KR101488182B1 - Method for detecting incorrect connecting line of thermistor during early driving of boiler - Google Patents

Abstract

The present invention relates to a method of detecting a thermistor misconnection during an initial operation of a boiler. More particularly, when an initial power is supplied to a boiler, a plurality of thermistor output voltages installed in a boiler are detected, As a result, if it is determined that the thermistor is not connected to any one of the thermistor input ports, the thermistor connection status error is displayed to identify the unconnected thermistors so that the thermistors can be correctly connected. If it is ascertained that various temperature detection thermistors are connected to the thermistor input port, if the heating or hot water burning operation is started, it is checked whether the temperature change value determined in each thermistor is detected in the predetermined order in which the temperature change should occur first, For example, if the temperature change value is not detected in the thermistor for which the temperature change value should be detected first, and the temperature change value determined by the other thermistor is detected first, the combustion is stopped and the corresponding thermistor is turned off And the corresponding thermistor can be correctly connected.
Therefore, it is possible to prevent the danger of the fire including the burning of the heat exchanger which may occur when the boiler heat control is not normally performed due to miswiring of the thermistors, so that the reliability of the product, The safety can be greatly improved.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to a method of detecting thermistor misconnection during initial operation of a boiler,

The present invention relates to a method of detecting a thermistor misconnection in an initial operation of a boiler, and more particularly, to a method of detecting a thermistor misconnection in a boiler by detecting a plurality of thermistor output voltages provided in a boiler when initial power is supplied to the boiler, If it is determined that a thermistor is not connected to any of the thermistor input ports, a thermistor connection status error is displayed. If thermistors for detecting various temperatures are connected to the respective thermistor input ports When the heating or hot water combustion operation is started, it is checked whether the temperature change value determined in each thermistor is detected in the predetermined order in which the temperature change should occur first. If the temperature change value is not detected in the predetermined order (for example, To be If the temperature change value is detected in the other thermistor, the temperature is not detected in the thermistor. If the temperature change value is detected, the combustion is stopped and the corresponding thermistor is displayed in the wrong wiring state so that the thermistor can be correctly connected. And the risk of fire including the burning of the heat exchanger which may occur when the heat quantity of the boiler is not normally controlled can be prevented in advance.

Generally, a boiler is installed to supply heating and hot water. It uses heat generated by burning various fuels to heat water, directly use heated water, or to heat the home or various buildings. Various boilers have been developed and used, depending on the size, as well as being widely developed and used from small boilers used for household use to large boilers used for industrial purposes, as well as oil boilers and gas boilers depending on the fuel used .

The boiler includes a main body, a control unit, a water tank, a heat exchanger, a circulation pump, a circulation pipe, a heating pipe, and the like. The boiler includes heating and hot water outlet side pipes inside or outside the main body, Thermistor for temperature detection are installed, and a thermistor for detecting freezing temperature and the like are provided.

In addition, the input ports of the microcomputer installed in the boiler are provided with thermistor input ports to which the thermistors are connected, as well as electrically connected to the thermistor input ports of the microcomputer in the boiler body, (Or thermistor) for detecting the hot water temperature of the hot water, the hot water temperature of the hot water, the hot water temperature of the hot water, the air supply temperature and the freezing temperature, respectively) And the like.

Therefore, when manufacturing the boiler, each thermistor is accurately fixed to a predetermined position set for the purpose, and the output lines of the thermistors must be connected to the terminal of the predetermined position among the plurality of coupling terminals provided in the terminal block or the terminal box, The temperature detected by the thermistors installed in the predetermined position according to the temperature of the boiler is accurately inputted through the thermistor input ports determined by the microcomputer, and the overheat prevention operation and the freeze prevention operation including the control according to the heating or hot water combustion of the boiler are performed according to the predetermined control program It can be done exactly.

