JP5107222B2 - Ventilating facilities - Google Patents

Description

  The present invention relates to a ventilation fan including a ventilation fan and a communication / control module that transmits an operation start command to the ventilation fan.

As shown in Patent Document 1, for example, when the kitchen of each canteen is equipped with a ventilation fan and an alarm device, a system that automatically controls the start and stop of the operation of the ventilation fan in a state where the alarm device detects gas. It is being adopted.
In the invention described in the above-mentioned patent document, ventilation is performed with a ventilation amount corresponding to the state of gas detection and the flow rate until reaching the alarm. By doing so, it is possible to ventilate before the gas concentration reaches a concentration that generates an alarm.

  In the technique described in Patent Document 1, when the ventilation fan receives an operation start command, naturally the operation of the ventilation fan (fan rotation) is scheduled to start.

  When constructing an interlocking system in which this type of alarm device and ventilation fan can be linked, an adapter for communication and control (this adapter is called a communication and control module in this application) is connected to the alarm device and the ventilation fan, respectively. A structure is employed in which the gas concentration information is sent from the alarm device side to the ventilation fan side between these communication / control modules, and an operation start command is output to the ventilation fan based on the gas concentration information.

Japanese Patent Laid-Open No. 2008-232585

When such a system structure is adopted, an operation start command is transmitted from the communication / control module provided on the ventilation fan side to the ventilation fan, but even if the operation start command is received by the ventilation fan, the ventilation fan is not actually operated. There is. For example, in a ventilation fan, the operation itself is not possible due to mechanical circumstances or electrical circumstances. This situation is similar to the state where the ventilation fan does not rotate even though the manual switch of the ventilation fan is turned on.
Furthermore, it is preferable to start the operation of the ventilation fan when the alarm generates a gas leak alarm. However, when the alarm generates a fire alarm, the operation should be forcibly stopped. This is a preferable response.

  And, for example, since an alarm device and a ventilation fan are installed independently in the kitchen of a cafeteria, the kitchen of each house, etc., when constructing the interlocking system as described above, the interlocking system is attached externally. It is essential to be able to build

  It is an object of the present invention to reliably detect whether or not a ventilation fan is actually operated in a state where an operation start command is transmitted to the ventilation fan, and a ventilation facility that can be realized even with existing kitchen equipment and kitchen equipment. Is to provide

In order to achieve the above object, the first characteristic configuration of the ventilation equipment according to the present invention is:
A ventilation fan,
It is equipped with a measurement / communication / control system device that is attached to or interlocked with the ventilation fan and transmits an operation start command for operating the ventilation fan by recognizing a state change that requires operation of the ventilation fan,
In the measurement / communication / control system equipment,
A relay mechanism that is in a predetermined contact state when an operation start command is transmitted to the ventilation fan;
A measurement mechanism unit capable of measuring measurement information related to changes caused by the operation of the ventilation fan;
A contact state of the relay mechanism unit, and a ventilation fan information output unit that outputs information capable of expressing the operation / stop state of the ventilation fan according to measurement information of the measurement mechanism unit,
After the operation start command is transmitted to the ventilation fan, when the measurement information measured by the measurement mechanism unit is the operation state measurement information measured in the state where the ventilation fan is operated, the ventilation fan information output The ventilator fan output information, and when the ventilator fan is non-operating state measurement information measured in a state that is not operated, the ventilator fan information output unit outputs the ventilator non-operating information ,
Furthermore, a gas / fire alarm is provided, and when the gas combustion device is turned ON, the operation start command is transmitted to the ventilation fan, the ventilation fan information output unit outputs the ventilation fan operation information, and The fire alarm device is configured to allow the start of operation of the gas combustion device on condition that the fire alarm is in a normal state in which all of incomplete combustion, gas leakage, and fire are not detected .

According to the first characteristic configuration, the ventilation facility includes a ventilation fan and measurement / communication / control system equipment. Here, the measurement / communication / control system device includes a relay mechanism unit, a measurement mechanism unit, and a ventilation fan information output unit. This system device takes charge of the operation start control for the ventilation fan, and the relay mechanism part serves as a transmission mechanism for outputting the ventilation fan operation start command. That is, the ventilation fan is operated or stopped according to the contact state of the relay mechanism provided in the measurement / communication / control system device. And in this application, after issuing the operation start command to the ventilation fan, the measurement information is received from the measurement mechanism unit, and when the measurement information is the operation state measurement information, the ventilation fan information output unit is the first time. Outputs ventilation fan operation information. Therefore, the ventilation fan operation information is output for the first time in a state where the ventilation fan is being operated reliably. For example, in the prevention and security system provided in the kitchen and kitchen, the operation state of the ventilation fan is surely confirmed, Perform post-processing.
Furthermore, since the above-described measurement / communication / control system equipment is configured separately from the ventilation fan and is externally attached, the ventilation equipment of the present application can be easily constructed using the installed ventilation fan.

In addition to the first feature configuration, the second feature configuration of the ventilation facility according to the present invention,
It is located outside the main body of the ventilation fan, and is provided with a switch mechanism that can control the operation and stop of the ventilation fan by intermittently connecting a power line that supplies power to the ventilation fan.

  According to the second characteristic configuration, since the switch mechanism can be controlled to be operated / stopped, the operation / stop of the ventilation fan can be forcibly controlled via the switch mechanism when necessary.

In addition to the second feature configuration, the third feature configuration of the ventilation facility according to the present invention,
The switch mechanism is in accordance with the contact state of the relay mechanism, and the ventilation fan is controlled to be operated / stopped.

