JP5451565B2 - Wireless device in security system - Google Patents

Description

  The present invention relates to a wireless device for receiving a wireless signal in a security system.

  In general homes and the like, crime prevention systems that monitor for abnormalities such as the presence of intruders and fires, and notify the abnormality when an abnormality is detected have become widespread. In particular, in recent years, a wireless crime prevention system that transmits a signal wirelessly from a detection sensor, receives the transmitted signal by a receiving device, and performs abnormality notification or the like has been put into practical use.

  FIG. 7 is an explanatory diagram for explaining a configuration of a conventional wireless crime prevention system. As shown in FIG. 7, a wireless crime prevention system 100 includes a wireless opening / closing sensor 101 that detects the open / closed state of a door or window, a wireless fire sensor 102 that detects a fire, and a wireless security sensor that detects a human body. It is configured to include a human sensor 103, a wireless abnormality alarm lamp 104 for informing the outdoors of an abnormality, a repeater 105 that wirelessly relays signals transmitted from these sensors 101 to 103, and a receiving device 106. Yes. The receiving device 106 receives the signals transmitted from the sensors 101 to 103 via the repeater 105 or directly receives the signals, thereby monitoring the presence / absence of the abnormality and detecting the abnormality when detecting the abnormality. A warning signal is transmitted to the lamp 104 wirelessly to notify the abnormality, and if necessary, the abnormality occurrence is transferred to the security company by wire or wirelessly (for example, Patent Document 1 discloses an abnormality detection means. A security system for houses is disclosed.)

  In such a wireless crime prevention system 100, since wireless transmission is performed at a short distance of about several meters to several tens of meters, the frequency band for wireless transmission is a 426 MHz band that is a specific low-power security wireless band. It was used. Here, in ARIB STD-30, which is a standard for this specific low-power security radio, carrier sense is not obliged when using radio waves having a frequency of 426.250 MHz or more and 426.8375 MHz or less. Carrier sense refers to sensing the reception power level of another radio wave having the same frequency as the carrier frequency in the radio transmission when performing radio transmission, and if this reception power level is equal to or higher than a predetermined threshold, radio transmission is performed. Means do not. Since it has been specified that such carrier sense is not necessary, in the conventional wireless crime prevention system, each of the sensors 101 to 103 performs wireless transmission without performing carrier sense.

Japanese Patent Laid-Open No. 2003-115085

  However, in the conventional wireless crime prevention system 100, since only the 426 MHz band is used as the frequency band for wireless transmission, the communication speed is as slow as 1,200 bps, for example. It takes time until the signal reaches the receiving device 106, and in particular, it takes time to reach the receiving device 106 via the repeater 105.

  In addition, since each sensor 101 to 103 performs wireless transmission without performing carrier sense, when the number of sensors 101 to 103 is increased, the probability that signals collide due to wireless transmission being performed at the same timing. There is a possibility that a signal having a high radio wave intensity does not reach the repeater 105 or the receiving device 106 due to the increase.

  In order to solve such a problem, 1) a carrier sense function is added to each of the sensors 101 to 103, 2) a wireless transmission frequency band of each sensor has a higher communication speed than the 426 MHz band, and It may be possible to change to a frequency band (for example, 950 MHz band) where carrier sense is obligatory. However, in order to change the functions and frequency bands of the sensors 101 to 103 in this way, the existing sensors 101 to 103 with a large number of installations are replaced, or the new sensors 101 to 103 with many types are designed. It needs to be changed and is not realistic.

  Therefore, the inventor of the present application does not perform carrier sense in the 426 MHz band in the wireless transmission from each of the sensors 101 to 103, and on the other hand, the frequency band of the wireless transmission from the repeater 105 to the receiving device 106 We focused on solving the above problems by setting the 950 MHz band to 950 MHz. That is, when the 950 MHz band is used as described above, the communication speed from the repeater 105 to the receiving apparatus 106 can be improved to, for example, 9,600 bps, and wireless transmission from the repeater 105 or the receiving apparatus 106 is possible. Sometimes, by performing carrier sense, a radio signal can surely reach the receiving apparatus 106, and communication reliability can be improved. In particular, in this case, only the functions of the repeater 105 and the receiving device 106 need to be changed. Since the number and types of the repeater 105 and the receiving device 106 are small compared to the sensors 101 to 103, Easy to apply in reality.

  However, when the 426 MHz band and the 950 MHz band are used in combination, another problem may occur. That is, in the repeater 105 and the receiving apparatus 106, in order to receive a 426 MHz band radio signal and receive a 950 MHz band radio signal, it is necessary to provide a control unit for processing each signal for each frequency. In addition, there are problems that the repeater 105 and the receiving device 106 are increased in size and the manufacturing cost of the repeater 105 and the receiving device 106 is increased.

  The present invention has been made in view of the above, and an object of the present invention is to provide a wireless device for a crime prevention system that can use signals of two frequency bands in a simple and inexpensive structure.

