KR20230079805A - Method for Automatic Temperature Correcting of Temperature Controller - Google Patents

Abstract

The present invention relates to a method for automatically correcting a thermistor temperature of a temperature controller. By adding multiple compensation thermistors to a heating part of an internal PCB or a heating component of the temperature controller, a corrected temperature value changed due to heat generation inside the PCB due to a current consumption of the temperature controller is corrected to an indoor temperature thermistor measurement value so that the indoor temperature can be accurately calculated and displayed. The method for automatically correcting a thermistor temperature of a temperature controller includes: a first process of collecting the indoor temperature measured through the indoor temperature thermistor of the temperature controller; a second process of collecting an internal temperature through at least one correction thermistor provided inside the temperature controller; a third process of calculating the change value of the internal temperature collected by the correction thermistor; and a fourth process of calculating the corrected temperature value for the internal temperature change value and applying the corrected temperature value to the indoor temperature to calculate the corrected indoor temperature.

Description

Method for automatically correcting the thermistor temperature of a temperature controller {Method for Automatic Temperature Correcting of Temperature Controller}

The present invention relates to a temperature controller of a boiler, and more particularly, by adding a plurality of correction thermistors to the heating part of the internal PCB of the temperature controller to correct the increased room temperature thermistor measurement value due to heat generated inside the PCB according to the current consumption of the temperature controller. The present invention relates to a method for automatically correcting the temperature of a thermistor of a thermostat to accurately calculate and display indoor temperature.

A typical household boiler is composed of a boiler body and a temperature controller for driving and controlling the boiler body.

The temperature controller is provided with selection buttons such as heating or hot water mode setting and heating/hot water temperature setting, and a display window displaying user selection, set temperature, external temperature, boiler body operation status, and failure/error status on the outside. Inside, a room temperature thermistor for measuring room temperature, a display module, a control module, and a communication module are provided on the PCB.

Recently, as many functions such as WIFI and TFT LCD have been added to the temperature controller, the current consumption of the temperature controller is rapidly increasing. There was a problem that the temperature was measured higher than the room temperature.

For more accurate measurement of the room temperature thermistor, the room temperature thermistor is located at the outermost part of the PCB, and a flow path for introducing outside air is formed in the thermostat case.

However, there is a problem in that an element generating heat inside the PCB of the temperature controller affects the room temperature thermistor according to the current consumption of the temperature controller, causing a difference from the actual room temperature.

In order to improve this problem, conventionally, a fixed room temperature thermistor correction value is used to reduce errors and calculate more accurate measurement values.

As shown in FIG. 1 , when the power of the temperature controller is turned on, the room temperature thermistor starts measuring the temperature.

The room temperature measured by the room temperature thermistor calculates a corrected room temperature using a preset fixed correction value.

The corrected indoor temperature is displayed through a display unit provided outside the thermostat, allowing the user to check the current indoor temperature.

However, since such a conventional room temperature correction method uses a fixed correction value, a heat-generating temperature difference occurs depending on whether a heat-generating component or PCB is operated.

For example, when the built-in WIFI module operates, heat is generated due to current consumption, but when it is not operated due to standby mode, there is no current consumption, so heat does not occur in the corresponding part.

That is, since the degree of heat generation varies depending on whether a specific built-in function is used, the accuracy of the indoor temperature is inevitably reduced when corrected with a fixed correction value. In particular, when heating is performed in the ondol mode, a difference occurs between the room temperature, which is the combustion reference temperature of the boiler, and the actual room temperature, resulting in inaccurate combustion, resulting in a decrease in heating efficiency.

Domestic Patent Publication No. 10-2019-0101745 (published date 2019.09.02.)

Therefore, in order to improve the problems of the prior art, the present invention adds a plurality of correction thermistors to the heating part of the internal PCB or the heating part of the temperature controller to correct the temperature value changed due to heat generation inside the PCB according to the current consumption of the temperature controller. An object of the present invention is to provide a method for automatically correcting the thermistor temperature of a thermostat that accurately calculates and displays the indoor temperature by correcting the measured value of the room temperature thermistor.

In order to achieve the object of the present invention, the process of automatically correcting the thermistor temperature of a temperature controller is a method of automatically correcting the temperature of the thermistor of a temperature controller that corrects the room temperature measured by the built-in room temperature thermistor to the temperature due to internal heat generation. , a first process of collecting the room temperature measured through the room temperature thermistor of the temperature controller; a second process of collecting an internal temperature through at least one correction thermistor provided inside the temperature controller; a third process of calculating a change value of the internal temperature collected by the correction thermistor; and a fourth process of calculating a correction coefficient according to time for the internal temperature change value and calculating a corrected room temperature by applying the correction coefficient to the room temperature.