However, in the conventional boiler, since there is no method of detecting miswiring for each thermistor, in the inspection process at the time of manufacture of the boiler, it is necessary to determine whether each thermistor is fixedly installed at a predetermined position, A plurality of terminals provided in the terminal block or the terminal box are correctly connected to the thermistor input ports provided in the microcomputer, Etc. are visually checked and if any one of the terminals provided in the terminal box or the terminal block and the thermistor input ports of the microcomputer are mutually erroneously wired including the case where the specific thermistor is erroneously wired, I had to fix the line between .

However, such a visual inspection method requires much time, and in the case of an expert, it is not easy to find a faulty connection, which often leads to a faulty manufacturing of the boiler itself. In addition, If the boiler is installed in a home or the like even though it is in a state of being unable to correct the heat, the heat exchanger of the boiler may be burned out sometimes because it can not control the heat quantity of the boiler.

1. Korean Patent Publication No. 2000-0055037 (September 05, 2000)

SUMMARY OF THE INVENTION Accordingly, the present invention has been made keeping in mind the above problems occurring in the prior art, and it is an object of the present invention to provide a method of detecting a plurality of thermistor output voltages provided in a boiler when initial power is supplied to a boiler, And if it is determined that the thermistor is not connected to any one of the thermistor input ports, the thermistor connection status error is displayed to check the unconnected thermistors so that the thermistor can be correctly connected. If it is confirmed that various temperature detecting thermistors are connected to the input port, if the heating or hot water burning operation is started, it is checked whether the temperature change value determined in each thermistor is detected in the predetermined order in which the temperature change should occur first. For example, if the temperature change value is not detected in the thermistor for which the temperature change value is to be detected for the first time and the temperature change value determined in the other thermistor is detected first, the combustion is stopped and the thermistor is in an error- It is possible to prevent the risk of fire including the burning of the heat exchanger which may occur when the thermistor control of the boiler is not normally performed due to miswiring of the thermistor by displaying the thermistor correctly. The present invention provides a method of detecting a thermistor misconnection during an initial operation of a boiler, which can greatly improve reliability and safety according to commerciality and combustion control of a boiler.

According to an aspect of the present invention, there is provided a method for controlling a temperature of a boiler, the method comprising: determining whether thermistors for detecting temperature are connected to a plurality of thermistor input ports provided in a microcomputer when an initial power supply voltage is supplied to the boiler; And if it is determined that the thermistor is not connected to any one of the plurality of thermistor input ports as a result of the determination, the display unit displays a "thermistor connection status error ".

If it is determined that thermistors for temperature detection are connected to the plurality of thermistor input ports of the microcomputer, when the heating or hot water combustion operation is started, Sequentially determining whether a predetermined temperature change value is detected at a predetermined time interval in each thermistor in a predetermined order; When the temperature change value of the thermistor is detected in the order in which the temperature change should occur first, if the predetermined temperature change values are detected within a predetermined time in all the thermistors, the normal heating or hot water burning operation is continued do.

However, if the predetermined temperature change value is not detected in the thermistor for which the temperature change is assumed to occur in the initial predetermined time, the combustion is immediately stopped and a miswiring message for the thermistor is displayed on the display unit.

 Also, after the inspector confirms the thermistor miswiring message displayed on the display unit and resolves the miswiring to the corresponding thermistor, the power supply voltage is supplied to the boiler again. If the temperature change value determined in the specific thermistor is not detected during the determination of the order to be performed, the process of immediately stopping the combustion at that point and displaying a miswiring message for the corresponding thermistor in which a new erroneous wiring state is detected is displayed on the display unit And repeats the operation until all the thermistors are judged to be in a state other than the erroneous wiring.

At this time, the thermistors include a thermostat for detecting the temperature of the hot water bath, a thermistor for detecting the hot water bath temperature, and a thermistor for detecting the temperature of the air supply.

The order of the thermistors input in the order in which the temperature change should occur first in the microcomputer is a thermometer for detecting the temperature of hot water for hot water and a thermistor for detecting the temperature of air supply for temperature in the heating mode.

The order of the thermistors input in the order in which the temperature change is to be performed first is a thermometer for detecting the temperature of the hot water bath, a thermistor for detecting the supply air temperature, and a thermistor for detecting the hot water temperature when the thermocouple is in the hot water mode .