  In order to solve the above-described problems and achieve the object, a wireless device for a security system according to claim 1 is a wireless device for a security system that receives a signal from a security sensor, and has a predetermined first. A wireless transmission / reception unit including one or a plurality of antennas for transmitting / receiving a signal of a frequency and a signal of a predetermined second frequency, and a control unit that performs control based on the content of the signal, The antenna-side connection portion connected to the antenna, the control-unit-side connection portion connected to the control portion, and the antenna-side connection portion and the control-unit-side connection portion are disposed between each other. A first signal processing unit that processes the signal of the first frequency, and a second signal processing unit that processes the signal of the second frequency, the first signal processing unit received by the antenna Enter through the antenna side connection The first frequency signal is converted into a signal of a predetermined first method and output to the control unit via the control unit side connection unit, and from the control unit via the control unit side connection unit The input signal of the first method is output to the antenna via the antenna side connection unit at the first frequency, and the second signal processing unit is received by the antenna and passes through the antenna side connection unit. The second frequency signal inputted in this way is converted into a signal of the first method and output to the control unit via the control unit side connection unit, and from the control unit via the control unit side connection unit The first type signal inputted in this way is converted into a predetermined second type signal and outputted to the antenna at the second frequency via the antenna side connection unit.

  According to a second aspect of the present invention, there is provided the wireless device for the security system according to the second aspect, wherein the first signal processing unit is received by the antenna and the antenna-side connection unit is connected to the wireless system for the security system according to the first aspect. The first frequency signal input via the control unit is converted into a signal of a predetermined first method and output to the control unit via the control unit side connection unit, and from the control unit to the control unit side connection unit A first basic processing unit that outputs the signal of the first method input via the antenna to the antenna via the antenna side connection unit at the first frequency, and the second signal processing unit is connected to the antenna. The second frequency signal received via the antenna side connection unit is converted into a predetermined second system signal and output, and the second system signal is transmitted at the second frequency to the antenna. Front through side connection A second basic processing unit that outputs to the antenna, and a signal that is converted into a signal of the second system by the second basic processing unit and converted to a signal of the first system, and the control unit side connection unit The second basic processing unit converts the first method signal input from the control unit through the control unit side connection unit into the second method signal and outputs the signal to the control unit via the control unit. And a compatible processing unit that outputs to

  According to a third aspect of the present invention, there is provided a wireless device for a crime prevention system according to the third aspect, wherein the control unit is housed in a first housing in the wireless device for the crime prevention system according to the first or second aspect. It provided in the 2nd housing | casing comprised so that attachment or detachment with respect to the 1st housing | casing was possible.

  According to a fourth aspect of the present invention, there is provided a wireless device for a crime prevention system according to any one of the first to third aspects, wherein the wireless device directly receives a signal from a security sensor. It is a receiver which receives it via a relay for disaster prevention or disaster prevention.

  According to the wireless device for the crime prevention system according to claim 1, the first method for both the first frequency signal and the second frequency signal regarding the input / output of the signal between the wireless transmission / reception unit and the control unit. Since it is necessary to configure only a single type of signal without recognizing when it is caused by a difference in frequency, it is necessary to configure the control unit for each frequency. Thus, frequency band signals can be used together with a simple and inexpensive structure.

  According to the wireless device for the crime prevention system according to claim 2, the first basic processing unit converts the signal of the first method, the second basic processing unit converts the signal of the second method, Since the mutual conversion between the first method and the second method is performed by the compatible processing unit, it is only necessary to consolidate the method conversion functions in this compatible processing unit, and the first basic processing unit and the second basic processing unit have the method conversion function. Therefore, it is possible to easily design and set the wireless transmission / reception unit.

  According to the wireless device for the crime prevention system according to claim 3, the wireless transmission / reception unit is unitized so that the specific low power security wireless standard necessary for transmitting / receiving a wireless signal of 950 MHz band is wireless It is sufficient to acquire only the transmission / reception unit, and it is not necessary to acquire the wireless standard for the entire wireless device, so it is possible to easily acquire the wireless standard. In addition, the wireless transmission / reception unit can be unitized to provide versatility, and the wireless transmission / reception unit can be easily attached to a wireless device or repeater having a configuration different from that of the wireless device. Become. Further, each part of the wireless device excluding the wireless transmission / reception unit may be configured to handle only the control of the signal of the 426 MHz band as in the conventional case, so that the improvement associated with the handling of the signal of the 950 MHz band is unnecessary. Become.

  Further, according to the wireless device for the crime prevention system according to claim 4, since it is not necessary to provide a control unit for each frequency band in the reception device that receives a signal from the security sensor, the reception device is simple and inexpensive. Can be configured.

It is explanatory drawing for demonstrating the structure of the wireless crime prevention system which concerns on embodiment of this invention. It is a block diagram which shows the electric constitution of a remote control. It is a block diagram which shows the electric constitution of a repeater. It is a block diagram which shows the electric constitution of a receiver. It is a disassembled perspective view for demonstrating the attachment / detachment structure of the radio | wireless transmission / reception part with respect to a receiver. It is explanatory drawing for demonstrating transmission / reception of the signal in a crime prevention system. It is explanatory drawing for demonstrating the structure of the conventional radio | wireless crime prevention system.