Here, in addition to the first step, the method may further include correcting the collected room temperature by a preset basic correction value.

In the third process, when the change value of the internal temperature collected by the correction thermistor is calculated as a correction value for the increased temperature, the correction coefficient calculated in the fourth process is applied to the room temperature to calculate the corrected room temperature. When the internal temperature change value collected by the correction thermistor is calculated as the falling temperature correction value, the rising temperature correction value is deleted from the corrected room temperature.

The method for automatically correcting the temperature of the thermistor of a temperature controller according to an embodiment of the present invention corrects the temperature change values of a plurality of correction thermistors added to the heating part of the internal PCB of the temperature controller to the measured value of the room temperature thermistor, thereby calculating more accurate room temperature. There are effects that can be done.

1 is a flowchart of a temperature correction process of a temperature controller according to the prior art,
2 is a schematic block diagram of a device for automatically correcting the thermistor temperature of a temperature controller for implementing the present invention;
3 is a schematic PCB component configuration diagram for displaying the positions of the heating component and the correction thermistor in FIG. 2;
4 is a flowchart of a process of automatically correcting the thermistor temperature of a temperature controller according to an embodiment of the present invention.

The features and effects of the present invention described above will become more apparent through the following detailed description in relation to the accompanying drawings, and accordingly, those skilled in the art to which the present invention belongs can easily implement the technical idea of the present invention. You will be able to.

Since the present invention can have various changes and various forms, specific embodiments are exemplified and described in detail in the text.

However, this is not intended to limit the present invention to the specific disclosed form, and it should be understood to include all modifications, equivalents, and substitutes included in the spirit and scope of the present invention.

Terms used in this application are only used to describe specific embodiments, and are not intended to limit the present invention.

A method for automatically correcting the thermistor temperature of a temperature controller according to a preferred embodiment of the present invention will be described in detail with reference to the accompanying drawings.

2 and 3 are schematic configuration diagrams of an automatic compensating device for the thermistor temperature of a thermostat to implement the present invention, a PCB 100 for mounting each part inside the thermostat and measuring the room temperature inside. a room temperature thermistor 101 that measures the temperature generated from the internal PCB 100 of the temperature controller or the heating component 102 that generates heat by consuming current; and the room temperature thermistor ( 101) and the correction thermistor 103, a control unit 110 that calculates a changed correction coefficient from each temperature collected, and calculates a corrected room temperature applied to the collected room temperature, and a corrected room temperature calculated through the controller 110 It is composed of a display unit 120 that displays the temperature.

A method for automatically correcting the thermistor temperature of a temperature controller according to an embodiment of the present invention configured as described above will be described in detail with reference to FIGS. 2 to 4 attached thereto.

First, the correction thermistor 103 is mounted close to the heating component 120 mounted on the temperature controller PCB 100, and the PCB is placed close to the passage formed in the thermostat case to allow the room temperature to flow into the room temperature thermistor 101. The control unit 110, which is mounted on the outside and collects the measured temperature of the correction thermistor 103, analyzes it and corrects the measurement error of the room temperature measured by the room temperature thermistor 101.

Referring to FIG. 4 , when power to the temperature controller is turned on, the controller 110 collects the measured temperature from the room temperature thermistor 101 and the correction thermistor 103 . (S11) (S13)

The controller 110 calculates a primarily corrected room temperature based on a fixed basic correction value from the room temperature collected through the room temperature thermistor 101 and displays it on the display unit 120 . (S15) (S17)

The basic correction value is a correction value according to the minimum operation of the temperature controller and the position of the indoor temperature thermistor in the appliance, and is a fixed value regardless of the increase/decrease of the internal temperature due to the use of each function of the temperature controller.

If the correction temperature (TH) collected from the correction thermistor 103 is changed (+, -) from the reference temperature, a correction coefficient for this is calculated and additionally corrected to the room temperature first corrected by the basic correction value. do (S21~S29)

That is, when the measured temperature of the correction thermistor 103 rapidly rises (+), it is determined that the current consumption of the temperature controller has changed, and a corrected temperature value is calculated according to the temperature change of the correction thermistor 103, which is described above. Applied to the temperature value of the room temperature thermistor to display the corrected room temperature (S21~S25)

Then, when the measured temperature of the correction thermistor 103 drops (-) rapidly, it is determined that the current consumption of the temperature controller has changed, and a corrected temperature value is calculated according to the temperature change of the correction thermistor 103, which is described above. Applies to the temperature value of the room temperature thermistor to display the corrected room temperature. (S27~S29)

That is, when the heating component 102 stops operating, the measured value of the correction thermistor 103 falls (-) again. will delete

A method for calculating the automatically corrected indoor temperature (A′) using Equation 1 will be described in detail.

