JP3661500B2 - Flexible disaster prevention receiver with selectable voltage and no-voltage output - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to an improvement of a disaster prevention receiver capable of connecting a smoke prevention terminal device in addition to a district sound device and an emergency broadcasting facility.
[0002]
[Prior art]
Recently, in an automatic fire alarm system introduced in an apartment house or the like, a disaster prevention receiver capable of connecting a smoke prevention terminal device in addition to a district sound device and an emergency broadcasting facility is widely used.
Such a disaster prevention receiver is also called a composite receiver, and has a configuration as shown in FIG. 4, for example. The disaster prevention receiver 100 is provided with commercial power supplied from terminals P1 and P2 in advance. If a fire signal is input from the fire detector S or the transmitter P from the input terminal L-C from which the monitoring line is derived, a predetermined fire alarm is output and the district sound connected to the output terminals T1 to T10 The apparatus B and the emergency broadcast equipment 200 are operated, or the smoke prevention terminal device 300 (fire door, smoke exhaust duct, etc.) connected to the output terminals T11 to T15 is operated. In the figure, C, TC, and TC ′ indicate common terminals, respectively.
[0003]
FIG. 5 is a system diagram showing the electrical relationship of the output terminals of such a disaster prevention receiver.
Referring to this figure, the disaster prevention receiver 100 is provided with a voltage output selection jumper connection JB in the district acoustic control power supply line L1 connected to the drive power supply V, and for the voltage output selection. The non-voltage contact output terminals T16 and T17 provided with the no-voltage output selection jumper connection portion JE and the plurality of voltage contact output terminals T1 to T10 are connected in parallel to the downstream side of the jumper connection portion JB. The supply line L1 has a configuration in which a power supply line L2 for smoke prevention control connected to a plurality of voltage contact output terminals T11 to T15 is connected in parallel. In the figure, F is a fuse for cutting off the current when an excessive current flows through the power supply lines L1 and L2.
[0004]
Here, each of the voltage contact output terminals T1 to T10 includes a control contact R1, each of the voltage contact output terminals T11 to T15 includes a control contact R2, and is a non-voltage contact output terminal provided in the center. Each of T16 and T17 includes a control contact R3.
In such a configuration, each of the voltage contact output terminals T1 to T10 is used as a connection terminal for district sound or emergency broadcast equipment, and when a jumper member is attached to the junction output JB for voltage output selection, It functions as an acoustic connection terminal and closes the control contact R1 when a fire alarm is output, thereby supplying driving power to the district acoustic apparatus through the district acoustic control power supply line L1.
In addition, when a jumper member is attached to the no-voltage output selection jumper connection JE, it functions as an emergency broadcast connection terminal, and when a fire alarm is output, the control contact R1 is closed to output a no-voltage contact signal to the emergency broadcast equipment. It is supposed to be.
In addition, each of the voltage contact output terminals T11 to T15 functions as a smoke prevention terminal connection terminal, and when a fire alarm is output, the control contact R2 is closed to connect the smoke prevention control power line through L2. Thus, the driving power is supplied to the smoke prevention terminal device.
[0005]
In addition, FIG. 6 has shown the schematic system | strain of the power line of the output terminal in the disaster prevention receiver 100, and the voltage contact output terminals T1-T10 and the voltage contact output terminals T11-T15 are made into a receiver. Provided, the voltage contact output terminals T1 to T5 are used as district audio equipment or emergency broadcasting equipment for the first five lines, while the voltage contact output terminals T6 to T10 and the voltage contact output terminals T11 to T15 are connected to the district sound. A total of 10 lines can be connected as the latter half 5 lines connecting the apparatus and the smoke control device.
[0006]
[Problems to be solved by the invention]
By the way, in the above-mentioned conventional disaster prevention receiver, the use of the voltage contact output terminals T6 to T10 is to use the fire detector connected to the monitoring line for the self-fire report system or the smoke prevention interlocking system. Therefore, in order to be able to use it in any system, a power supply line for the district sound and a power supply line for the smoke-exhaust smoke interlocking system are necessary.
If one of the output terminals is selected, the output terminals of the system that are not selected are left over and useless.
[0007]
In addition, since it is necessary to provide control contacts corresponding to all output terminals that are likely to be used, the printed circuit board on which the control contacts are provided becomes larger, and accordingly, the disaster prevention receiver itself is enlarged and manufactured. This is a factor that increases costs.
The present invention has been made in consideration of the above-described circumstances, and reduces the number of output terminals when used in common with the self-fire system and the smoke-exhaust smoke linking system, and accordingly reduces the number of control contacts. Therefore, it is an object to provide a disaster prevention receiver capable of reducing the manufacturing cost by reducing the size of the printed circuit board and the disaster prevention receiver on which they are provided.
