KR20160002268U - Apparatus for monitoring operation state of heat wire - Google Patents

Abstract

One feature of the heating line control device includes a temperature sensing unit for sensing a temperature of a pipe and outputting a temperature sensing signal in a corresponding state, and a temperature sensing unit for sensing a temperature of the pipe, Determining whether the state of the temperature sensing unit is abnormal by using the first set temperature and the second set temperature, and determining whether the state of the heating line is in an abnormal state by using a heating line state detection signal fed back from the heating line being driven At least one heating line driving apparatus including a storage section for storing a determination result of the operation control section and a first communication section for transmitting a determination result stored in the storage section, A second communication unit for receiving a determination result transmitted from the second communication unit, A monitoring control unit receiving the determination result and determining an operation state of the at least one heating line driving device and outputting an operation state of the at least one heating line driving device output from the monitoring control unit And a heating line state monitoring device.

Description

FIELD OF THE INVENTION [0001] The present invention relates to a heating-

The present invention relates to a heating line condition monitoring system.

The heating cable is a heating cable called a constant temperature cable. Unlike conventional heating cables, it is heated by a plastic semiconductor containing carbon, not a heating cable. It has a positive temperature coefficient (PTC) characteristic. .

The PTC characteristic is a kind of natural phenomenon. It shows a phenomenon in which the calorific value is automatically increased or decreased as the ambient temperature changes. The constant temperature wire is a special heating element having a continuous parallel circuit structure using a conductive polymer. Self-regulating heating cable designed to automatically increase or decrease the amount of heat generated by controlling the temperature.

The constant-temperature electric wire is a self-regulated heater developed by applying the PTC principle. It has the advantage of minimizing the electric consumption because the heat is much colder in cold weather and less heat in colder weather.

Such a heating cable, which is a constant-temperature electric wire, may be installed in an individual heating boiler, an end of an outdoor sewer pipe installed at an outdoor place, a fireproof water pipe located at the outside of a common house such as an apartment, or a heating wire for removing a fan or ice sheet Is used.

Accordingly, the operation of the heating wire is controlled according to the temperature of the pipe or the like detected, and when the temperature reaches the predetermined temperature range, the heating wire is operated to protect the pipe from the frozen wave.

In this way, the apparatus for preventing the freezing of the pipe is installed at the place where the pipe is installed. The position of the pipe can be located on the road side or the outside of the house which can be easily checked by the manager, It is difficult for the manager to confirm the operation of the heating line.

Therefore, the manager can not easily check the operation state of the heating line, and the operation state of the heating line can not be accurately and promptly detected, so that the check for the heating line that is not operated normally is delayed, .

In addition, since there is no device that automatically notifies the correct operation state of the heating line like a short circuit of the heating line, the manager of the heating line must diagnose whether the heating line is faulty manually by using a separate tester or the like, The cost increases.

Korean Patent Publication No. 10-2012-0035415 (Publication date: April 16, 2012, title of invention: water pipe freeze prevention device)

Therefore, the technical problem to be solved by the present invention is to improve the convenience of the user by making it possible to quickly grasp the operation state of the heating cable.

According to an aspect of the present invention, there is provided a heating-line-state monitoring system comprising: a temperature sensing unit for sensing a temperature of a pipe and outputting a temperature sensing signal in a corresponding state; a temperature sensor connected to the temperature sensing unit, Determines whether or not the state of the temperature sensing unit is abnormal by using the temperature determined by the temperature sensor, the first set temperature, and the second set temperature, and determines whether the state of the heating line is abnormal A storage unit connected to the operation control unit and storing a determination result of the operation control unit and a first communication unit connected to the operation control unit and transmitting a determination result stored in the storage unit, At least one heating line drive device including at least one heating line A second communication unit connected to the second communication unit and configured to receive a determination result transmitted from the second communication unit to determine an operation state of the at least one heating line driving device and output the determination result; And an operation state display unit connected to the control unit and the monitoring control unit and configured to output an operation state of the at least one heating line driving device output from the monitoring control unit.

And the operation control unit may determine the state of the temperature sensing unit to be in an abnormal state when the determined temperature of the pipe is equal to or higher than the first set temperature or equal to or lower than the first set temperature and the second set temperature and lower.

