KR101834071B1 - Control system for heating cable of fire protection piping - Google Patents

Abstract

FIELD OF THE INVENTION The present invention relates to a constant temperature heat power control system for a fire prevention piping for the purpose of preventing freezing of a firefighting facility.
In the case of installing a hot wire in a fire pipe, the power control device provided to control the amount of current supplied to the hot wire is designed to control the constant temperature according to the target temperature value of the hot wire. The power increases due to an increase in the amount of current supplied, and when the temperature suddenly drops when the cold wave is generated, an overcurrent flows, causing a power device malfunction in the power control device.
The present invention enables a constant current control to be performed after a current value is controlled to reach a target temperature within a minimum time so that target current control can be performed irrespective of an external temperature change and an accurate power consumption calculation The present invention also provides a control means for judging whether or not a heating line is abnormal or not. The control means judges whether a heating line is short-circuited or not, So that the accident can be prevented in advance.

Description

FIELD OF THE INVENTION [0001] The present invention relates to a control system for a constant-

The present invention relates to a power control system for a hot wire for the purpose of preventing freezing of a firefighting facility, and more particularly, to a fire control system for controlling the power consumption of a constant temperature hot wire installed in a firefighting facility, The present invention relates to a constant temperature hot water power control system for piping.

The Fire Service Act stipulates that fire extinguishing facilities such as indoor fire hydrants should be installed on buildings of a certain size to prepare for the occurrence of fires.

In the conventional structure of the fire hydrant, the water supplied from the water source is supplied to the indoor fire hydrant via the pressurized water feed pump. The fire hydrant includes a fire hose having a nozzle in which the water is selectively sprayed depending on whether the valve is opened or closed. A bell, a display lamp, and a start lamp.

Such a fire hydrant is used for the purpose of fire evacuation by supplying fire water through a firepipe installed in a vertical direction from a water pipe buried underground to a roof of a building.

In order to solve these problems, it is necessary to wrap the insulating material on the outer circumference of the fire-fighting pipe to which the fire-fighting water is supplied, or to connect the fire-fighting water pipes to the indoor fire- The water inside the fire-fighting pipe was removed in advance to prevent the frost wave.

In recent years, hot wires have been installed in fire-fighting valves and fire-fighting pipelines to prevent freezing.

When the hot wire is installed, a power control device for controlling the amount of current supplied to the hot wire is provided. The power control device is configured to constantly control the temperature according to the target temperature value of the hot wire.

However, when the temperature is lowered, the resistance value is changed to increase the amount of current supplied to the hot wire, so that the power is increased. In addition, the overcurrent occurs due to the sudden temperature decrease in the occurrence of the cold wave, And the piping is frozen.

More specifically, the conventional power control apparatus is configured in a so-called soft start control manner in which the phase angle is constantly increased for a predetermined time (e.g., 10 minutes) as in Fig.

 In such a soft start control method, the heating time is lengthened and the heat generation time becomes longer, so that the piping temperature deviates from the set value and is controlled.

That is, it is difficult to calculate the amount of change according to the temperature, so that a constant phase angle is set at the room temperature, that is, at a room temperature. However, due to the occurrence of an electric current, a fuse or a main breaker There is a problem that the hot wire is not operated and the pipe is frozen.

On the other hand, such a hot wire can cause fatal damage (explosion of electric power element) when a short circuit occurs in the installation work of the piping and power control device, and the hot wire is connected to the pipe in the field by the workers Frequent accidents occurred when voltage was applied after construction of hot wire.

In view of the above, the present invention controls the current value so as to reach the target temperature within a minimum time and allows the constant current control to be performed so that the target current control can be performed regardless of the temperature change of the outside, The present invention is to provide a constant temperature heating wire power control system for a fire-fighting pipe which enables calculation of an accurate power consumption for a length of time.

Further, the present invention provides a determination means for determining whether or not an abnormal condition of a hot wire is provided, so that it is possible to determine whether the hot wire is short-circuited during the initial power-on and whether the power device is abnormal, And is capable of diagnosing an over-current, an over-temperature, or an input signal abnormality in an operating state and providing it to a user.