  According to the third characteristic configuration, the operation / stop of the ventilation fan can be controlled via the relay function unit provided in the measurement / communication / control system device. For example, it is necessary to forcibly stop the ventilation fan when a fire occurs. In a certain situation, in addition to controlling the ventilation fan from the measurement / communication / control system equipment, the operation / stop of the ventilation fan can be reliably controlled using the ventilation fan via the relay mechanism.

  A fourth characteristic configuration of the ventilation facility according to the present invention is that, in addition to any of the first to third characteristic configurations, the measurement information supplies power to the ventilation fan while the ventilation fan is in operation. It is in the point which is the electrical driving | running state measurement information measured regarding the electric current which flows through the power line to perform, or the airflow driving | running state measurement information measured around the said ventilation fan.

According to the fourth characteristic configuration, the operation state of the ventilation fan can be confirmed by measuring the electrical operation state measurement information or the airflow operation state measurement information.
The fifth characteristic configuration of the ventilation equipment according to the present invention, in addition to any one of the first to fourth characteristic configurations described above, is the operation of the ventilation fan when the ventilation fan information output unit outputs the ventilation fan non-operation information. There is an alarm output unit that outputs an alarm to prompt.
By comprising in this way, a warning can be issued in the condition where ventilation fan non-operation information is output, and the reliable operation state of a ventilation fan can be ensured.

Embodiments of the present invention will be described with reference to the drawings.
It is an example which employ | adopted the ventilation equipment 100 of this application shown in FIG.
In the following description, the outline of the prevention / security system 1 will be described first, and the embodiments of the first embodiment and the second embodiment will be described as embodiments.

1. Prevention / Security System As shown in FIG. 1, the prevention / security system 1 according to the present application receives a supply of city gas as a fuel gas, obtains heat by combustion of the fuel gas, and uses it for various purposes. Gas / fire alarm devices installed in places where combustion equipment 2 and 3 are used, such as combustion equipment (gas water heater 2, fan heater 3 etc.), gas meter 4 installed at the entrance of each house, kitchen in each house, etc. 5. The ventilation fan 6 is established as a main device. Here, the gas / fire alarm device 5 has a fire detection function in addition to a gas leak detection function and an incomplete combustion detection function. Further, the gas / fire alarm device 5 is configured to output an alarm such as “Check and operate the ventilation fan 6” when it is confirmed that the ventilation fan 6 is not actually operated. ing.

  The residential prevention / security system 1 according to the present application is configured by mounting the communication / control module 7 on each of the above devices (gas combustion devices 2 and 3, gas meter 4, gas / fire alarm 5 and ventilation fan 6). The Further, in the case of the ventilation fan 6 and the fan heater 3, the communication / control module 7 adopts a configuration in which a measurement / switching module 8 unique to the present application is also mounted.

  In the present embodiment, the communication / control module 7 and the measurement / switching module 8 described above are mounted on the ventilation fan 6, and these together constitute the measurement / communication / control system device of the present application. And the ventilation equipment 100 peculiar to this application is implement | achieved in the form with which this measurement / communication / control system apparatus is mounted | worn with or linked to the ventilation fan 6. FIG.

  In the present application, devices to which the communication / control module 7 is mounted are collectively referred to as a mounting target device 9. In addition, the device 9 to which the specific communication / control module 7 is mounted is referred to as “self” with respect to the specific communication / control module 7, and other devices are referred to as “other”.

  The main functions of the communication / control module 7 are communication between the communication / control modules 7, collection of detection information / operation state information (including ON operation information) of the device 9 from each mounting target device 9, self Alternatively, it is a control function for controlling the operation / stop of the device 9 to be mounted based on detection information / operation state information included in information received from another communication / control module 7.

  As described above, the measurement / switching module 8 is a device used for a specific device to be mounted (ventilation fan 6, fan heater 3). The measurement / switching module 8 is used as a part of the power line 10 that uses the module 8, and the measurement / switching module 8 is used from information such as current and voltage flowing through the power line 10. In addition to a measurement function for measuring information (current value, etc.) on the operation state of the mounting target device 9 to be mounted, it also has a switching function for connecting / disconnecting the power line 10.

  In the present application, the mounting target device 9 whose operation is actively controlled by the communication / control module 7 is referred to as an active control device, and the detection information detected by itself or the operation state information indicating its own state is stored in the communication / control module 7. The mounting target device 9 to be output is called a detection / self-information output device.

  Hereinafter, the communication / control module 7 and the measurement / switching module 8 will be described in this order.

[Communication / control module]
FIG. 2 shows the configuration of the communication / control module 7.
As shown in the figure, the communication / control module 7 is configured to be individually mountable on the mounting target device 9, and includes a module input / output unit 71 connected to the input / output unit 91 of the mounting target device 9, A control unit 72 having an arithmetic processing function, a communication unit 73 responsible for communication with itself and other communication / control modules 7, and a power supply unit 74 that supplies power for the operation of the module 7 are configured as main components. Has been. Here, as shown in FIG. 2, the communication / control module 7 is configured to be battery-driven, and is configured to work by receiving supply of power from the battery 11 attached to the power supply unit 74. . Of course, there is no problem even as an external power supply system.

Control Unit The control unit 72 is composed of a microcomputer capable of performing predetermined arithmetic processing. As shown in FIG. 2, the identification information storage unit m1, the device information recognition unit m2, the active control unit m3, and the transmission control unit m4. The transmission order determining means m5 is provided.

Identification information storage means The identification information storage means m1 is a storage means for storing identification information for distinguishing itself from others among the plurality of communication / control modules 7, and this identification information is attached to the attached mounting target device 9 It can be set as self-identification information corresponding to the function in the system.
For example, as shown in FIG. 1, when the system includes a gas / fire alarm device 5, a gas water heater 2, a ventilation fan 6, a fan heater 3, and a gas meter 4, communication that is mounted on the gas / fire alarm device 5. The identification information of the control module 7 is “a”, the communication information attached to the gas water heater 2 is “b”, the identification information of the communication / control module 7 attached to the ventilation fan 6 is “c” The identification information of the communication / control module 7 attached to the fan heater 3 can be set to “d”, and the identification information of the communication / control module 7 attached to the gas meter 4 can be set to “e”.