  Embodiments of the present invention will be described below in detail with reference to the accompanying drawings. However, the present invention is not limited by this embodiment.

(Overview)
First, the outline of the wireless crime prevention system will be described. FIG. 1 is an explanatory diagram for explaining a configuration of a wireless crime prevention system according to the present embodiment. As shown in FIG. 1, a wireless crime prevention system 1 includes an open / close sensor 10, a fire sensor 11, a human sensor 12, an abnormality notification lamp (outdoor indicator lamp) 13, a repeater 30, and a receiver (a crime prevention receiver). , Center device) 40. Among these, each apparatus except the abnormality notification lamp 13 is disposed indoors in the house, and the abnormality notification lamp 13 is installed outside the house (for example, near the entrance). In the following description, the opening / closing sensor 10, the fire sensor 11, and the human sensor 12 are collectively referred to as “security sensor 2” as necessary, and the security sensor 2 and the abnormality notification lamp 13 are referred to as “ Collectively referred to as “security terminal 3”. Here, one each of the open / close sensor 10, the fire sensor 11, the human sensor 12, the abnormality notification lamp 13, and the repeater 30 are provided, but any plurality may be provided.

  Further, the security system 1 includes a remote controller (mini-controller) 20 unlike the conventional security system shown in FIG. The remote controller 20 is a setting unit for setting the crime prevention state of the receiving device 40. For example, the remote controller 20 is carried by a user or used in an arbitrary place within a range where radio waves reach the indoor repeater 30 or the receiving device 40. In particular, when the receiving device 40 is installed in the living room and the living room is away from the entrance, it takes time until the user releases the security mode in the living receiving device 40 after the user returns home. Since there is a possibility that the crime prevention mode cannot be canceled in time, the convenience of the user can be improved by arranging the remote controller 20 in the vicinity of the entrance.

  In this security system 1, two frequency bands are used in combination as frequency bands for transmitting and receiving signals. Specifically, the 426 MHz band is used between the security terminal 3 and the repeater 30 or the receiving device 40. Further, the 950 MHz band is used among the remote controller 20, the repeater 30, and the receiving device 40. That is, the repeater 30 and the receiving device 40 transmit and receive signals in two frequency bands, a 426 MHz band (first frequency) and a 950 MHz band (second frequency). In this way, by using the 950 MHz band in addition to the conventional 426 MHz band, the communication speed is improved and the reliability of communication is improved. In particular, the security terminal 3 communicates only in the conventional 426 MHz band, so there is no need to replace existing ones or change the design. On the other hand, the repeater 30 and the receiving device 40 need to transmit and receive signals in two frequency bands, but by providing only one control unit 44 to be described later for signal processing, it is simple and inexpensive. The structure allows two frequency bands to be used together. A specific structure for this will be described later.

(Configuration-security terminal)
Next, the configuration of the wireless crime prevention system 1 will be described. First, the configuration of the security terminal 3 will be described. However, since the open / close sensor 10, the fire sensor 11, the human sensor 12, and the abnormality notification lamp 13 can be configured in the same manner as in the past, only the outline thereof will be described here. The open / close sensor 10 is a wireless open / close detection means for detecting the open / closed state of the door or window by magnetism or the like. When the open / close sensor 10 detects that the door or window is open, a signal to that effect is wirelessly transmitted. Send in. The fire sensor 11 is a fire detection means for detecting the occurrence of a fire by detecting smoke or heat. When a fire occurrence is detected, a signal to that effect is transmitted wirelessly. The human sensor 12 is a human body detection unit that detects a human body by detecting infrared rays. When a human body is detected, the human sensor 12 wirelessly transmits a signal to that effect. The abnormality notification lamp 13 is an abnormality occurrence notifying means for notifying the occurrence of an abnormality such as a fire outdoors by turning on or blinking when a transfer signal is received from the receiving device 40. However, the detection principle in these security terminals 3 is arbitrary, and other known principles can be used.

(Configuration-remote control)
The remote controller 20 is a wireless device for setting a crime prevention state in the receiving device 40 by transmitting a wireless signal to the receiving device 40. FIG. 2 is a block diagram showing an electrical configuration of the remote controller 20. As shown in FIG. 2, the remote controller 20 includes various button groups 22 and indicator lamp groups 23 on the front surface of the housing, and a wireless transmission / reception unit 24, a speaker 25, a storage unit 26, a power source inside the housing. The unit 27 and the control unit 28 are accommodated.

  The button group 22 includes an emergency button 22a, a start button 22b, a security button 22c, and a release button 22d. The indicator lamp group 23 includes an emergency lamp 23a, an alarm lamp 23b, an OK lamp 23c, an NG lamp 23d, a guard lamp 23e, and a release lamp 23f.