The present invention provides a constant-temperature heat power control system for a fire-

A temperature control unit that measures the temperature of the piping and provides the measured temperature to the power control unit; a power control unit that controls the power of the hot line to which the hot line is connected; and at least one power control unit Main control means connected to the wired / wireless network to monitor and provide information from each power control device to the central control system and to control and manage the power control device according to the hot line information or control information provided from the central control system, And a central control system for confirming the identification information of the at least one main control means and the power control device connected thereto, checking the hot line information and the operation state in each identification information unit, and setting and managing hot line information of each power control device.

The power control device includes a power supply unit that supplies power to a hot-wire terminal unit through a hot-wire terminal unit to which the hot-wire is connected, a power-supply connecting unit that is connected to the power unit, And controlling the power supply means by using the temperature information and the hot line information provided from the temperature sensing means and controlling the voltage supplied to the hot line to display the control information through the display means And power supply control means for supplying power to the main control means, network means for communication management with the main control means, and display means for displaying the current operating state of the hot wire and the hot wire information setting state.

According to the present invention, the constant temperature heating wire power control system of the fms fire pipe can set the heating wire information to each power control device, so that it is possible to control the current according to the target temperature according to the length of the heating wire having different resistance values In addition, it is possible to increase the current in a minimum time so as to reach the target temperature within a short time, and to be able to control the constant current at the target temperature when the target temperature is reached, Lt; / RTI >

In addition, since it is possible to determine whether or not the construction is abnormal after the completion of the construction, the accident can be prevented in advance.

1 is a graph showing a method of controlling a hot wire of a conventional fire pipe;
2 is a configuration diagram of a constant temperature heat power control system for a fire prevention piping of the present invention
3 is a block diagram of an apparatus for controlling a constant-temperature heat power line of a fire-
FIG. 4 is a graph showing a method of controlling a heat line of a fire-fighting pipe in the present invention
5 is a front view schematically showing an example of a power control apparatus in the present invention.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS The present invention will now be described in detail with reference to the accompanying drawings.

A temperature sensing means 200 for measuring the temperature of the piping and providing the measured temperature to the power control device 300, and a control means for controlling the power of the hot line, A power control device and a wired / wireless network, and monitors information provided from each power control device 300 to provide the control information to the central control system 400. In accordance with the hot line information or control information provided from the central control system, A main control unit 500 for controlling and managing identification information of at least one of the main control unit and the power control unit connected through a wired / wireless network, checking the hot line information and the operation status in each identification information unit, And a central control system 400 for setting and managing hot line information of the hot line.

The power control device (300) A power supply unit 330 for supplying the power supplied through the power connection unit to the hot-wire terminal unit, a hot-wire terminal unit 310 for connecting the hot-wire, a power supply connection unit 320 connected to the power supply unit, A user operation unit 340 for operating the hot line information and the hot line, and a control unit 340 for controlling the power supply unit using the temperature information and hot line information provided from the hot line information setting and temperature sensing unit 200 of the user, A power control means 350 for controlling the voltage to be applied to the main control means 500 and providing the control information to the display and main control means 500 through the display means 370, And a display alarm means 370 for displaying the current operation state of the hot line and the hot line information setting state.

The constant temperature heating wire power control system of the fire pipe of the present invention controls the current value that can reach the set temperature within a short time according to the length of the heating wire and makes it possible to control the constant current thereafter, And it is also possible to detect the overcurrent, the over-temperature or the input signal abnormality in the operating state, and to provide the information.

The power control device 300 is installed in the vicinity of each fire-fighting facility and supplies electric power to the fire line installed in the fire-fighting pipe.

The power control device 300 may include a power connection terminal 320 connected to the power terminal at one end and a hot wire terminal portion 310 to which the hot wire 100 is connected at the other end.

One or more heating wire terminals 310 may be provided to allow one power control device 300 to manage a plurality of heating wires 100 installed in each fire pipe, The power supply unit 330 may be provided.