Device Information Recognizing Unit The device information recognizing unit m2 receives output information from the mounting target device 9 serving as detection information via the module input / output unit 71 and recognizes the device information I2 of the mounting target device 9. Here, the device information I2 includes detection information detected by the mounting target device 9 and driving state information indicating the state of the mounting target device 9. The operation state information includes information on whether or not the operation switch is turned on and an operation start command is accepted, in addition to information on whether or not the device is in an operation state.

  When the mounting target device 9 is the gas / fire alarm device 5, the device information I2 includes normal monitoring state information, power supply abnormality information, incomplete combustion alarm information, gas leak alarm information, and fire alarm information. When the mounting target device 9 is the gas water heater 2, operation state information indicating whether the gas water heater 2 is ON-operated and whether it is actually operated is included. When the mounting target device 9 is the ventilation fan 6, operation state information indicating whether or not the device is actually operated is included. When the mounting target device 9 is the fan heater 3, operation state information indicating whether the fan heater 3 is ON-operated and whether it is actually operated is included.

  Here, the device information recognition unit m2 recognizes whether or not the ventilation fan 6 is in operation after the active control unit m3 transmits an operation start command to the ventilation fan 6 via the relay mechanism unit 12, and then the measurement / switching module. When the measurement information measured by the measurement mechanism unit (current detection unit 14) provided in FIG. 8 is the operation state measurement information measured while the ventilation fan 6 is operated, the ventilation fan 6 is operated. In this case, the ventilation fan 6 is not operated when the non-operation state measurement information is measured when the ventilation fan 6 is not operated.

Information on whether or not the ventilation fan 6 is in operation is output from a module input / output unit 71 provided in the communication / control module 7 attached to the ventilation fan 6 shown in FIG. Further, this information is also transmitted to other communication / control modules 7 via the transmission means 41. The “information that the ventilation fan 6 is not in operation” in the communication / control module 7 attached to the gas / fire alarm 5 is processed by the active control means m3, and the gas / alarm 5 is set to a predetermined level. Active control in the form.
Such an output unit (module input / output unit 71, transmission means 41) corresponds to the “ventilation fan information output unit” in the present application. Furthermore, in the present application, when the gas combustion devices 2 and 3 are turned on, and the operation start operation of the ventilation fan 6 is executed in conjunction with the ON operation, the current detection unit 14 has a current greater than or equal to a predetermined current value. In this situation, the active control means m3 of the communication / control module 7 of the gas / fire alarm 5 causes the gas / fire alarm 5 to issue an alarm prompting the operation of the ventilation fan 6. Control. The form of this alarm notification is an alarm by light emission and an alarm by sound provided in the gas / fire alarm device 5. The light emission alarm is light emission in a pattern provided in advance as a light emission pattern for encouraging the operation of the ventilation fan 5, and an audio alarm is, for example, “The ventilation fan is not operated. Check the operation of the ventilation fan, Please drive. ” The “alarm output unit” described in step 107 (# 107) in the flow of FIG. 10 to be described later includes the active control unit m3 of the communication / control module 7 attached to the gas / fire alarm 5 and the gas / fire alarm 5 It means the functional part related to the alarm output in.

  The device information recognizing means m2 recognizes whether the mounting target device 9 has been turned on or in an operating state, and if the mounting target device 9 is the gas / fire alarm device 5, the alarm device 5 The alarm output from is recognized including the type of the alarm.

  When the installation target device 9 is a gas / fire alarm device 5, a configuration in which contact information of the relay mechanism unit 12 unique to the present application is used for fire alarm recognition is adopted, according to the contact state of the relay mechanism unit 12. In this state, it is recognized that a fire alarm has been generated from the gas / fire alarm device 5, and in the other state, it is recognized that no fire alarm has been generated.

Active Control Unit The active control unit m3 controls the mounting target device 9 based on the received reception information via the reception unit 42 provided in the communication unit 73. With regard to this control, the active control means m3 corresponds to the content of the active control for the wearable device 9 corresponding to the received information received by the receiving means 42 (what active control is performed under what active control determination condition). Configured to be set). The active control determination condition is determined and active control is executed. This active control content will be specifically described later in each embodiment.
The communication / control module 7 of the present application is provided with a relay mechanism unit 12 in conjunction with the active control unit m3, and the relay mechanism unit 12 operates the mounting target device 9 according to the state of the contact. It is configured to determine the state.

  More specifically, when the mounting target device 9 is the gas water heater 2, the combustion stop control is executed in one state (for example, the closed state) according to the contact state of the relay mechanism unit 12. In the other state, the operation of the gas water heater 2 follows the operating state for the gas water heater 2 itself.

  Even when the mounting target device 9 is the ventilation fan 6, the operation start control is executed in one state (for example, the closed state) according to the contact state of the relay mechanism unit 12. This operation start control corresponds to the ON operation of the ventilation fan 6. In the other state, the operation stop control is executed.

  When the mounting target device 9 is the fan heater 3, the combustion stop control is executed in one state (for example, a closed state) according to the contact state of the relay mechanism unit 12. In the other state, the operation of the fan heater 3 follows the operation state for the fan heater 3 itself.

  Even when the mounting target device 9 is the gas meter 4, according to the contact state of the relay mechanism unit 12, in one state (for example, the closed state), emergency shutoff is performed to stop the gas supply from the gas meter 4 to the downstream side. In the other state, the normal gas supply state (the state in which the gas meter 4 is opened) is maintained.