  The wireless transmission / reception unit 24 transmits and receives wireless signals in the 950 MHz band, and includes a dedicated antenna 24a in the 950 MHz band. The speaker 25 outputs an alarm sound. The storage unit 26 is constituted by, for example, a flash memory (the same applies to storage units 32 and 42 described later), and stores programs and parameters necessary for control of the remote controller 20. The power supply unit 27 includes a battery (not shown), and supplies power supplied from the battery to each unit of the remote controller 20. The control unit 28 includes, for example, a CPU (Central Processing Unit) (not shown) and a program executed on the CPU. In particular, the control unit 28 includes a signal processing unit 28a. When transmitting a radio signal, the signal processing unit 28a performs carrier sense by a known method, and transmits the radio signal only when radio of the same frequency is not detected.

  In the remote controller 20 configured as described above, when the emergency button 22a is pressed, an emergency signal is transmitted via the wireless transmission / reception unit 24, and the emergency light 23a is turned on or blinking (hereinafter simply referred to as lighting or blinking). It will be described as lighting). When the emergency signal is received by the receiving device 40, the emergency signal is transferred from the receiving device 40 to the security company, and the security guard rushes to the house.

  When the security button 22c is pressed, the security lamp 23e is turned on. When the start button 22b is pressed in this state, a security request signal is transmitted via the wireless transmission / reception unit 24. When the guard request signal is received by the receiving device 40, the crime prevention mode of the receiving device 40 is set to the outing guard mode. Here, the outing security mode is a mode in which the security company performs monitoring when the user goes out. When an abnormality occurs, an abnormal signal is transferred from the receiving device 40 to the security company, and the security guard rushes to the house. . Further, when the crime prevention mode of the receiving device 40 is set to the outing security mode in this way, a security confirmation signal is transmitted from the receiving device 40, and this security confirmation signal is received via the wireless transmission / reception unit 24 of the remote controller 20. In this case, the OK lamp 23c is turned on. On the other hand, if the security confirmation signal is not received by the remote controller 20 within a predetermined time after the start button 22b is pressed, the NG lamp 23d is turned on.

  When the release button 22d is pressed, the release lamp 23f is turned on. When the start button 22b is pressed in this state, a release request signal is transmitted via the wireless transmission / reception unit 24. When the release request signal is received by the receiving device 40, the crime prevention mode of the receiving device 40 is released. When the crime prevention mode is released in this way, a release confirmation signal is transmitted from the receiving device 40. When this release confirmation signal is received via the wireless transmission / reception unit 24 of the remote controller 20, the OK lamp 23c is turned on. The On the other hand, if the remote control 20 does not receive a release confirmation signal within a predetermined time after the start button 22b is pressed, the NG lamp 23d is turned on.

(Configuration-repeater)
The repeater 30 in FIG. 1 is a relay unit that receives a signal wirelessly transmitted from the security sensor 2 and transmits the received signal to the remote controller 20 or the controller, and is used for a security system that receives a signal from the security sensor 2. Wireless device. The repeater 30 is disposed between the security sensor 2 and the receiving device 40, or is disposed between the receiving device 40 and the abnormality notification lamp 13.

  FIG. 3 is a block diagram showing an electrical configuration of the repeater 30. As shown in FIG. 3, the repeater 30 includes a wireless transmission / reception unit 31, a storage unit 32, a power supply unit 33, and a control unit 34. The wireless transmission / reception unit 31 transmits / receives signals in the 426 MHz band and the 950 MHz band. Details of the wireless transmission / reception unit 31 will be described later. The storage unit 32 stores programs and parameters necessary for controlling the repeater 30. The power supply unit 33 includes a battery (not shown), and supplies power supplied from the battery to each unit of the repeater 30. The control unit 34 is a control unit that controls each unit of the repeater 30.

  Here, details of the wireless transmission / reception unit 31 will be described. The wireless transmission / reception unit 31 includes an antenna 35, an antenna side connection unit 36, a first signal processing unit 37, a second signal processing unit 38, and a control unit side connection unit 39. Only one antenna 35 is provided, and this antenna 35 is used in combination for transmission and reception of signals of two frequencies of the 426 MHz band and the 950 MHz band. That is, the total length L of the antenna 35 is determined to be a quarter wavelength of 426 MHz and a fifth wavelength of 950 MHz so that the 426 MHz band and the 950 MHz band can be used together. The antenna side connection part 36 is a connection terminal connected to the antenna 35.

  The first signal processing unit 37 processes a 426 MHz band signal, and includes an LPF (low-pass filter) 37a and a first basic processing unit 37b. The LPF 37a is a first frequency band passing means that allows only signals below the vicinity of the 426 MHz band to pass. The first basic processing unit 37b converts the signal of the first frequency received by the antenna 35 and input through the antenna side connection unit 36 into a signal of a predetermined first method, and passes through the control unit side connection unit 39. The first system signal input from the control unit 34 via the control unit side connection unit 39 is output to the antenna 35 via the antenna side connection unit 36 at the first frequency.

