltage detection circuit 50 is received and transmitted to the main processor 20. In a normal state, the operation frequency is low, and the operation frequency is controlled by the vibrator (X1) on one side. The memory circuit (M1) 40 is used to store various firing codes and variables, and the voltage detection circuit 50 An IC (IC2) detects whether the battery voltage is lower than 10 V, and sends a signal to the sub-processor 30. The high-frequency emission circuit 60 converts the data code of the memory circuit 40 into a radio (RF) signal. The interface circuit (CN1) 70 is connected to the computer 100, and the data related to the user and each A key such as a firing code or a variable of a kind situation is input and provided for processing of the memory circuit 40 and storage in the memory circuit 40. The key (S2) 80 is a push-type switch, which allows the user to set a sudden By pressing this key when an accident is encountered, a signal is sent to the main processor 20. The vibration sensor (S1) 90 is a vibration switch, and generates a signal continuously when the user performs any operation. In the abnormal situation, the sub-processor 30 emits a different signal according to a preset variable, and receives the signal by the mutual aid management center, identifies the user's identity and the situation after decoding, and takes necessary rescue measures accordingly. A multi-function signal transmitter configured as described above, which can be combined to form a complete safety protection system. 2. If the multi-function signal transmitter has dimensions and form suitable for being carried by a user and is not restricted in space in use, and is within a signal receiving range of the emergency rescue engine, The multi-functional signal transmitter according to claim 1, wherein the mutual assistance management center can be notified of sudden or unexpected situations at any time, and a 24-hour safe mutual assistance protection system can be formed.