Communication unit The communication unit 73 includes a transmission unit 41 and a reception unit 42.
The transmission unit 41 is configured to transmit the self-identification information I1 stored in the identification information storage unit m1 and the device information I2 of the mounting target device 9 recognized by the device information recognition unit m2. The current transmission information Ie is transmitted according to the transmission control from the control means m4. The transmission form is a so-called broadcast form, and the transmission information Ie is transmitted to the receiving means 42 provided in itself and other communication / control modules 7.

  Specifically, the transmission control unit m4 determines whether or not its own transmission order has arrived, and if it determines that the transmission order has arrived, transmission by this transmission unit 41 is prompted, If the transmission information 41 is determined not to arrive, transmission by the transmission means 41 is prohibited, and transmission information Ie is transmitted according to this control command.

  The receiving means 42 employs a configuration in which transmission information Ie transmitted from the transmitting means 41 provided in itself and other communication / control modules 7 is maintained so as to be always received.

The transmission control unit m4 controls transmission by its own transmission unit 41. In this application, the transmission order is set among all the communication / control modules 7 constituting the communication / control system, and the transmission control means m4 controls the transmission by its own transmission means 41 in accordance with the set transmission order. To do.
The received information includes the self-identification information I1 of the communication / control module 7 that performed the transmission. By receiving this received information, it is determined whether or not the own transmission order has arrived. . If it is determined that the transmission order has arrived, the transmission control unit m4 prompts transmission by its own transmission unit 41. If it is determined that the transmission order has not arrived, the transmission control unit m4 performs transmission by its own transmission unit 41. Ban.
With this configuration, the self-identification information I1 and the device information I2 of the mounting target device 9 to which the device itself is mounted are provided in the device and the other communication / control module 7 in accordance with a preset transmission order. It can be transmitted to the receiving means 42.

The transmission order determination unit m5 determines the transmission order among the plurality of communication / control modules 7 according to the number and type of the mounting target devices 9 constituting the communication / control system.
In the communication / control system according to the present application, the mounting target devices 9 constituting the system are determined in terms of the number and type when the system is constructed (for example, when installed in a specific house). Therefore, at the stage of constructing the system, the order of transmission is determined for each communication / control module 7. For example, the alphabetical order in the self-identification information I1 is determined as the transmission order as it is.

  In this way, not only the transmission order is automatically determined, but also as shown in FIG. 11, the transmission order receiving means 51 for receiving the transmission order among the plurality of communication / control modules 7 as an external input is provided. The transmission order accepted by the order acceptance means 51 may be automatically set as the transmission order by the transmission order determination means m5.

[Measurement / switching module]
The measurement / switching module 8 configures the system in a configuration that is slaved to the communication / control module 7 described above. That is, the measurement / switching module 8 outputs, to the slave communication / control module 7, operation state information I3 indicating the operation state of the attachment target device 9 to which the communication / control module 7 is attached, and the attachment. A switch mechanism unit 13 that controls operation / stop of the target device 9 is provided.

Specifically, it is a device that can be attached to the power line 10 that supplies power to the mounting target device 9, and the current detection unit 14 (an example of a measurement mechanism unit) that flows through the power line 10 and the power line 10 are connected / disconnected. The switch mechanism unit 13 is provided. That is, when the current detection unit 14 detects a state in which a current of a predetermined current value or more is flowing, it can be determined that the mounting target device 9 is actually operating. Therefore, it can be determined that the mounting target device 9 remains stopped.
On the other hand, the switch mechanism 13 of the measurement / switching module 8 is switched according to the state of the relay mechanism 12 described above. That is, the active control of the active control means m3 described above is received.

  In summary, the measurement / switching module 8 is arranged outside the main body of the mounting target device 9, detects measurement information regarding the power line 10 that supplies power to the mounting target device 9, and is connected to the mounting target device 9. A switch for measuring information (current value, etc.) relating to the operating state of the mounting target device 9 in which the measurement / switching module 8 is used, and connecting / disconnecting the power line 10 from information such as current / voltage flowing through the power line 10 It has a function.

The unique usage pattern of the measurement / switching module 8 will be described below.
As described above, the reception unit 42 provided in the communication unit 73 is configured to be able to receive the transmission information Ie transmitted from the own transmission unit 41. And the apparatus information recognition means m2 demonstrated previously is based on the output information from the measurement and switching module 8 demonstrated previously, when the operation start information of the self mounting object apparatus 9 is received as transmission information Ie. A configuration is adopted in which the device information I2 of the device 9 to be attached is recognized. More specifically, in the example shown in FIG. 1, the measurement / switching module 8 is used for the ventilation fan 6 and the fan heater 3 as the mounting target devices 9, respectively. In the configuration in which the communication / control module 7 is mounted on the ventilation fan 6, when the operation start control (ON control) is output from the active control means m3 of the communication / control module 7 to the ventilation fan 6, Output information from the current detection unit 14 of the measurement / switching module 8 is taken into the information recognition unit m2. And the apparatus information recognition means m2 confirms and recognizes the driving | operation of the ventilation fan 6, when the electric current more than a predetermined value is flowing. On the other hand, when no current flows, it is confirmed and recognized that the ventilation fan 6 is not operated for some reason. As described above, the current detection unit 14 of the measurement / switching module 8 uses the power line 10 separately from the communication / control module 7 to check whether the mounting target device 9 is actually operated. Output as information related to the flowing current.

Hereinafter, the operation of the prevention / security system 1 in the first embodiment will be described in the order of the second embodiment.
Configuration and Operation of First Embodiment FIG. 3 shows the operation state in the normal state of the first embodiment.
The configuration of the prevention / security system 1 is different from the configuration shown in FIGS. 1 and 2 in that the gas meter 4 is not provided.
That is, the prevention / security system 1 includes a gas / fire alarm 5, a gas water heater 2, a ventilation fan 6, and a fan heater 3, and the self-identification information I 1 is set as a, b, c, d in the order of description. ing. Further, the transmission order described above is set to the a, b, c, d order of the self-identification information I1.