  The second signal processing unit 38 processes a 950 MHz band signal, and includes an HPF (High Pass Filter) 38a, a second basic processing unit 38b, and a compatible processing unit 38c. The HPF 38a is a first frequency band passing means that allows only signals in the vicinity of the 950 MHz band or higher to pass. The second basic processing unit 38b converts the second frequency signal received by the antenna 35 and input via the antenna side connection unit 36 into a predetermined second system signal and outputs the second system signal. The signal is output to the antenna 35 via the antenna side connection unit 36 at the second frequency. The compatible processing unit 38c converts the signal output from the second basic processing unit 38b into the second system signal and converts the signal into the first system signal, and sends it to the control unit 34 via the control unit side connection unit 39. In addition to outputting, the first system signal input from the control unit 34 via the control unit side connection unit 39 is converted into a second system signal and output to the second basic processing unit 38b.

  In particular, the first signal processing unit 37 transmits a radio signal in the 426 MHz band without performing carrier sense, and the second signal processing unit 38 performs a carrier sense in a known method when transmitting a radio signal in the 950 MHz band. The radio signal is transmitted only when radio of the same frequency is not detected.

  Of the components of the wireless transmission / reception unit 31 configured as described above, the components other than the antenna 35 are mounted on both surfaces of the same base and modularized. More specifically, for example, the first basic processing unit 37b and the second basic processing unit 38b are each configured by a wireless IC, and the compatible processing unit 38c is configured by a microcomputer, and the wireless IC and the microcomputer are the same. It is mounted on both sides of the board. In designing this mounting layout, a configuration for preventing mutual interference between a signal of 426 MHz band and a signal of 950 MHz band (for example, installation of an impedance for reducing power supply noise, disposition of 426 MHz system and 950 MHz system, noise It is preferable to employ a shield installation or the like.

  Here, the signal system will be described. Here, the signal system means a signal that causes a difference other than the frequency band between the 426 MHz band signal and the 950 MHz band signal, and includes, for example, a transmission / reception protocol, a signal format, and a command system. Hereinafter, a case where the signal system is a command system will be described. That is, the first basic processing unit 37b converts a signal in the 426 MHz band that is analog input via the antenna into a command corresponding to the content of the signal and outputs it as a serial signal, and the second basic processing unit 38b A 950 MHz band signal analog-input via the antenna is converted into a command corresponding to the content of the signal and output as a serial signal. Here, since the command system of the 426 MHz band signal (first command system) and the command system of the 950 MHz band signal (second command system) are different from each other, the compatibility processing unit 38c is the second basic processing unit 38b. The converted command of the second command system is converted into a command of the first command system and output to the control unit 44. The compatibility processing unit 38c converts the first command system command of the signal input from the control unit 34 into a second command system command and outputs the command to the second basic processing unit 38b.

  As described above, the specific content of the command converted by the compatibility processing unit 38c is arbitrary. For example, the frequency channel setting, the signal transmission instruction, the signal reception instruction, the carrier sense automatic execution instruction, and the carrier sense may be used. An instruction to transmit the value of the acquired radio wave intensity can be given. In order to perform such conversion, command conversion data for converting a command of the second command system into a command of the first command system is stored in advance in the compatibility processing unit 38c. By adopting such a configuration, the control unit 34 may communicate with the wireless transmission / reception unit 31 using only commands of the first command system (control of signals in the 426 MHz band as in the past). Since it is not necessary to use two commands of the first command system and the second command system, the configuration of the control unit 34 can be simplified.

(Configuration-Receiver)
Next, the receiving device 40 in FIG. 1 will be described. The receiving device 40 is a control device that monitors the presence or absence of an abnormality by receiving a signal transmitted from the security sensor 2 via the repeater 30 or by directly receiving the signal. The signal from the security sensor 2 Is a wireless device for a crime prevention system that receives When the receiving device 40 detects an abnormality, the abnormality notification lamp 13 is wirelessly transmitted to the abnormality notification lamp 13 to notify the abnormality, and if necessary, an abnormality occurrence is wired or wirelessly to the security company. Relocate. The receiving device 40 is installed, for example, in a place (typically, an entrance or a living room) that is easy for a user to visually recognize indoors.

  FIG. 4 is a block diagram illustrating an electrical configuration of the receiving device 40. As shown in FIG. 4, the reception device 40 is configured to accommodate a wireless transmission / reception unit 41, a storage unit 42, a power supply unit 43, and a control unit 44. The storage unit 42 stores programs and parameters necessary for controlling the receiving device 40. The power supply unit 43 supplies power supplied from a commercial power supply to each unit of the receiving device 40. The control unit 44 controls each unit of the receiving device 40.

  The wireless transmission / reception unit 41 is a wireless transmission / reception unit that transmits and receives signals in the 426 MHz band and the 950 MHz band. The antenna 45, the antenna side connection unit 46, the first signal processing unit 47, the second signal processing unit 48, and the control unit side A connection unit 49 is provided. The first signal processing unit 47 includes an LPF 47a and a first basic processing unit 47b, and the second signal processing unit 48 includes an HPF 48a, a second basic processing unit 48b, and a compatibility processing unit 48c. Since each part of these radio | wireless transmission / reception parts 41 can be comprised similarly to each part of the same name in the radio | wireless transmission / reception part 31 of the repeater 30, except the structure to mention specially, the detailed description is abbreviate | omitted.