The operation control unit may determine that the heating line is in an abnormal state when the resistance value determined by the heating line state detection signal is equal to or larger than the set resistance value.

Wherein the at least one heating line driving apparatus is connected to a power source and is maintained in an on or off state according to an atmospheric temperature, and is connected to the power switch and the operation control unit, and when the power switch is on, And a power supply unit for generating a driving voltage required for the operation of the heating line control apparatus.

Wherein the at least one heating line driving apparatus includes a first warning lamp connected to the operation control unit and configured to display an abnormal state of the temperature sensing unit under the control of the operation control unit and a second warning lamp connected to the operation control unit, And a second warning lamp for indicating an abnormal state of the heating line.

Preferably, the communication between the at least one heating line driving device and the heating line condition monitoring device is performed through Bluetooth, ZigBee, LAN, or UWB communication.

  According to this feature, whether or not the temperature sensing unit is disconnected and short-circuited, whether the heating wire is disconnected or not is automatically determined and transmitted to the manager, so that the temperature sensing unit operating in an abnormal state and the position of the heating wire can be quickly and accurately checked The time is greatly reduced and the trouble source becomes easy to grasp.

By using the temperature sensing part, the operation of the heating wire is controlled by sensing the temperature of the pipe around which the heating wire is wound, thereby controlling the operation of the heating wire more efficiently. This prevents the heating wire from unnecessarily operating in an unnecessary situation other than the situation where the frost wave situation or the contents of the piping can be frozen.

As a result, the power consumption due to the operation of the heating wire is reduced.

1 is a schematic block diagram of a heating line condition monitoring system according to an embodiment of the present invention.
2 is a schematic block diagram of a heating line driving apparatus according to an embodiment of the present invention.
3 is an operational flowchart of a heating line driving apparatus according to an embodiment of the present invention.
4 is a flowchart illustrating an operation of the heating line state monitoring apparatus according to an embodiment of the present invention.
FIG. 5 is a data flow chart showing a determination result transmission state between a heating wire line driving apparatus and a heating wire line state monitoring apparatus in a heating wire line state monitoring system according to another embodiment of the present invention.

Hereinafter, embodiments of the present invention will be described in detail with reference to the accompanying drawings so that those skilled in the art can easily carry out the present invention. However, the present invention may be embodied in many different forms and is not limited to the embodiments described herein. In the drawings, the same reference numerals are used throughout the specification to refer to the same or like parts.

It is to be understood that when an element is referred to as being "connected" or "connected" to another element, it may be directly connected or connected to the other element, but it should be understood that there may be other elements in between do. On the other hand, when an element is referred to as being "directly connected" or "directly connected" to another element, it should be understood that there are no other elements in between.

Hereinafter, a heating line state monitoring system according to an embodiment of the present invention will be described with reference to the accompanying drawings.

First, the structure of a heating line state monitoring system according to an embodiment of the present invention will be described in detail with reference to FIG. 1 and FIG.

1, the heating-line-condition monitoring system controls power supply to each of a plurality of heating lines 1 to control the operation of the heating line 1 and controls the operation of the heating elements 1, (100) and a plurality of heating line driving apparatuses (100) for judging an operating state and generating and storing a determination result about whether or not the operation state is normal, and transmits a determination result generated by each heating line driving apparatus And a heating line state sensing device 200 for monitoring the operation state of each heating line driving device 100.

As shown in FIG. 2, each heating line driving apparatus 100 includes a temperature switch SW1 to which a power source AC is supplied to one terminal, An operation control unit 130 connected to the temperature sensing unit 120 and a power supply unit 110 connected to the other terminal of the temperature switch SW1, a temperature sensing unit 120, a power supply unit 110, An operation unit 130 and a heating line driving unit 140 connected to the heating line 1, a warning unit 150 connected to the operation control unit 130, and an operation control unit 130, And a connected communication unit (e.g., first communication unit) 170.

The temperature switch SW1 is a switch for maintaining the on or off state of the boiler room, such as a boiler room, in which the operation state is changed according to the ambient temperature of the installation room in which the heating wire 1 is installed, have.