As described above, according to the thermistor misconnection detection method in the initial operation of the boiler according to the present invention, when the initial power is supplied to the boiler, a plurality of thermistor output voltages installed in the boiler are respectively detected and a plurality of thermistor inputs If it is determined that a thermistor is not connected to any one of the thermistor input ports, a thermistor connection status error is displayed to identify the unconnected thermistors so that they can be correctly connected. , If it is confirmed that various thermistor for temperature detection are connected to the thermistor input port of the microcomputer, if the heating or hot water burning operation is started, it is checked whether the temperature change value determined in each thermistor is detected in the predetermined order in which the temperature change should occur first Ha W If the temperature change value is not detected in the prescribed order and the temperature change value is not detected in the thermistor for which the temperature change value should be detected for the first time and the temperature change value determined in the other thermistor is detected first, the combustion is stopped and the corresponding thermistor This indicates that the thermistor is misconnected and that the thermistor can be connected correctly. By doing so, it is possible to prevent the risk of fire including the burning of the heat exchanger, And it is a very useful invention that the reliability and safety according to the product performance and the combustion control of the product can be greatly improved.

1 is a schematic block diagram of a boiler to which the method of the present invention is applied;
2 is a flow chart for explaining the method of the present invention.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, preferred embodiments of the present invention and their operation and effect will be described in detail with reference to the accompanying drawings.

FIG. 1 is a schematic block diagram of a boiler to which the method of the present invention is applied, and FIG. 2 is a flow chart for explaining the method of the present invention.

According to the present invention,

When the initial power supply voltage is supplied to the boiler, it is determined whether thermistor TH1 to THn for various temperatures are connected to a plurality of thermistor input ports P1 to Pn provided in the microcomputer 1 , S2);

If it is determined that the thermistors TH1 to THn are not connected to any of the thermistor input ports of the plurality of thermistor input ports P1 to Pn of the microcomputer 1 in the step S2, (S3) indicating that the connection status error is "connection status error ".

If it is determined that the temperature detection thermistors TH1 to THn are connected to the plurality of thermistor input ports P1 to Pn provided in the microcomputer 1,

It is determined whether the heating or hot water combustion operation is started (S4), and when the heating or hot water combustion operation is started,

It is preferable that the predetermined temperature change value? T is detected in time intervals (t1 to tn) determined in the respective thermistors TH1 to THn in the predetermined order inputted in the order in which the temperature change should occur first in the microcomputer 1 (S5-1 to S5-n);

If the temperature change values? T of the thermistors TH1 to THn are detected in the order in which the temperature change should occur first and the temperature change values determined within the predetermined time in all the thermistors TH1 to THn are detected, Or continuing the hot water combustion operation (S8).

However, if the temperature change value determined in the thermistor is not detected within the initial predetermined time in step S5-1, the combustion is stopped immediately (S6) and a miswiring message for the thermistor is displayed on the display part 2 (S7). ≪ / RTI >

 Also, after the inspector confirms the thermistor miswiring message displayed on the display unit 2 and solves the miswiring for the thermistor, the power supply voltage is supplied to the boiler again, and the miswiring of the thermistors starts from the initial stage, If the temperature change value determined in the specific thermistor is not detected during the judgment of the order in which the change should first take place (S5-1 to S5-n), the combustion is immediately stopped at that point (S6) (S7) of displaying a miswiring message for the thermistor on the display unit 2 is repeatedly performed until all the thermistors TH1 to THn are judged to be in a state other than a miswiring state.

At this time, the thermistors TH1 to THn include a thermistor for detecting the temperature of the hot water bath, a thermistor for detecting hot water bath temperature, and a thermistor for detecting the temperature of the air supply.

The order of the thermistors TH1 to THn input in the order in which the temperature change is to occur first in the microcomputer 1,

The heating water temperature detection thermistor, and the air supply temperature detection thermistor in the heating mode,

In the case of the hot water mode, the thermistor for detecting the heating water temperature, the thermistor for detecting the supply air temperature, and the thermistor for detecting the hot water temperature for hot water.