  In this prevention / security system 1, the gas water heater 2, the fan heater 3, the gas / fire alarm 5 and the ventilation fan 6 are detection / self-information output devices, and the gas water heater 2, the ventilation fan 6 and the fan heater 3 are It becomes an active control device.

  In FIG. 3, in the communication / control module 7, the above-described relay mechanism 12 is illustrated as a contact in the module. Except for the gas / fire alarm device 5, the relay mechanism 12 determines the contact state in accordance with the control of the active control means m3 described above. Regarding the gas / fire alarm 5, the relay 5 is closed while the alarm 5 issues a fire alarm, and a fire alarm is issued on the device information recognition means m 2 side. Be recognized.

The contact point of the relay mechanism unit 12 in each mounting target device 9 and the control of the mounting target device 9 are as follows.
When the installation target device 9 is the gas water heater 2, the gas water heater 2 is urgently stopped when the contact of the relay mechanism unit 12 is closed. When the contact is open, the operation on the gas water heater 2 is allowed as it is. The same applies when the mounting target device 9 is the fan heater 3. When the installation target device 9 is the ventilation fan 6, when the contact of the relay mechanism unit 12 is closed, an operation control command is issued to the ventilation fan 6. When the contact is open, the ventilation fan 6 is stopped.

  5, 6, 8, and 9, which will be described later, in addition to the gas water heater 2, the fan heater 3, the gas / fire alarm device 5, and the ventilation fan 6, the gas meter 4 is illustrated. When the mounting target device 9 is the gas meter 4, when the contact of the relay mechanism unit 12 is closed, the gas meter 4 is shut off and the gas supply is stopped urgently. When the contact is open, the gas supply is maintained.

On the other hand, regarding the gas water heater 2, the fan heater 3, and the gas / fire alarm device 5, the input information from the mounting target device 9 to the communication / control module 7 is shown on the right side of the relay mechanism section 12 by a pair of signal lines 91a. ing. The gas water heater 2 and the fan heater 3 are illustrated as contacts in the mounting target device 9. These show examples of device information recognized by the device state information recognizing means m2, and the mounting target device 9 has the following modes.
When the mounting target device 9 is the gas water heater 2, closing the contact means that the gas water heater 2 is turned on. This is merely an example, and may be information that can recognize the operating state and the stopped state. The contact open means that the gas water heater 2 is waiting for an ON operation. The same applies when the mounting target device 9 is the fan heater 3. When the installation target device 9 is a gas / fire alarm device 5, normal monitoring state information, power supply abnormality information, incomplete combustion alarm information, and gas leakage alarm information are identified and recognized in accordance with the potential difference between the pair of signal lines 91a. Is shown.

  First, the active control determination of the active control means m3 of the communication / control module 7 mounted on the active control device will be described.

In this example, the operation of the prevention / security system 1 when the gas water heater 2 is operated will be described.
The active control judgment for the gas water heater 2 as the installation target device 9 is the operation state in which the ventilation fan 6 is operated, the gas / fire alarm device 5 is in a normal monitoring state, and at the same time, incomplete combustion, gas leakage, fire When the gas water heater 2 is in a normal state where all of the above are not detected, the operation of the gas water heater 2 is allowed. On the other hand, when this determination condition is not satisfied, the operation of the gas water heater 2 is not permitted.

  The active control determination with respect to the ventilation fan 6 as the installation target device 9 starts the operation of the ventilation fan 6 when the gas water heater 2 receives the operation start operation. Thus, the operation of the ventilation fan 6 is started. When the active control determination is made, the device information recognition unit m2 recognizes that the ventilation fan 6 is actually operated when current flows through the ventilation fan 6 based on the output from the measurement / switching module 8. To do. The state in which the ventilation fan 6 is operating is a normal state.

  The active control determination for the fan heater 3 as the installation target device 9 is an operation state in which the ventilation fan 6 is in operation and the gas / fire alarm 5 is in a normal monitoring state, and at the same time, incomplete combustion, gas leakage, It is in a normal state where all of the fires are not detected, and the operation of the fan heater 3 is allowed. On the other hand, when the active control determination condition is not satisfied, the operation of the fan heater 3 is not permitted.

  Further, when the fan heater 3 receives an operation start operation, the device information recognition unit m2 determines that the fan heater 3 has a current flowing through the fan heater 3 based on the output from the measurement / switching module 8. Recognize that is actually driving.

Therefore, when an operation start command for the gas water heater 2 is input, as shown in FIGS. 3 and 4, the information is sent to the communication / control module 7 provided in the ventilation fan 6 and the gas / fire alarm device 5. Then, the operation of the ventilation fan 6 is started, and the operation state is confirmed and recognized. Thereafter, when the gas / fire alarm 5 and the ventilation fan 6 are in a normal state, the communication / control module 7 allows the gas water heater 2 and the fan heater 3 to start operation based on these information, and the gas water heater 2 Is started (see (a) to (e) in FIG. 3).
Also, when an operation start command for the fan heater 3 is input, the operation is started by performing the operations (I) to (IV) in FIG.

Configuration and Operation of Second Embodiment FIG. 5 shows the operation state in the normal state of the second embodiment. 6, 8, and 9 show the operation state when a fire is detected by the gas / fire alarm 5 (FIG. 6), the operation state when incomplete combustion is detected (FIG. 8), and gas leakage. The operation states when detected (FIG. 9) are respectively shown.
The configuration of the prevention / security system 1 is the same as the configuration shown in FIGS. 1 and 2.
That is, the prevention / security system 1 includes a gas / fire alarm 5, a gas water heater 2, a ventilation fan 6, a fan heater 3, and a gas meter 4, and the self-identification information I 1 includes a, b, c, d in the order of description. , E. Further, the transmission order described above is set to the a, b, c, d, e order of the self-identification information I1.