[0008]
[Means for Solving the Problems]
In order to achieve the above object, in the flexible disaster prevention receiver capable of selectively setting a voltaged or non-voltage output according to claim 1 of the present invention, at least one power supply line is used as the first power supply line. The other power supply lines are connected in parallel as second power supply lines, and the first power supply line and the second power supply are partly connected to a part of the plurality of voltage contact output terminals. A power supply line switching jumper connection for switching and connecting the line is included.
[0009]
In the flexible disaster prevention receiver capable of selecting and setting a voltaged and non-voltage output according to claim 2, the plurality of voltage contact output terminals are connected to the first power supply line and the second power supply line. A power supply line switching jumper connection part for switching connection and a direct connection to the voltage output selection jumper connection part are included.
[0010]
In the flexible disaster prevention receiver capable of selecting and setting a voltaged or non-voltage output according to claim 3, the first power supply line is a power supply line for district acoustic control, and the second power supply line is Specified as a power supply line for smoke control.
According to a fourth aspect of the present invention, there is provided a flexible disaster prevention receiver capable of selecting and setting a voltage or non-voltage output, and an emergency broadcasting facility is connected to the no-voltage contact output terminal.
[0011]
6. A flexible disaster prevention receiver capable of selecting and setting a voltage or no voltage output according to claim 5, wherein the disaster prevention receiver includes an output terminal for district sound / emergency broadcasting and an output terminal for smoke prevention terminal. It is configured as a composite receiver.
[0012]
DETAILED DESCRIPTION OF THE INVENTION
Embodiments of the present invention will be described below with reference to the drawings.
FIG. 1 is an internal configuration diagram illustrating an example of a main part of a disaster prevention receiver according to the present invention.
This disaster prevention receiver 1 is provided with a voltage output selection jumper connection JB on the first power supply line L1, and a no-voltage output selection jumper connection downstream of the voltage output selection jumper connection JB. The non-voltage contact output terminals T16 and T17 provided with the part JE and a plurality of voltage contact output terminals T1 to T10 are connected in parallel, and the voltage supply contact output terminals T6 to T10 are connected to the first power source. A second power supply line L2 connected in parallel to the supply line L1 is led out, and power supply line switching jumper connection portions JS1 to JS5 are provided for each.
[0013]
Here, the first power supply line L1 constitutes a power supply line for district acoustic control, and the second power supply line L2 constitutes a power supply line for smoke prevention control.
In the figure, F is a fuse for cutting off the current when an excessive current flows through the first and second power supply lines L1 and L2.
Here, the power line switching jumper connecting portions JS1 to JS5 are provided in the voltage contact output terminals T6 to T10 here, but may be provided in all the voltage contact output terminals T1 to T10.
[0014]
Each of the voltage contact output terminals T1 to T10 includes a control contact R1, and each of the non-voltage contact output terminals T16 and T17 includes a control contact R3.
In such a configuration, each of the voltage contact output terminals T1 to T5 functions as a connection terminal for district sound and emergency broadcasting equipment. When a jumper member is attached to the jumper connection portion JB for voltage output selection, the district acoustic connection It functions as a terminal and closes the control contact R1 when a fire alarm is output to supply drive power to the district sound device. On the other hand, if a jumper member is attached to the no-voltage output selection jumper connection JE, emergency broadcast connection It functions as a terminal and outputs a no-voltage contact signal to the emergency broadcasting facility by closing the control contact R1 when a fire alarm is output.
[0015]
Each of the voltage contact output terminals T6 to T10 functions as a connection terminal of the smoke prevention terminal device in addition to the connection terminal of the district sound device or the emergency broadcast equipment, and is connected to the jumper connection portion JB for selecting the voltage output. When a jumper member is attached and a jumper member is attached to pins 4 and 6 of the power line switching jumper connection portions JS1 to JS5 provided at the respective terminals T6 to T10, it functions as a district acoustic connection terminal and fire alarm At the time of output, the control contact R1 is closed to supply drive power to the district acoustic device through the district acoustic control power supply line L1, but a jumper member is attached to the no-voltage output selection jumper connection portion JE. 4 to 6 pins of the power line switching jumper connection portions JS1 to JS5 provided at the terminals T6 to T10. Installing a par member, to function as emergency broadcast connection terminal, when the output of the fire alarm, the control contact R1 is closed by, outputs a no-voltage contact signal to the emergency broadcast facility.
[0016]
On the other hand, if a jumper member is attached to the 5th and 6th pins of the power line switching jumper connection portions JS1 to JS5 provided at the respective terminals T6 to T10, it functions as a smoke-proof terminal connection terminal and is controlled when a fire alarm is output. By closing the contact R1, driving power is supplied to the smoke prevention terminal device through the power line L2 for smoke prevention control.