3 is a temperature controller, 4 is an igniter driving unit, 5 is a gas valve driving unit, 6 is a blowing fan driving unit, 7 is a circulating pump driving unit, and 8 is a three-sided driving unit.

The operation and effect of the thermistor misconnection detection method in the initial operation of the boiler according to the present invention will be described as follows.

FIG. 1 is a schematic block diagram of a boiler to which the method of the present invention is applied. FIG. 1 is a schematic block diagram of a boiler according to an embodiment of the present invention. The boiler includes a temperature controller 3 for setting a heating and hot water temperature and a microcomputer 1, A gas valve driving unit 5, a blowing fan driving unit 6, a circulating pump driving unit 7, and a three-way valve (not shown). The thermostats TH1 to THn, A driving unit 8 and the like.

2 is a flow chart for explaining the method of the present invention. When the initial power supply voltage is supplied to the boiler, the microcomputer 1 is connected to a plurality of thermistor input ports P1 to Pn provided therein The thermistors TH1 to THn are connected to the respective thermistor input ports P1 to Pn through a method of receiving the output signals of the various temperature detecting thermistors TH1 to THn and determining whether they are within the predetermined voltage range (S2).

If it is determined that the thermistors TH1 to THn are not connected to any one of the plurality of thermistor input ports P1 to Pn of the microcomputer 1 in step S2, "O"), it is displayed on the display unit 2 that the thermistor connection status error is present (S3), and the inspector checks the installation state and wiring state of the thermistors TH1 to THn, Allowing the boiler to rectify it immediately before performing a heating or hot water burning operation.

However, if the temperature detection thermistors TH1 to THn are correctly connected to the plurality of thermistor input ports P1 to Pn determined by the microcomputer 1 (Yes in S2) The microcomputer 1 continues to determine whether the heating or hot water combustion operation is started (S4).

When the heating or hot water burning operation is started in the burner of the boiler as a result of the determination by the microcomputer 1, the microcomputer 1 controls the thermistors TH1 to TH4 in the predetermined order, (S5-1 to S5-n) judge whether a predetermined temperature change value? T is detected at a predetermined time interval (t1 to tn).

At this time, the thermistors TH1 to THn include a thermostat for detecting the temperature of the hot water bath, a thermistor for detecting hot water bath temperature, and a thermistor for detecting the temperature of the air supply. In addition, The order of the thermistors TH1 to THn inputted in order is determined in accordance with the order in which the heat generated in the heat exchanger is transferred. In the present invention, in the heating mode, the order of the thermometers for detecting the hot water temperature, And in the case of the hot water mode, the heating water temperature detection thermistor, the air supply temperature detection thermistor, and the hot water tank temperature detection thermistor are set in order.

As a result of detecting the temperature change value? T of the thermistors TH1 to THn in the order in which the temperature change should occur first in the microcomputer 1 as described above, the temperature change value? T determined in the all thermistors TH1 to THn All the thermistors TH1 to THn are recognized as being correctly wired in the predetermined order to the plurality of thermistor input ports P1 to Pn provided in the microcomputer 1 and the normal heating or hot water burning operation is continued S8).

However, if it is determined in step S5-1 that a temperature change within the initial predetermined time of the plurality of thermistor input ports P1 to Pn is a thermistor for which the temperature change is to be assumed first (for example, the temperature of the hot water tap connected to the thermistor input port P1 If the temperature change value? T determined within the predetermined time t1 is not detected in step S6, the combustion is immediately stopped (S6) and a miswiring message for the thermistor is displayed on the display unit 2 (S7) do.

Of course, other thermistor input ports (P2 to P3) other than the thermistor (for example, the thermometer for detecting the hot water temperature connected to the thermistor input port P1) to which the temperature change should be assumed first after the start of heating or hot water operation, The microcomputer 1 immediately stops the burning operation (S6) and the temperature change value? T within the predetermined time t1 is detected in the other thermistors TH2 to THn connected to the thermistors Pn And displays a mis-wiring message on the display unit 2 (S7).