Therefore, the temperature switch SW1 maintains the on state when the ambient temperature is lower than the set temperature, and maintains the off state when the ambient temperature exceeds the set temperature. For example, the set temperature may be 5 ^° C, but the size of the set temperature can be changed as needed.

When the temperature switch SW1 is kept in the ON state, the power source AC is supplied to the power source unit 110 via the ON temperature switch SW1. When the temperature switch SW1 is maintained in the OFF state, The power source AC is not applied to the power source unit 110 but is interrupted by the temperature switch SW1 and the operation of the heating wire line driving apparatus 100 is stopped.

The temperature switch SW1 may be omitted if necessary. When the temperature switch SW1 is omitted, the power supply AC is supplied to the power supply unit 110 at all times, and the operation control unit 130 of the heating wire 1 is controlled according to the temperature sensing signal output from the temperature sensing unit 120 And controls the operation of the heating line 1. [

The power supply unit 110 includes a power supply AC supplied through the temperature switch SW1, that is, an AC-DC converter that converts an AC power source into a DC power source, and an overcurrent breaker that fuses an overcurrent And generates at least one driving voltage required for operation of the heating line driving apparatus 100 using the supplied power source and applies the generated driving voltage to the corresponding component so that the operation of the heating line driving apparatus 100 can be performed.

At this time, the power source AC applied to the power source unit 110 may be a commercial power source having a frequency of 50 Hz or 60 Hz and 80 V to 240 V.

When the operation temperature exceeds the set temperature, the power of the power supply unit 110 is automatically shut off, so that the respective components of the heating wire line driving apparatus 100 The application of the driving voltage to the elements is stopped, so that waste of standby power consumed in the respective components of the heating line driving apparatus 100 is prevented, thereby preventing unnecessary power consumption in the heating line driving apparatus 100. [

The temperature sensing unit 120 is positioned directly on the piping where the heating line 1 is installed and senses the temperature of the piping and outputs a temperature sensing signal corresponding to the sensed temperature to the operation control unit 130.

The temperature sensing unit 120 may be a thermistor.

The operation control unit 130 starts operation when a driving voltage necessary for the operation is applied by the operation of the temperature switch SW1, reads the temperature sensing signal applied from the temperature sensing unit 120, Thereby determining the temperature of the pipe detected by the pipe.

Therefore, when it is determined that the sensed temperature is equal to or lower than the set temperature (for example, the third set temperature), the power supply to the heating line 1 is performed so that the heating operation of the heating line 1 can be performed. In this example, the set temperature for operation of the heating wire 1 is minus 2 ^o C, but the size of the temperature can also be changed according to the surrounding environment.

The operation control unit 130 determines whether the operating state of the temperature sensing unit 120 is normal or abnormal based on the temperature determined by the temperature sensing unit 120. [

That is, when the temperature determined by the temperature sensing unit 120 is equal to or higher than the first set temperature, which is the set temperature, or is lower than the second set temperature, the temperature sensing unit 120 is determined to be short- ) Is determined as an abnormal state.

The first set temperature is a temperature for determining the short-circuit state of the temperature sensing unit 120. The second set temperature is a temperature for determining the disconnection state of the temperature sensing unit 120. The first set temperature is a first set temperature, Are different from each other.

The storage unit 131 stores the identification number ID for the heating line driving apparatus 100 belonging to itself as the memory, the temperature sensed by the temperature sensing unit 120, the first to third set temperatures, Data required for operation of the heating line driving apparatus 100, data generated during operation, etc., such as the determination result of the sensing unit 120 and the heating line 1, are stored.

As shown in FIG. 2, the storage unit 131 is located apart from the operation control unit 130, but may be embedded in the operation control unit 130. FIG.

The heating line driving unit 140 is composed of a switching device such as a triac (triode alternating current) switch.

At this time, the control terminal of the heating wire driving unit 140 is connected to the operation control unit 130, the output terminal is connected to the heating wire 1, and the input terminal is connected to the driving voltage generated by the power supply unit 110.

Accordingly, when the temperature sensed by the temperature sensing unit 120 is lower than the third set temperature, the operation control unit 130 outputs a control signal to the heating line driving unit 140 so that current flows to the heating line 1, 1).