  Here, the attachment / detachment structure of the wireless transmission / reception part 41 with respect to the receiver 40 is demonstrated. FIG. 5 is an exploded perspective view for explaining the attachment / detachment structure of the wireless transmission / reception unit 41 with respect to the reception device 40. As shown in FIG. 5, the housing (first housing) 40a of the receiving device 40 is formed with a housing portion 40b which is a recess for detachably housing the wireless transmission / reception unit 41. The unit 40b is provided with a connection terminal 40c (not shown in FIG. 4) for connecting to the control unit side connection unit 49 of the wireless transmission / reception unit 41. On the other hand, the wireless transmission / reception unit 41 is a housing different from the housing 41 of the receiving device 40, and is provided in an outer housing (second housing) 41a corresponding to the housing unit 40b. Specifically, the antenna side connection unit 46, the first signal processing unit 47, and the second signal processing unit 48 of the wireless transmission / reception unit 41 are accommodated inside the housing 41a, and an antenna is provided outside the housing 41a. 45 and the control part side connection part 49 are arrange | positioned. And in the state which accommodated the radio | wireless transmission / reception part 41 in the accommodating part 40b, the radio | wireless transmission / reception part 41 is connected to the control part 44 by connecting the control part side connection part 49 to the connection terminal 40c.

  Thus, the effect of unitizing the wireless transmission / reception unit 41 is as follows. That is, as described above, the control unit 44 of the receiving device 40 only needs to control the 426 MHz band signal as in the conventional case, and does not need to control the 950 MHz band signal. The signal may be processed and controlled only by the wireless transmission / reception unit 41. Therefore, by unitizing the wireless transmission / reception unit 41, the specific low-power security wireless standard necessary for transmitting / receiving a wireless signal in the 950 MHz band may be acquired only for the wireless transmission / reception unit 41. Since it is not necessary to acquire the wireless standard as a whole, it is possible to easily acquire the wireless standard. In addition, the wireless transmission / reception unit 41 can be unitized so as to have versatility, and the wireless transmission / reception unit 41 can be easily attached to a reception device or a repeater having a configuration different from that of the reception device 40. Is possible. In addition, by adopting the same shape as the unit of the wireless transmission / reception unit of the conventional receiving device 106 only for the 426 MHz band, even when the 950 MHz band is added as the frequency band of the signal to be used, the transmission / reception unit becomes the unit compatible with the 950 MHz band of the present application. By replacing, it is possible to construct a crime prevention system that can easily transmit and receive in a plurality of bands. Furthermore, each part of the receiving device 40 except the wireless transmission / reception unit 41 may be configured to handle only the control of the 426 MHz band signal, etc., as in the prior art, so there is an improvement associated with handling the 950 MHz band signal. It becomes unnecessary.

(processing)
Next, the process which the crime prevention system 1 comprised as mentioned above performs is demonstrated. FIG. 6 is an explanatory diagram for explaining transmission and reception of signals in the security system 1. In the following, “step” is abbreviated as “S”.

  As shown in FIG. 6, the security sensor 2 transmits an abnormality detection signal without performing carrier sense in the 426 MHz band (SA1). When the abnormality detection signal is received by the repeater 30, the first basic processing unit 37b of the first signal processing unit 37 of the repeater 30 converts the abnormality detection signal into a command of the first command system and converts it into a control unit. 34, the control unit 34 determines whether or not the abnormality detection signal is relayed based on this command. When relaying, the control unit 34 transmits a relay instruction based on a command of the first command system to the first basic processing unit 37b, and the first basic processing unit 37b receiving the relay instruction transmits the abnormality detection signal to the carrier sense. Without transmitting the signal in the 426 MHz band, which is the same frequency band as the signal received via the antenna 35 (SA2).

  When the abnormality detection signal from the security sensor 2 is directly received by the reception device 40 or when it is received via the repeater 30, the first signal processing unit is used in the wireless transmission / reception unit 41 of the reception device 40. 47, the first basic processing unit 47b converts the abnormality detection signal into a command of the first command system and transmits it to the control unit 44. The control unit 44 performs a predetermined response according to the content of the abnormality detection signal based on the command. Process. As part of such processing, the control unit 44 of the receiving device 40 transmits an instruction to turn on the abnormality notification lamp 13 to the first basic processing unit 47b as a command of the first command system as necessary, and this relay Upon receiving the instruction, the first basic processing unit 47b transmits a transfer signal in the 426 MHz band via the antenna 45 without performing carrier sense, and the abnormality notification lamp 13 that has received the transmission signal displays an abnormality notification. (SA3).