  In this prevention / security system 1, a gas water heater 2, a fan heater 3, a gas / fire alarm 5 and a ventilation fan 6 are detection / self-information output devices, and the gas water heater 2, the ventilation fan 6, the fan heater 3, The gas meter 4 serves as an active control device. First, the active control determination of the active control means m3 of the communication / control module 7 mounted on the active control device will be described.

Normal operation state Active control judgment for the gas water heater 2 as the installation target device 9 is normal in that the gas / fire alarm device 5 is in a normal monitoring state and at the same time, all of incomplete combustion, gas leakage and fire are not detected. The operation of the gas water heater 2 is allowed while the ventilation fan 6 is in operation. On the other hand, when the active control determination condition is not satisfied, the operation of the gas water heater 2 is not permitted.

  The active control determination with respect to the ventilation fan 6 as the installation target device 9 executes active control for starting the operation of the ventilation fan 6 when the gas water heater 2 or the fan heater 3 receives an operation start operation (ON operation). It is. Further, when the active control for starting the operation of the ventilation fan 6 is executed in this way, the device information recognition unit m2 is based on the output from the measurement / switching module 8, and when the current flows through the ventilation fan 6, It is recognized that the ventilation fan 6 is actually operated. In the normal operation state, the state where the ventilation fan 6 is operated is a normal state.

  The determination on the fan heater 3 as the installation target device 9 is that the gas / fire alarm 5 is in a normal monitoring state, and at the same time it is in a normal state in which all of incomplete combustion, gas leakage and fire are not detected, and The operation of the fan heater 3 is allowed while the ventilation fan 6 is in operation. On the other hand, when this determination condition is not satisfied, the operation of the fan heater 3 is not permitted.

  Furthermore, when the fan heater 3 receives an operation start operation (ON operation), the device information recognition unit m2 determines that the current flows through the fan heater 3 based on the output from the measurement / switching module 8. The fan heater 3 is recognized as being actually operated.

  The determination for the gas meter 4 as the mounting target device 9 is not particularly determined in this normal operation state.

  Therefore, in this normal operation state, as shown in FIGS. 4 and 5, when the gas / fire alarm device 5 and the ventilation fan 6 are in a normal state, the information is transferred to the gas water heater 2 and the fan heater 3. Based on this information, the communication / control module 7 allows the gas water heater 2 and the fan heater 3 to start operation, and starts operation.

  On the other hand, in the state where the ventilation fan 6 is not operated, the operation of the ventilation fan 6 is started, and the operation state is recognized and secured based on the output from the measurement / switching module 8, and then the communication / control module 7 is operated. The operation of the gas water heater 2 and the fan heater 3 is permitted and the operation is started.

Abnormal operation state Fire detection The operation when a fire is detected by a gas / fire alarm is shown in FIG.

  The active control determination for the gas water heater 2 as the installation target device 9 is that the gas / fire alarm device 5 is in a normal monitoring state, and at the same time, the operation of the gas water heater 2 is stopped in a fire detection state where a fire is detected. Is.

  The active control determination for the ventilation fan 6 as the mounting target device 9 executes active control for forcibly stopping the operation of the ventilation fan 6 when a fire is detected.

  The active control determination for the fan heater 3 as the mounting target device 9 is to stop the operation of the fan heater 3 when the gas / fire alarm 5 is in the normal monitoring state and at the same time the fire is detected. is there.

  The active control determination for the gas meter 4 as the installation target device 9 is that the gas / fire alarm 5 is in a normal monitoring state, and at the same time, the gas supply from the gas meter 4 is urgently stopped in a fire detection state in which a fire is detected. It is.

  Therefore, in this fire detection state, as shown in FIGS. 6 and 7, when a gas / fire alarm 5 detects a fire, the information is obtained from the gas water heater 2, the ventilation fan 6, the fan heater 3 and the gas meter. 4 is sent to the communication / control module 7 provided respectively, and based on these information, the communication / control module 7 stops the operation of the gas water heater 2, the ventilation fan 6 and the fan heater 3, and the gas meter 4 Supply is stopped.

Incomplete Combustion Detection FIG. 8 shows the operation when incomplete combustion is detected by a gas / fire alarm.

  In the active control determination for the gas water heater 2 as the mounting target device 9, the gas / fire alarm 5 is in the normal monitoring state, and at the same time, the incomplete combustion detection state in which incomplete combustion is detected is detected. The operation is stopped.

  In the active control determination for the ventilation fan 6 as the mounting target device 9, when incomplete combustion is detected, the operation of the ventilation fan 6 is forcibly started when the ventilation fan 6 is stopped. If so, continue that operation.

  In the active control determination for the fan heater 3 as the mounting target device 9, the operation of the fan heater 3 is performed in the incomplete combustion detection state in which the gas / fire alarm device 5 is in the normal monitoring state and incomplete combustion is detected at the same time. It will stop.

  The active control determination for the gas meter 4 as the mounting target device 9 is not particularly performed.

  Therefore, in this incomplete combustion detection state, as shown in FIGS. 7 and 8, when incomplete combustion is detected by the gas / fire alarm 5, the information is obtained from the gas water heater 2, the ventilation fan 6, and the fan. The heater 3 and the gas meter 4 are respectively sent to the communication / control module 7 provided. Based on these information, the communication / control module 7 stops the operation of the gas water heater 2, the ventilation fan 6 and the fan heater 3.