At this time, the operation control unit 130 controls the size of the control signal applied to the heating line driving unit 140 based on the temperature sensed by the temperature sensing unit 120 (e.g., the turn-on time of the heating line driving unit 140, Size].

In this case, as the temperature sensed by the temperature sensing unit 120 is lower, the magnitude of the control signal applied to the heating line driving unit 140 is increased to increase the degree of heat generated by the heating line 1, So as to prevent the freezing of the water.

For example, when the heating line driving unit 140 is triac, the risk of fire or explosion is prevented as compared with the case where the heating line driving unit 140 is formed of a relay.

That is, when a relay is used, there is a high possibility that a spark occurs in the physical switching contact of the relay. In this case, when a device such as a boiler in which the exothermic driving unit 140 is installed is a material having good flammability such as gas or the like, a fire or an explosion occurs even with a small amount of flame.

However, when the heating line driving unit 140 is a triac, which is a semiconductor element, there is no possibility of occurrence of such flame, so that the risk of a safety accident is solved. Further, since the phase control using the triac is performed, a sudden current flow to the heating wire 1 is prevented, and the lifetime of the heating wire 1 also increases.

When a current flows to the heating line 1 by the operation of the heating line driving unit 140, a feedback current flowing through the heating line 1 is applied to the operation control unit 130. Therefore, the operation control unit 130 determines the state of the heating wire 1 (i.e., the resistance value) using the applied feedback current to determine whether or not the heating wire 1 is disconnected.

In this example, the operation control unit 130 receives the current flowing through the heating wire 1 directly as a feedback current to determine whether or not the heating wire 1 is disconnected. In an alternative example, the current flowing in the heating wire 1 is separately sensed And the operation control unit 130 can use the signal output from the current sensor to determine whether the heating line 1 is disconnected or not by using the current flowing through the heating line 1. [

The determination result of the operating state of the heating line 1 is also stored in the storage unit 131. [

The alarm unit 150 is for informing a user of an abnormal state when the temperature sensing unit 120 and the heating line 1 are in an abnormal state and is formed of a warning light such as a light emitting diode . The warning unit 160 includes a first warning light 161 operating in an abnormal state of the temperature sensing unit 120 and a second warning light 162 operating in an abnormal state of the heating wire 1. [

The communication unit 160 is a communication module for transmitting the determination result of the operation state of the temperature sensing unit 120 and the heating line 1 stored in the storage unit 131 to the outside, And communicates with the heating line state monitoring device 200 by the communication unit 160. The heating line state monitoring device 200 is a communication device that receives information from outside.

The communication unit 170 uses a wireless communication method such as bluetooth, zigbee, LAN or ultra wideband (UWB), or a wired communication method such as RS232, RS485, or CAN communication Can be used.

The heating line (1) is a self-regulating heating cable that is wound on the surface of the pipe at regular intervals, and transfers the generated heat to the pipe to prevent the pipe from being frozen.

The heating line state monitoring apparatus 200 includes a communication unit (e.g., a second communication unit) 210, a monitoring control unit 220 connected to the communication unit 210, a storage unit (e.g., a second storage unit) connected to the monitoring control unit 220 230), and an operation status display unit (240) connected to the monitoring control unit (220).

The communication unit 210 may be a communication module for communicating with a plurality of heating line driving apparatuses 100 such as a communication unit 170 and may be a Bluetooth communication unit such as a bluetooth, a zigbee, a LAN or an ultra wideband wideband), or a wired communication method such as RS232, RS485, or CAN communication can be used.

The monitoring control unit 220 requests the determination results of the plurality of heating line driving apparatuses 100 through the communication unit 210 every fixed period and outputs the determination result transmitted from each of the plurality of heating line driving apparatuses 100 together with the corresponding identification number And determines the operation state of the heating line 1 and the operation state of the temperature sensing unit 120, the operation state of which has been determined by the heating line driving apparatus 100.

Then, data corresponding to the determined heating line 1 and data corresponding to the determined states of the temperature sensing unit 120 are output to the operation state display unit 240, and the operation state of the heating line 1 of each heating line driving apparatus 100 and the temperature The operation state of the sensing unit 120 is displayed.