  The remote controller 20 transmits a request signal after performing carrier sense in the 950 MHz band (SA4). When this request signal is received by the repeater 30, the second basic processing unit 38b of the second signal processing unit 38 of the repeater 30 converts the request signal into a command of the second command system, and the compatible processing unit 38c. The compatibility processing unit 38c converts the command of the second command system into a command of the first command system and transmits it to the control unit 34. The control unit 34 determines whether the request signal needs to be relayed based on the command. Make a decision. When relaying, the control unit 34 transmits a relay instruction by a command of the first command system to the compatible processing unit 38c, and the compatibility processing unit 38c converts the command of the first command system into a command of the second command system. To the second basic processing unit 38b, and the second basic processing unit 38b transmits the request signal in the 950 MHz band which is the same frequency band as the signal received via the antenna 35 after performing carrier sense (SA5 ).

  When the request signal from the remote controller 20 is directly received by the receiving device 40 or when the request signal is received via the repeater 30, the wireless transmission / reception unit 41 of the receiving device 40 includes the second signal processing unit 48. The second basic processing unit 48b converts the request signal into a command of the second command system and outputs it to the compatibility processing unit 48c. The compatibility processing unit 48c converts the command of the second command system into a command of the first command system. Then, the control unit 44 performs a predetermined process according to the content of the request signal based on the command. As a part of such processing, the control unit 44 of the receiving device 40 transmits a confirmation signal transmission instruction by a command of the first command system to the compatible processing unit 48c as necessary, and the compatible processing unit 48c The command of the first command system is converted into the command of the second command system and output to the second basic processing unit 48b, and the second basic processing unit 48b receives the confirmation signal via the antenna 45 after performing carrier sense. Is transmitted in the 950 MHz band, which is the same frequency band as the received signal (SA6).

  When this confirmation signal is received by the repeater 30, the second basic processing unit 38b of the second signal processing unit 38 of the repeater 30 converts this confirmation signal into a command of the second command system, and the compatible processing unit 38c. The compatibility processing unit 38c converts the command of the second command system into a command of the first command system and transmits the command to the control unit 34. The control unit 34 determines whether the confirmation signal needs to be relayed based on the command. Make a decision. When relaying, the control unit 34 transmits a relay instruction by a command of the first command system to the compatible processing unit 38c, and the compatibility processing unit 38c converts the command of the first command system into a command of the second command system. Is output to the second basic processing unit 38b, and the second basic processing unit 38b performs carrier sensing and transmits the confirmation signal in the 950 MHz band via the antenna 35 (SA7).

  When the confirmation signal from the receiving device 40 is directly received by the remote controller 20 or when it is received by the remote controller 20 via the repeater 30, the remote controller 20 processes the confirmation signal by the control unit 28, and A predetermined process corresponding to the content of the confirmation signal is performed.

(effect)
As described above, according to the present embodiment, regarding the input / output of signals between the wireless transmission / reception units 31 and 41 and the control units 34 and 44, the first frequency signal and the second frequency signal are both first. Since the input / output is performed after the signal is converted to the signal of the system, the control units 34 and 44 can handle only one type of signal without recognizing the time caused by the difference in frequency when viewed from the control units 34 and 44. Can be used together with a simple and inexpensive structure.

  The first basic processing units 37b and 47b convert the signal of the first method, the second basic processing units 38b and 48b convert the signal of the second method, and the mutual conversion between the first method and the second method. Since the conversion is performed by the compatible processing units 38c and 48c, it is only necessary to consolidate the system conversion functions in the compatible processing units 38c and 48c. The first basic processing units 37b and 47b and the second basic processing units 38b and 48b have the system Since it is not necessary to provide a conversion function, the wireless transmission / reception units 31 and 41 can be easily designed and set.

  Further, by unitizing the wireless transmission / reception unit 41, a specific low-power security wireless standard necessary for transmitting / receiving a wireless signal in the 950 MHz band may be acquired only for the wireless transmission / reception unit 41, and the receiving device Since it is not necessary to acquire the wireless standard for 40 as a whole, it is possible to easily acquire the wireless standard. In addition, the wireless transmission / reception unit 41 can be unitized so as to have versatility, and the wireless transmission / reception unit 41 can be easily attached to a wireless device or a repeater having a configuration different from that of the reception device 40. Is possible. Furthermore, each part of the receiving device 40 except the wireless transmission / reception unit 41 may be configured to handle only the control of the 426 MHz band signal, etc., as in the prior art, so there is an improvement associated with handling the 950 MHz band signal. It becomes unnecessary.

  In addition, since it is not necessary to provide a control unit for each frequency band in the receiving device 40 that receives a signal from the security sensor, the receiving device 40 can be configured simply and inexpensively.

[Modifications to Embodiment]
Although the embodiments of the present invention have been described above, the specific configuration and means of the present invention can be arbitrarily modified and improved within the scope of the technical idea of each invention described in the claims. it can. Hereinafter, such a modification will be described.