[0017]
Each of the non-voltage contact output terminals T16 and T17 functions as an emergency broadcast connection terminal, and the emergency broadcast equipment can be provided by closing the control contact R3 when a fire alarm is output regardless of the position of the jumper member. The contact signal is output to.
FIG. 2 shows an example of a jumper mounting structure in the jumper connecting portion. Here, a jumper member (connector) J is provided between the 4th and 6th pins of the power line switching jumper connecting portions JS1 to JS5. It shows how to replace and install.
[0018]
By adopting such a configuration, according to the present invention, the schematic configuration of the output terminal of the disaster prevention receiver 1 is as shown in FIG. 3, for example, and extra output terminals T11 to T11 as shown in the conventional example are used. Since T15 (see FIG. 6) can be omitted and the control contact can be omitted, the size of the printed circuit board on which they are provided and the disaster prevention receiver can be reduced, and the manufacturing cost can be reduced.
[0019]
【The invention's effect】
As can be understood from the above description, in the flexible disaster prevention receiver capable of selecting and setting a voltage or no voltage output according to claims 1 to 3 of the present invention, a jumper member in a jumper connection for switching power lines Depending on the mounting position, it is possible to arbitrarily select and set whether the voltage contact output terminal functions as the connection terminal of the district sound device or the smoke prevention terminal.
[0020]
Therefore, as in the past, when two types of connection terminals for district sound and emergency broadcasting equipment and connection terminals for smoke prevention terminal devices are provided and connected to one of the connection terminals, the other terminal is left over. Disappear.
In the flexible disaster prevention receiver capable of selecting and setting the voltage and non-voltage output according to claim 4, since the emergency broadcast equipment is connected to the no-voltage contact output terminal, a fire alarm is output. Sometimes, it can be operated by outputting a contact signal to the emergency broadcasting equipment via the no-voltage contact output terminal.
[0021]
The flexible compliant disaster prevention receiver capable of selecting and setting a voltaged and non-voltage output according to claim 5 is configured as a composite receiver in which a district acoustic device and a smoke prevention terminal device are connected to its output terminal. Therefore, at the time of fire alarm output, it can be arbitrarily selected and used as a self-fire reporting system or smoke-exhaust smoke interlocking system.
[Brief description of the drawings]
FIG. 1 is an electrical system diagram showing a relationship between an output terminal forming a main part of a disaster prevention receiver of the present invention and a power supply line.
FIG. 2 is a diagram illustrating an example of a jumper member in a jumper connection portion.
FIG. 3 is a diagram schematically showing a configuration of an output terminal in a disaster prevention receiver.
FIG. 4 is a schematic explanatory diagram of a basic configuration of a disaster prevention receiver.
FIG. 5 is an electrical system diagram showing a relationship between an output terminal and a power supply line in a conventional disaster prevention receiver.
FIG. 6 is a diagram showing a schematic configuration of a dual-purpose output terminal in a conventional disaster prevention receiver.
[Explanation of symbols]
DESCRIPTION OF SYMBOLS 1 ... Disaster prevention receiver L1 ... 1st power supply line L2 ... 2nd power supply line JB ... Jumper connection part for voltage output selection JE ... Jumper connection for no-voltage output selection Portions JS1 to JS5 ... Jumper connection portion J for switching the power supply line J ... Jumper members T1 to T10 ... Voltage contact output terminals T16, T17 ... Non-voltage contact output terminal V ... Power source

Claims (5)

A non-voltage contact output terminal provided with a jumper connection for selecting a voltage output on the power supply line, and at least one no-voltage output selection jumper connection on the downstream side of the jumper connection for selecting a voltage output In a disaster prevention receiver that is configured by connecting a plurality of voltage contact output terminals in parallel,
The power supply line is connected as a first power supply line, and at least one other power supply line is connected as a second power supply line in parallel.
Some of the plurality of voltage contact output terminals include a power line switching jumper connecting portion for switching and connecting the first power supply line and the second power supply line. Flexible disaster prevention receiver that can select and set voltage or non-voltage output. In claim 1,
The plurality of voltage contact output terminals are provided with a power line switching jumper connection for switching connection to the first power supply line and the second power supply line, and the voltage output A flexible-type disaster prevention receiver capable of selecting and setting a voltage or no-voltage output, characterized in that it includes one directly connected to a selection jumper connection. In claim 1,
The first power supply line is a power supply line for district acoustic control, and the second power supply line is defined as a power supply line for smoke prevention control. Flexible type disaster prevention receiver with selectable voltage output. In any one of Claims 1-3,
The above-mentioned no-voltage contact output terminal is a flexible disaster prevention receiver capable of selecting and setting a voltage or no-voltage output in which an emergency broadcasting facility is connected. In any one of Claims 1-4,
The disaster prevention receiver is configured as a composite receiver with an output terminal for district audio / emergency broadcasting and an output terminal for smoke prevention terminals. Flexible disaster prevention receiver.

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