The power supply means 330 is provided with a switching circuit for switching the power supply means 330 under the control of the power control means 350 to supply the power supplied through the power supply terminal 320 to the hot wire terminal portion 310 and supplying the voltage .

The power control unit 350 calculates the power of the hot wire 100 connected to the hot wire terminal unit 310 according to the hot wire information stored therein to control the power supply unit 330, A heat line information management means 351 for setting and registering hot line information inputted through the information or the user operation means 340, and a control unit 352 for calculating the amount of electric power of the hot line connected to each hot line terminal portion from hot line information set through the hot line information management means A power supply control means (352) for generating control information of the power supply means (350), a heat ray diagnosis means (353) for inspecting the construction state of the heat ray and the operation state of the heat ray when the initial power is turned on. And a display alarm control means (354) for notifying the abnormality through the display means and the alarm means through the display means of the inspection result of the hot line diagnostic means.

The power supply control means 352 controls the power supply means 330 using the power, the rated current value, and the information value according to the length of the hot wire, and rapidly changes the power supply means 330 to the target set temperature And a constant current control step of performing a constant current control to maintain the current value when the temperature reaches a target temperature. The following Table 1 shows the relationship between the power consumption and the rated current according to the length of the heating wire Fig.

The user operation means 340 may be provided with a power supply switch and hot wire information input and correction means.

The display alarm means 370 confirms the current state of the hot wire 100 and the hot wire information setting state and displays the load setting amount and the load amount of the hot wire.

5 is a front view schematically showing an example of a power control apparatus in the present invention.

Each of the fire fighting facilities is provided with a power control device 300. The power control device is managed by one or more main control means 500 in units of groups and is connected to a central control system 500 for setting and managing hot line information of the power control device 400).

The central control system may be configured to manage each power control apparatus 300 in consideration of the number of fire fighting facilities and the size of the facility.

The operation of the constant temperature heat power control system of the fire pipe according to the present invention having the above-described structure will be described as follows.

The power control apparatus 300 of the present invention is provided with a heat ray diagnostic means 353 for checking whether a heat ray has been correctly installed.

When the initial power is supplied, the power control unit 350 determines whether there is an abnormality in the heating line 100 and the power supply unit 330 and informs the user through the display alarm control unit 354, To confirm the construction state of the hot wire.

When it is determined that the hot wire diagnosis is necessary at the time of initial power supply or at the choice of the operator, it is determined whether the hot wire is properly installed by sending a signal current to the power supply means 330 and whether or not the power device of the power supply means is abnormal .

When there is no abnormality of the heat line 100 and the power device, the hot line information is set through the user operation means 340 to complete the installation.

The hot line information that can be set at this time includes the length information of the hot line 100 and the hot line operation temperature for setting the hot line operating temperature.

The power control means 350 of the power control apparatus 300 informs the main control means of the completion of construction through communication with the main control means 500. In the main control means, And provides status information to the central control system 400.

The central control system 400 confirms the identification information of the main control means 500 and the respective power control devices 300 and confirms the hot line information and the operation state in units of each identification information, ) Can be set and managed.

The power control means 350 checks the ambient temperature of the pipe from the temperature sensing means 200 and checks the hot line information of the pipe set by the hotline information managing means 351 when it reaches the set temperature to generate hotline control information, Thereby controlling the power supply means 330 to heat the hot wire.

At this time, the power supply control means 352 increases the power of the hot wire within a predetermined time according to the constant current process, and then performs the constant current control thereafter.

4 is a graph showing a method of controlling a heat ray of a fire-fighting pipe in the present invention.

Controlling the current to reach a target set temperature within a minimum time set value (10 seconds) as shown in Fig. 4; and performing a constant current holding the current in the step when the target set temperature is reached.

 That is, the current amount is increased up to the set time of 10 seconds, and the constant current control is performed after 10 seconds.

The reason for performing the constant current is that the power consumption can be calculated (predicted) according to the length of the heat ray 100 regardless of the change in the external temperature.

Therefore, it can be heated normally while reaching the target delivery value within 10 seconds, and then maintained at a constant temperature.