The storage unit 230 also stores the operation of the sensing control unit 220 and the determination results transmitted from the plurality of heating line driving apparatuses 100 as memories.

The operation state display unit 240 includes a display device such as a liquid crystal display (LCD) or an organic light emitting display (OLED).

As described above, the operation status display unit 240 displays a determination result (for example, the pipe temperature determined by the temperature sensing unit 120) transmitted from the plurality of heating line driving apparatuses 100 by the control operation of the monitoring control unit 220 , Whether or not the temperature sensing unit 120 is normal, and the state of the heating line 1 (i.e., disconnection), thereby easily transmitting necessary information to the user.

As shown in FIG. 1, the number of heating line driving apparatuses 100 in this example is several, but is not limited thereto and may be one.

In the heating line state monitoring system having such a structure, the operation of the heating line driving apparatus 100 will be described first with reference to FIG. At this time, the operation of each of the plurality of heating line driving apparatuses 100 is the same as that of the operation control unit 130.

First, when the atmospheric temperature of the space in which the temperature switch SW1 is provided is equal to or lower than the set temperature (for example, the fourth set temperature), the temperature switch SW operates in the OFF state and power supply to the power supply unit 110 is not performed .

Therefore, since the operation of the power supply unit 110 is not performed, the driving power supply to the respective components 120-160 of the heating line control apparatus is not performed, so that the operation of the heating line driving apparatus 100 is not performed.

At this time, since the driving power is not applied to the respective components 120-160, the standby power consumed by the respective components 120-160 is not generated, and the power consumption is greatly reduced.

However, when the temperature switch SW1 is in the ON state, the operation of the power source unit 110 is performed and the operation of the operation control unit 130 is started as well (S10).

When the operation control unit 130 starts operating, the operation control unit 130 reads the temperature sensing signal output from the temperature sensing unit 120 (S11) and determines the temperature of the pipe where the heating line 1 is installed (S12).

Then, the operation control unit 130 reads the first and second set temperatures stored in the storage unit 131 and compares them with the temperature of the determined pipe, respectively (S13).

When the determined pipe temperature is equal to or higher than the first set temperature or lower than the second set temperature, the operation control unit 130 sets the state of the temperature sensing unit 120 to an abnormal state such as a short- The state of the temperature sensing unit 120 determined to be in an abnormal state is stored in the storage unit 131 (S14). At this time, the first set temperature and the second set temperature are temperatures for determining whether the temperature sensing unit 120 is normal, and the first set temperature is larger than the second set temperature.

Then, the operation control unit 130 operates the first warning light 161 of the warning unit 160 (S15) to check the abnormal state of the temperature sensing unit 120 installed in the heating line driving device 100 from the outside .

The operation control unit 130 then transmits the determination result of the abnormal state to the temperature sensing unit 120 through the communication unit 160 and the identification number of the corresponding heating line driving device 100 to which the temperature sensing unit 120 belongs (S16), so that the heating-line-condition monitoring apparatus 200 can recognize the abnormal state of the temperature-sensing unit 120. The heating-line-

However, if the pipe temperature sensed by the temperature sensing unit 120 is within the range defined by the first and second set temperatures in step S13, the operation control unit 130 controls the operation of the temperature sensing unit 120 After the state is determined as a normal state, the determination result is stored in the storage unit 131 (S17).

Then, the operation control unit 130 compares the pipe temperature determined in step S12 with the third set temperature, and determines whether the pipe temperature is lower than the third set temperature (S18). At this time, the third set temperature is a temperature that is lower than the first set temperature and higher than the second set temperature, and exists between the first set temperature and the second set temperature.

When the determined pipe temperature exceeds the third set temperature, the operation control unit 130 determines that the temperature state of the current pipe is not the state in which the freeze wave occurs, and determines that the heating wire 1 is not in a state to be driven.

Accordingly, when the determined pipe temperature exceeds the third set temperature, the operation control unit 130 proceeds to step S11 to determine the pipe temperature determined by the temperature sensing unit 120. [

However, when the determined pipe temperature is equal to or lower than the third set temperature, the operation control unit 130 determines that the temperature state of the current pipe is in a state in which the pipe can cause the freeze of the pipe, Is determined to be necessary.