Gas Leak Detection FIG. 9 shows the operation when a gas leak is detected by a gas / fire alarm.

  The active control determination for the gas water heater 2 as the installation target device 9 is that the gas / fire alarm 5 is in a normal monitoring state, and at the same time, the gas water heater 2 is in a state where the gas leak is detected. To maintain.

  The determination on the ventilation fan 6 as the installation target device 9 is that when gas leakage is detected, the operation of the ventilation fan 6 is forcibly started if it is stopped, and if it is being operated, That state continues.

  In the active control determination for the fan heater 3 as the mounting target device 9, the gas / fire alarm device 5 is in a normal monitoring state, and at the same time, the state of the fan heater 3 is maintained in a gas leak detection state in which a gas leak is detected. Is.

  The active control determination for the gas meter 4 as the installation target device 9 is that the gas / fire alarm 5 is in a normal monitoring state, and at the same time, the gas supply from the gas meter 4 is urgently stopped in a gas leak detection state where a gas leak is detected. To do.

  Therefore, in this gas leak detection state, as shown in FIG. 7 and FIG. 9, when a gas leak is detected by the gas / fire alarm 5, the information is obtained from the gas water heater 2, the ventilation fan 6, and the fan heater 3. The gas meter 4 is sent to the communication / control module 7 provided to the gas meter 4. Based on the information, the communication / control module 7 maintains the operation of the gas water heater 2, the ventilation fan 6 and the fan heater 3, and shuts off the gas meter 4. Then, the gas supply is stopped.

  The above is the configuration and operation of the prevention / security system 1 including the ventilation facility 100 according to the present application as a part thereof. Hereinafter, the case where the ventilation fan 6 can be operated and the case where the ventilation fan 6 cannot be operated will be described. In this description, it is assumed that the operation detection of the gas combustion devices 2 and 3 is based on an output from a heat sensor (not shown) provided in each gas combustion device 2 and 3. In this configuration, when the output of the thermal sensor exceeds a predetermined temperature, it is recognized that the gas combustion devices 2 and 3 are in operation, and when the output does not reach the predetermined temperature, the gas combustion device 2 and 3 are recognized as not operating.

Device information recognition and active control determination in each communication / control module The device information recognition for the gas water heater 2 as the mounting target device 9 is performed when the gas water heater 2 operates when the output from the heat sensor exceeds a predetermined value. If the value has not been reached, the gas water heater 2 is stopped.

The device information recognition for the ventilation fan 6 as the installation target device 9 is that when the output from the current detection unit 14 exceeds a predetermined value, the ventilation fan 6 is operating, and when the output has not reached the value, the ventilation fan 6 It is supposed to be stopped.
The active control determination for the ventilation fan 6 as the mounting target device 9 is performed when the gas water heater 2 or the fan heater 3 is operated, and the active control for starting the operation of the ventilation fan 6 is performed by the relay mechanism unit 12 and the switch mechanism unit. 13 to execute. On the other hand, when the gas water heater 2 and the fan heater 3 are stopped, active control for stopping the operation of the ventilation fan 6 is performed via the relay mechanism unit 12 and the switch mechanism unit 13.
Further, when the active control for starting the operation of the ventilation fan 6 is executed in this way, the device information recognition unit m2 is based on the output from the measurement / switching module 8, and when the current flows through the ventilation fan 6, It is recognized that the ventilation fan 6 is actually operated.

  Device information recognition for the fan heater 3 as the mounting target device 9 is performed when the output from the heat sensor exceeds a predetermined value and the fan heater 3 is operating. Is supposed to be stopped.

The active control determination for the gas / fire alarm 5 as the installation target device 9 is when the gas combustion devices 2 and 3 are in the operating state and the ventilation fan non-operation information that the ventilation fan 6 is not operated is received. The alarm which urges the operation of the ventilation fan 6 is issued.
The active control determination with respect to the gas meter 4 as the mounting target device 9 is an emergency stop of the gas supply from the gas meter 4 on the condition that the ventilation fan continuously issues the alarm for a predetermined time from the generation of the alarm. .