[Equation 1]

Here, A is the room temperature (A-Z) displayed on the thermostat, X is the room temperature measured by the room temperature thermistor, and X' is the room temperature thermistor ( 101), Z is a basic correction value, Y and Yt are the correction temperatures of the correction thermistor 103, Y is the measured temperature before the temperature change of the correction thermistor 103, and Yt is the heating component 102 ) is the measured temperature of the correction thermistor 103 measured after the temperature change due to the operation of D is a correction coefficient.

For example, assuming A = 21 ° C, Z = 2 ° C, X = 23 ° C, X' = 24 ° C, Y = 23 ° C, Yt = 25 ° C, D = 0.47, automatic correction as shown in Equation 2 below The final room temperature (A) is calculated.

[Equation 2]

, and since the control unit 110 displays the final 21°C through the display unit 120, it automatically corrects the room temperature for heat generation of the PCB or heating component due to the increase in current consumption of the thermostat, thereby increasing the temperature of the room temperature thermistor. minimize errors

On the other hand, if the method of calculating the correction coefficient (D) is described in detail by way of example, the temperature of the heating component 102 is 40 ° C, the measured temperature of the correction thermistor 103 is 38 ° C, and the room temperature thermistor ( 101), if the measured room temperature is 20°C, the actual room temperature is calculated as 19°C to which the room temperature basic correction -1°C is applied and displayed on the display unit 120. At this time, the measured temperature of the corrected thermistor 103 When is increased to 41 ° C, the measured temperature of the room temperature thermistor 101 rises to 21 ° C, and when a basic correction of 1 ° C is applied, 20 ° C is calculated as the actual room temperature and the display unit 120 , but the actual room temperature is 19℃, which causes an error. As such, the correction coefficient (D) through the correlation is a fixed value calculated and determined through experiments.

As described above, although the method for automatically correcting the temperature of the thermistor of a temperature controller according to an embodiment of the present invention has been described with limited embodiments and drawings, it is not limited by these embodiments, and conventional knowledge in the art to which the present invention belongs Various modifications and variations are possible, of course, within the technical spirit of the present invention and the equivalent scope of the claims to be described below by those who have it.

100: temperature controller PCB 101: room temperature thermistor
102: heating component 103: correction thermistor
110: control unit 120: display unit

Claims (7)

A method for automatically correcting the temperature of a thermistor of a temperature controller in which a correction temperature due to internal heat generation is applied to a room temperature measured by a room temperature thermistor built into the temperature controller, the method comprising the steps of:
a first process of collecting the room temperature measured through the room temperature thermistor of the temperature controller;
a second process of collecting an internal temperature through at least one correction thermistor provided inside the temperature controller;
a third process of calculating a change value of the internal temperature collected by the correction thermistor;
and a fourth process of calculating a corrected temperature value for the internal temperature change value and calculating a corrected room temperature by applying the corrected temperature value to the room temperature. According to claim 1,
The correction thermistor measures the temperature of a heating component or PCB in which heat is expected due to current consumption. According to claim 1,
The method of automatically correcting the thermistor temperature of a thermostat according to claim 1, further comprising: correcting the room temperature collected in addition to the first step by a preset basic correction value. According to claim 1,
In the third process, when the change value of the internal temperature collected by the correction thermistor is calculated as a correction value for the increased temperature, the correction coefficient calculated in the fourth process is applied to the room temperature to calculate the corrected room temperature. A method for automatically correcting the temperature of the thermistor of a temperature controller. According to claim 4,
The method of automatically correcting the thermistor temperature of a thermostat, characterized in that, when the change value of the internal temperature collected by the correction thermistor is calculated as the falling temperature correction value, the rising temperature correction value is deleted from the corrected room temperature. According to claim 5
The method of automatically correcting the thermistor temperature of a thermostat, characterized in that the second to fourth processes are repeatedly performed in real time and the calculated corrected room temperature is displayed through the display unit. According to claim 1,
In the fourth process, the corrected room temperature (A') is calculated by the following equation,

Here, X' is the room temperature of the thermistor, which is the room temperature affected by the temperature change of the calibration thermistor, Z is the basic correction value, Y is the measured temperature before the temperature change of the calibration thermistor, and Yt is the temperature of the heating element. A method for automatically correcting the thermistor temperature of a temperature controller, characterized in that the measured temperature of the correction thermistor changed due to heat generation, and D is a correction coefficient.

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