(About problems to be solved and effects of the invention)
First, the problems to be solved by the invention and the effects of the invention are not limited to the above-described contents, and the present invention solves the problems not described above or has the effects not described above. There are also cases where only some of the described problems are solved or only some of the described effects are achieved.

(About signal transmission and reception)
In the above embodiment, each of the repeater 30 and the receiving device 40 performs both reception and transmission of signals in two frequency bands, but it is sufficient that only reception of signals in at least two frequency bands can be performed. For example, the repeater 30 receives a signal transmitted in the 426 MHz band from the security sensor 2 and receives a signal transmitted in the 950 MHz band from the receiving device 40 or the remote controller 20, while regarding the transmission, the receiving device 40 or The remote control 20 may be performed only in the 950 MHz band. Further, the receiving device 40 receives a signal transmitted from the security sensor 2 in the 426 MHz band and receives a signal transmitted from the repeater 30 or the remote controller 20 in the 950 MHz band, but does not perform wireless signal transmission. If necessary, signal transmission to a security company or the like may be performed by wire.

(Signal frequency)
In the above embodiment, the 426 MHz band and the 950 MHz band are used together, but the other two frequency bands may be used together.

(About modularization)
In the above embodiment, only the wireless transmission / reception unit 41 of the receiving device 40 is unitized, but the wireless transmission / reception unit 31 of the repeater 30 may be unitized by the same structure as the wireless transmission / reception unit 41. Alternatively, as with the wireless transmission / reception unit 31, the wireless transmission / reception unit 41 may be incorporated into the reception device 40 without being unitized.

DESCRIPTION OF SYMBOLS 1,100 Security system 2 Security sensor 3 Security terminal 10, 101 Opening / closing sensor 11, 102 Fire sensor 12, 103 Human sensor 13, 104 Abnormal alarm light 20 Remote control 21, 40a, 41a Case 22 Button group 22a Emergency button 22b Start Button 22c Security button 22d Release button 23 Indicator light group 23a Emergency light 23b Warning light 23c OK light 23d NG light 23e Security light 23f Release light 24, 31, 41 Wireless transceiver 24a, 35, 45 Antenna 25 Speaker 26, 32, 42 Storage unit 27, 33, 43 Power supply unit 28, 34, 44 Control unit 28a Signal processing unit 30, 105 Repeater 36, 46 Antenna side connection unit 37, 47 First signal processing unit 37a, 47a LPF
37b, 47b First basic processing unit 38, 48 Second signal processing unit 38a, 48a HPF
38b, 48b Second basic processing unit 38c, 48c Compatible processing unit 39, 49 Control unit side connection unit 40, 106 Receiver 40b Housing unit 40c Connection terminal

Claims (4)

A wireless device for a security system that receives a signal from a security sensor,
A wireless transmission / reception unit including one or a plurality of antennas for transmitting / receiving a signal of a predetermined first frequency and a signal of a predetermined second frequency;
A control unit that performs control based on the content of the signal,
The wireless transceiver unit is
An antenna side connecting portion connected to the antenna;
A control unit side connection unit connected to the control unit;
A first signal processing unit that is disposed between the antenna side connection unit and the control unit side connection unit and processes the signal of the first frequency, and processes the signal of the second frequency A second signal processing unit,
The first signal processing unit converts the signal of the first frequency received by the antenna and input through the antenna side connection unit into a signal of a predetermined first method, and the control unit side connection unit Output to the control unit via the control unit side connection unit from the control unit and output to the antenna via the antenna side connection unit at the first frequency. And
The second signal processing unit converts the signal of the second frequency received by the antenna and input through the antenna side connection unit into a signal of the first method, and passes through the control unit side connection unit. Output to the control unit and convert the first system signal input from the control unit via the control unit side connection unit into a predetermined second system signal to generate the antenna at the second frequency. Output to the antenna via a side connection,
Wireless device for security system. The first signal processing unit includes:
The first frequency signal received by the antenna and input through the antenna side connection unit is converted into a signal of a predetermined first method, and is output to the control unit through the control unit side connection unit. And a first basic processing unit that outputs the signal of the first scheme input from the control unit via the control unit side connection unit to the antenna via the antenna side connection unit at the first frequency. ,
The second signal processor is
The second frequency signal received by the antenna and input via the antenna side connection unit is converted into a predetermined second system signal and output, and the second system signal is converted to the second frequency. A second basic processing unit that outputs to the antenna via the antenna side connection unit;
The second basic processing unit converts the signal that is converted into the second system signal and outputs the signal to the first system and outputs the signal to the control unit via the control unit side connection unit. A compatible processing unit that converts the first system signal input from the control unit via the control unit side connection unit into the second system signal and outputs the converted signal to the second basic processing unit;
The wireless device for the crime prevention system according to claim 1. The control unit is accommodated in the first housing,
The wireless transceiver is provided in a second housing configured to be detachable from the first housing,
A wireless device for the security system according to claim 1 or 2. The wireless device is a receiving device that receives a signal from a security sensor directly or via a disaster prevention repeater,
The radio | wireless apparatus as described in any one of Claim 1 to 3.

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