Hereinafter, it demonstrates according to FIG. 10 in order of an event.
When the ventilation fan can be operated When the gas combustion devices 2 and 3 are combusting, the communication / control module 7 attached to the gas combustion devices 2 and 3 uses the output of a heat sensor provided in the devices 2 and 3 to perform the gas combustion device 2 , 3 is recognized, and the information is transmitted to the communication / control module 7 attached to the ventilation fan 6.
2. When the communication / control module 7 attached to the ventilation fan 6 receives information that the gas combustion devices 2 and 3 are in operation, the active control means m3 operates to turn the relay mechanism section 12 into the contact ON state. This contact ON state is transmitted to the switch mechanism unit 13 of the measurement / switching module 8, and the ventilation fan 6 is in an ON operation state and tries to start its operation.
3-1. In this state, the current detection unit 14 provided in the measurement / switching module 8 detects the value of the current flowing through the power line 10, and the output is returned to the communication / control module 7 to check the operation of the ventilation fan 6. When it is in the state, the device information recognition unit m2 recognizes that the ventilation fan 6 is operating, and this is confirmed. And since there is no particular problem, the operation such as the alarm described above is not performed.
4-1. When the communication / control module 7 receives the stop information from the gas combustion devices 2 and 3 while the ventilation fan 6 is in operation, the active control means m3 of the communication / control module 7 The contact is opened to make the contact OFF state. This contact OFF state is transmitted to the switch mechanism unit 13 of the measurement / switching module 8 and the ventilation fan 6 is turned OFF. At this time, the current detection unit 14 is not controlled at all.
When the ventilation fan cannot be operated 3-2. On the other hand, when the output is not in a state in which the operation of the ventilation fan 6 can be confirmed, the output is returned to the communication / control module 7, and the device information recognition unit m2 recognizes that the ventilation fan 6 is not operated. Is confirmed.
And since the driving | operation of the ventilation fan 6 is desired, the alarm demonstrated previously will be generated.
4-2. Of course, when the measurement / switching module 8 outputs an output from the operation of the ventilation fan 6 in this alarm generation state, the alarm is stopped.
Similarly, the output of the thermal sensor indicating the stop is output from the gas combustion devices 2 and 3 side, and the communication / control module 7 attached to the gas combustion devices 2, 2 and the communication / control module 7 attached to the ventilation fan 6. The alarm is also stopped when the OFF information of the gas combustion devices 2 and 3 is entered via.
5-2. If the above-described alarm state is continued for a predetermined time and the operation of the ventilation fan 6 is not confirmed, the active control means m3 of the communication / control module 7 attached to the gas meter 4 performs an emergency shut-off of the gas meter 4. The relay mechanism 12 in the communication / control module 7 is closed.
[Another embodiment]
(1) In the above-described embodiment, the measurement / switching module 8 is provided in a form belonging to the communication / control module 7, and the current detection unit 14 detects the current flowing through the power line 10, When a current of a predetermined value or more is flowing, it is detected that the current value is the operation state measurement information (which is also the electric operation state measurement information). It is good also as what confirms the driving | operation of the ventilation fan 6 when the air flow which flows around the ventilation fan 6 is measured in the vicinity, and this air flow exceeds a predetermined threshold value. In this case, an air flow rate exceeding a predetermined threshold can be used as the airflow operation state measurement information.
(2) Further, the electrical operation state measurement information may be a voltage value between predetermined measurement points in addition to the current value as a reference.

  With the operation start command transmitted to the ventilation fan, it was possible to reliably detect whether or not the ventilation fan was actually operated, and it was possible to provide ventilation equipment that could be realized with existing kitchen equipment and kitchen equipment.

The figure which shows the installation situation of the prevention and security system which adopts the ventilation equipment which relates to this application Functional explanatory diagram showing the connection status of the communication / control module and measurement / switching module for a single device The figure which shows the communication structure of 1st Embodiment. The figure which shows the operation | movement flow of 1st Embodiment when a gas combustion apparatus is turned ON operation Explanatory drawing which shows the communication and control state of 2nd Embodiment in a normal operation state Explanatory drawing which shows the communication and control state of 2nd Embodiment at the time of fire alarm occurrence The figure which shows the operation | movement flow of 2nd Embodiment when a fire, incomplete combustion, and a gas leak alarm are output. Explanatory drawing which shows the communication and control state of 2nd Embodiment at the time of incomplete combustion warning generation | occurrence | production Explanatory drawing which shows the communication and control state of 2nd Embodiment at the time of gas leak alarm generation | occurrence | production The figure which shows the operation flow regarding the operation and stop of the ventilation fan Functional explanatory view showing the connection state of the communication / control module and the measurement / switching module with respect to the device to be mounted, relating to another embodiment

Explanation of symbols

1 Prevention / Security System 5 Gas / Fire Alarm (Alarm Output Unit)
6 Ventilation fan (equipment for installation)
7 Communication / control module (measurement / communication / control system equipment)
8 Measurement / switching module (measurement / communication / control system equipment)
10 Power Line 14 Current Detection Unit (Measurement Mechanism Unit)
13 switch mechanism part 41 transmission means (ventilation fan information output part)
100 ventilation equipment m3 Active control means (alarm output unit)

Claims (5)

A ventilation fan,
It is equipped with a measurement / communication / control system device that is attached to or interlocked with the ventilation fan and transmits an operation start command for operating the ventilation fan by recognizing a state change that requires operation of the ventilation fan,
In the measurement / communication / control system equipment,
A relay mechanism that is in a predetermined contact state when an operation start command is transmitted to the ventilation fan;
A measurement mechanism unit capable of measuring measurement information related to changes caused by the operation of the ventilation fan;
A contact state of the relay mechanism unit, and a ventilation fan information output unit that outputs information capable of expressing the operation / stop state of the ventilation fan according to measurement information of the measurement mechanism unit,
After the operation start command is transmitted to the ventilation fan, when the measurement information measured by the measurement mechanism unit is the operation state measurement information measured in the state where the ventilation fan is operated, the ventilation fan information output The ventilator fan output information, and when the ventilator fan is non-operating state measurement information measured in a state that is not operated, the ventilator fan information output unit outputs the ventilator non-operating information ,
In addition, a gas / fire alarm is provided.
When the gas combustion device is turned on, the operation start command is transmitted to the ventilation fan, the ventilation fan information output unit outputs the ventilation fan operation information, and the gas / fire alarm is incompletely burned or gas leaked. A ventilation facility configured to allow the start of operation of the gas combustion device on condition that all the fires are not detected and is in a normal state .   The ventilation facility according to claim 1, further comprising a switch mechanism unit that is located outside the main body of the ventilation fan, and that is capable of operating and stopping the ventilation fan by intermittently connecting a power line that supplies power to the ventilation fan.   The ventilation facility according to claim 2, wherein the switch mechanism is controlled according to a contact state of the relay mechanism, and the ventilation fan is controlled to be operated and stopped.   The measurement information is electrical operation state measurement information measured with respect to a current flowing through a power line supplying power to the ventilation fan in a state where the ventilation fan is operated, or an airflow operation state measured around the ventilation fan. It is measurement information, The ventilation equipment of any one of Claims 1-3.   The ventilation equipment according to any one of claims 1 to 4, further comprising an alarm output unit that outputs an alarm for prompting the operation of the ventilation fan when the ventilation fan information output unit outputs the ventilation fan non-operation information.

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