Accordingly, the operation control unit 130 outputs a control signal of a corresponding size according to the determined temperature to the heating line driving unit 140 to operate the heating line driving unit 140 (S19).

Accordingly, the heating line driving unit 410 changes the operation state according to the magnitude of the control signal output from the operation control unit 130, so that a current having a magnitude proportional to the magnitude of the control signal flows to the heating line 1, So that the heat generating operation of the heat exchanger is performed.

At this time, the magnitude of the control signal applied to the heating line driving unit 140 in the operation control unit 130 may increase as the piping temperature decreases in inverse proportion to the determined piping temperature.

Then, the operation control unit 130 reads a heating line state detection signal, which is a feedback signal (e.g., a feedback current), applied from the heating line 1 to determine whether the heating line 1 is disconnected (S110, S111).

At this time, when the resistance value of the heating wire 1 determined by the heating wire state detection signal is equal to or larger than the setting resistance value, the operation control unit 130 determines the state of the heating wire 1 to be in a disconnection state.

Accordingly, when the resistance value determined by the heating line state detection signal is equal to or greater than the set resistance value, the operation control unit 130 determines that the heating line 1 is in a disconnection state and the disconnection state of the heating line 1 is stored in the storage unit 131 (S112).

Then, the operation control unit 130 operates the second warning light 162 of the warning unit 160 (S113) to promptly check the state of the heating wire 1 by displaying the disconnection state of the heating wire 1 to the outside There.

However, when the resistance value determined by the heating line state detection signal is less than the set resistance value, the operation control unit 130 determines the state of the heating line 1 as a normal state and stores the determination result in the storage unit 131 (S114 ).

Then, the process proceeds to step S11 to control the operation of the heating wire line driving apparatus 100. [

The temperature sensing unit 120 senses the temperature of the pipe through which the heating wire 1 is wound to control the operation of the heating wire 1 to control the operation of the heating wire 1 more efficiently. This prevents the heating wire 1 from unnecessarily operating in an unnecessary situation other than a frost wave situation or the contents of the pipe.

As a result, the power consumption due to the operation of the heating wire 1 is reduced.

Further, since the heating line driving unit 140 for operating the heating line 1 uses a triac in place of the relay, the risk of generating a flame at the time of switching is reduced, and a safety accident such as fire or explosion danger due to the operation of the heating line driving unit 140 Cause of occurrence is eliminated.

The operation of the operation control unit 130 of each heating line driving apparatus 100 determines whether or not the abnormality of the temperature sensing unit 120 and the heating line 1 belonging to each heating line driving apparatus 100 is abnormal Therefore, troublesomeness and labor required for the inspector to manually check the operation state of each heating line driving device 100 are greatly reduced.

Next, referring to FIG. 4, when the operation of the temperature sensing unit 120 and the heating line 1 is monitored through the operation of each heating line driving apparatus 100, the temperature sensing unit 120, An operation in which the heating line condition monitoring device 200 receives and confirms the determination result of the operating state of the heating circuit 1 will be described.

As shown in FIG. 4, when the operation of the monitoring control unit 220 of the heating line state monitoring apparatus 200 starts (S20), it is determined whether a determination result is received from the heating line driving apparatus 100 (S21).

When the determination result is received from the heating line driving apparatus 100, the monitoring control unit 220 determines whether at least one of the temperature sensing unit 120 and the heating line 1 among the plurality of heating line driving apparatuses 100 is abnormal And determines which of the temperature sensing unit 120 and the heating line 1 is operated in an abnormal state using the determination result (S22).

The monitoring control unit 220 outputs the determination result to the operation state display unit 240 and stores the result of the determination in the storage unit 230 (S23). The monitoring control unit 220 then outputs the determination result to the heating line driving apparatus 100 among the plurality of heating line driving apparatuses 100 At least one of the temperature sensing unit 120 and the heating line 1 indicates that an abnormal state has occurred and the type of the abnormal state of the temperature sensing unit 120 and the heating line 1, Is in a short-circuited state or a disconnection state and indicates whether the heating wire (1) is disconnected.