Therefore, when the thermistor error message displayed on the display unit 2 is viewed, it is immediately recognized which of the thermistor input ports P1 to Pn of the microcomputer 1 the thermistor connected to the thermistor input port is in the miswired state, It is possible to check the miswiring state of the surrounding thermistors and to make an accurate connection.

In this way, the inspector confirms the thermistor misconnection message displayed on the display unit 2 and resolves the misconnection to the corresponding thermistor. Then, the power supply voltage is supplied to the boiler again and is restarted from the initial stage, (S5-1 to S5-n) in which the change should occur first.

If the temperature change value determined in another specific thermistor, which is determined by the thermistor solving the imo wiring problem, is not detected during the repetitive determination (S5-1 to S5-n), the combustion is immediately stopped at that point (S6) The process (S7) of displaying the miswiring message for the corresponding thermistor in which the miswiring state is detected is displayed on the display unit 2 repeatedly until all of the thermistors TH1 to THn are judged to be in the normal wiring state do.

Therefore, it is possible to prevent the danger of fire including the burning of the heat exchanger, which may occur due to poor control of the heat quantity of the boiler due to miswiring of the thermistors, so that the reliability and safety of the product can be improved .

Although the preferred embodiments of the present invention have been described for illustrative purposes, those skilled in the art will appreciate that various modifications, additions and substitutions are possible, without departing from the scope and spirit of the invention as disclosed in the accompanying claims. Which will be apparent to those skilled in the art.

1: Microcomputer
2:
3: Thermostat
4:
5: Gas valve driving part
6: blower fan driving section
7: Circulating pump drive
8: Three-
P1 ~ Pn: Thermistor input port
TH1 to THn: thermistor

Claims (7)

When the initial power supply voltage is supplied to the boiler, the microcomputer judges whether or not various temperature detection thermistors are connected to the plurality of thermistor input ports provided in the microcomputer;
If it is determined that the thermistor is not connected to any one of the plurality of thermistor input ports as a result of the determination, the display unit displays a "thermistor connection status error &
If it is determined that the various temperature detection thermistors are connected to the plurality of thermistor input ports of the microcomputer,
Sequentially determining whether a predetermined temperature change value is detected at a predetermined time interval in each thermistor in a predetermined order inputted in the order in which the temperature change should occur first in the microcomputer when the heating or hot water combustion operation is started;
When the temperature change value of the thermistor is detected in the order in which the temperature change should occur first, if the predetermined temperature change values are detected within a predetermined time in all the thermistors, the normal heating or hot water burning operation is continued Detection of thermistor misconnection during initial operation of boiler.
delete The method according to claim 1,
If the temperature change value determined in the thermistor is not detected, the burning is stopped immediately and a mis-wiring message for the thermistor is displayed on the display unit. In the initial operation of the boiler, Wire connection detection method.
The method of claim 3,
The inspector confirms the thermistor misconnection message displayed on the display unit and resolves the misconnection to the thermistor. Then, the power supply voltage is supplied to the boiler again, and the miswiring of the thermistors starts from the initial stage, If the temperature change value determined in the specific thermistor is not detected during the continuous judgment, the process of immediately stopping the combustion at that point and displaying a miswiring message for the corresponding thermistor in which a new erroneous wiring state is detected is displayed on the display unit. And then repeats the operation until it is judged that the state is not a faulty connection.
The method of claim 4,
Wherein the thermistors include a heating water temperature detection thermistor, a hot water tapping temperature detection thermistor, and an air supply temperature detection thermistor.
The method of claim 5,
The order of the thermistors inputted in the order in which the temperature change occurs first in the microcomputer,
And a thermistor for detecting the temperature of the hot water bath in the heating mode and a thermistor for detecting the temperature of the air supply in the heating mode.
The method of claim 5,
The order of the thermistors inputted in the order in which the temperature change occurs first in the microcomputer,
And a thermistor for detecting a hot water tank temperature, a thermistor for detecting an air supply temperature, and a thermistor for detecting a hot water tank temperature when the hot water is in a hot water mode.

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