When the hot wire is operated as described above, the heat ray diagnostic means 353 diagnoses the operation state of the hot wire, that is, the overcurrent, the overtemperature or the input signal error, the fuse and the power device and provides the result to the main control means 500.

The main control means 500 transmits the monitoring information collected from the power control devices 300 to the central control system 400 for final management.

The central control system 400 checks the monitoring information of the power control device 300 collected from each main control means 500 and generates a display and an alarm according to whether an abnormality has occurred to allow the user to manage the alarm.

In addition, the central control system 400 manages the identification information of the installed power control device 300 and the hot-wire information of the piping of each power control device 300 for each identification information.

The hot line information includes the location information of each fire-fighting pipe and the length information of the hot-wire line installed in the fire-fighting pipe, and may include installation construction and user information, if necessary.

The user can set hot line information of each power control device 300 in the central control system 400, as needed.

The hot line information may be set through the power control device 300 or the hot line information of the power control device may be set in the central control system 400. [

In the meantime, the present invention can be configured to directly control each power control apparatus 300 in the central control system 400 without configuring the power control apparatus 300 as group management by the main control unit 500. [

100: heating wire 200: temperature sensing means
300: power control device 310: heating wire terminal
320: Power connection terminal 330: Power supply means
340: User operation means 350: Power control means
351: Hot line information management means 352: Power supply control means
353: Heat line diagnostic means 354: Display alarm control means
360: Network means 370: Display alarm means
400: central control system 500: main control means

Claims (7)

A temperature sensing means 200 for measuring the temperature of the fire-fighting pipe and providing the measured temperature to the power control device 300; And a power control device 300 connected to the at least one power control device 300 through a wired / wireless network to monitor information provided from each power control device 300 and provide the monitored information to the central control system 400, A main control means 500 for controlling and managing the power control apparatus 300 in accordance with hot-wire information or control information provided from the system 400, at least one main control means 500 connected via a wire / wireless network, And a central control system 400 for confirming the identification information of the apparatus 300 and confirming the hot line information and the operation state in each identification information unit and setting and managing the hot line information of each power control apparatus 300 A constant temperature hot water power control system for a fire pipe,
The power control apparatus 300 includes one or more hot-wire terminal units 310 to which hot wires are connected, and a power supply unit that is connected to the hot-wire terminal units 310 and supplies power to the hot- A power supply unit 330 for supplying power to the heat sensing unit 310, a user operation unit 340 for performing diagnosis of the heat ray and operating the heat ray information and the heat ray, The control unit 330 controls the power supply unit 330 using the provided temperature information and the hot line information to control the voltage supplied to the hot line and provides the control information to the display and main control unit 500 through the display alarm unit 370 A network means 360 for managing communication between the control means 350 and the main control means 500 and display alarm means 370 for displaying the current operating state of the hot wire and the hot wire information setting state ;
The power control means 350 includes a hot line information management means 351 for setting and registering hot line information provided from the central control system 400 or hotline information inputted through the user operating means 340, A power supply control means 352 for calculating the amount of power of the hot wire 100 connected to each hot wire terminal portion 310 from the hot wire information set through the hot wire information managing means 351 and generating control information of the power supply means 330, A heat ray diagnostic means 353 for inspecting the construction state of the heat ray 100 and the operation state of the heat ray when the initial power is turned on; And display alarm control means (354) for notifying the abnormality through the display means and the alarm means through the display means of the hot line diagnostic means (353);
The power supply control means 352 includes a constant current control step of controlling the current to reach the target set temperature within the minimum time set value and maintaining the current in the step of controlling the current when the target set temperature is reached A constant current process of the power supply means (330) for making a current;
The hot line information includes a length information of the hot line 100 and a hot line operation temperature for setting a target temperature of the hot line 100;
Wherein the hot line information of the central control system (400) includes positional information of the fire-fighting pipe, length information of a hot-wire provided in the fire-fighting pipe, installation construction and user information Thermal power control system. delete delete delete delete delete delete

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