Accordingly, the manager of the heating line state monitoring apparatus 200 confirms the display state indicated by the operating state display unit 240 and confirms the position of the heating line driving apparatus 100 and the heating line 1 in which the failure occurs. The type is also quickly identified.

Unlike the present example, in an alternative example, the determination result of the heating line driving apparatus 100 may be periodically transmitted to the heating line condition monitoring apparatus 200. [

5, the monitoring control unit 220 transmits a determination result request signal to a plurality of heating line driving apparatuses 100 when a preset time has been reached using a built-in timer or the like (S31) The heating line driving apparatus 100 reads the determination result stored in the storage unit 131 and the corresponding identification number and transmits the determination result to the monitoring control unit 220 of the heating line state monitoring apparatus 200 (S33).

Accordingly, the heating line condition monitoring apparatus 200 can monitor the operation state of the temperature sensing unit 120 and the heating line 1 of each heating line driving apparatus 100, and the operation state of the heating line 1, using the determination result transmitted from the plurality of heating line driving apparatuses 100, At least one of the temperature sensing unit 120 and the heating line 1 is in an abnormal state, the type of the abnormal state is determined (S34), and the result is outputted to the operation state display unit 240 and stored (S35).

Accordingly, the manager of the heating line status sensing apparatus 200 can use the display state of the operating state display unit 240 to monitor a plurality of temperature sensing units 120 and a plurality of heating lines 1, Since the position of the temperature sensing unit 120 and the heating line 1 that maintains the position of the heating line 1 and the heating line 1 and the position of the heating line 1 can be quickly detected by the manager of the heating line state monitoring apparatus 200, So that the position and the type of failure of the heating cable (100) and the heating cable (1) can be grasped.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it will be understood by those skilled in the art that various changes in form and details may be made therein without departing from the scope of the invention as defined by the appended claims. Of course, this is possible. Therefore, the scope of the present invention should not be limited to the embodiments described, but should be determined by the equivalents as well as the claims described below.

100: heating line driving device 200: heating line condition monitoring device
SW1: Temperature switch 1: Heating line
110: power supply unit 120: temperature sensing unit
130: Operation control unit 140: Heating line driving unit
150: warning section 160, 210:
220: monitoring control unit 131, 230:
240: Operation status indicator

Claims (6)

A temperature sensing unit connected to the temperature sensing unit for sensing a temperature of the pipe and outputting a temperature sensing signal in a corresponding state, An operation control unit for determining whether the state of the temperature sensing unit is in an abnormal state by using a preset temperature and for determining whether the state of the heating line is in an abnormal state by using a heating line state sensing signal fed back from a heating line to be driven; And a first communication unit connected to the operation control unit and transmitting a determination result stored in the storage unit, wherein the first communication unit is connected to the storage unit,
A second communication unit connected to the second communication unit and receiving a determination result transmitted from the second communication unit to receive the determination result transmitted from the at least one heating line driving device, And an operation state display unit connected to the monitoring control unit and outputting an operation state of the at least one heating line driving device output from the monitoring control unit,
And a heating coil connected to the heating coil. The method of claim 1,
Wherein the operation control unit determines the state of the temperature sensing unit to be in an abnormal state when the determined temperature of the pipe is equal to or higher than the first set temperature or equal to or lower than the first set temperature and the second set temperature and lower. The method of claim 1,
Wherein the operation control unit determines the state of the heating line to be in an abnormal state when the resistance value determined by the heating line state detection signal is equal to or larger than a set resistance value. The method of claim 1,
Wherein the at least one heating line driving device comprises:
A power switch connected to the power source and maintained on or off according to ambient temperature, and
A power supply unit connected to the power switch and the operation control unit and generating a driving voltage required for operation of the heating line control apparatus when the power switch is on,
Further comprising: a heating line status monitoring system further comprising: The method of claim 1,
Wherein the at least one heating line driving apparatus includes a first warning lamp connected to the operation control unit and configured to display an abnormal state of the temperature sensing unit under the control of the operation control unit and a second warning lamp connected to the operation control unit, And a second warning light for indicating an abnormal state of the heating line. The method of claim 1,
Wherein the communication between the at least one heating line driving device and the heating line condition monitoring device is performed through Bluetooth, ZigBee, LAN, or UWB communication.

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