KR930009752B1 - Fan motor control system for fan heater - Google Patents

Abstract

The method senses an indoor temperature, determines the heat quantity by calculating the difference between the temperature read and the one set, findes the thermal variation according the height of the indoor, and determines the generation of heat. The system is composed of a fan motor, an indoor temperature sensor. The fan motor control device determines the speed of revolution, circulates the indoor air by convection. The control device finds the comparison variation sensed from the 2 indoor sensors, controlling the speed of the revolution of the fan motor after determining the heat generation.

Description

Fan motor control device and method

1 is a circuit diagram showing only the main part of the present invention.

2 is a flowchart showing the principle of the operation procedure of the present invention.

3a, b are lock-up tables of fan motors, which are symbolic comparison tables of fan motor control maps that can be set in accordance with the principles of the present invention.

The present invention relates to a fan motor control apparatus and a method applied to a forced convection heating device, such as a fan heater, and more particularly, a fan motor for forced convection of indoor air by blowing the heat generated by combustion in the combustor to the room The present invention relates to a fan motor control apparatus and a method for controlling a rotation speed of a fan motor by determining a heating stage according to a temperature difference in a room space in which a rotation speed is sensed.

Forced convection heating devices, such as conventional fan heaters, have one room temperature sensing means and calculate the amount of heat generated by calculating the difference between the temperature sensed by the sensing means and the set temperature difference. Since the fan motor is driven at the rotational speed corresponding to the heat generation, that is, if convection is insufficient in the indoor heating space, a difference in temperature between the upper and lower surfaces occurs in the indoor space, There is a big difference between the detected room temperature and the heating device has a problem that can not talk about the comfort and heating effect.

An object of the present invention is to compensate for the rotational speed of the fan motor to be rotated in accordance with the heating amount by controlling the rotational speed by compensating for the detected temperature difference existing in the indoor space caused by insufficient convection in the indoor heating space so that the optimum convection is achieved. The present invention provides a fan motor control system capable of single stage control.

Therefore, the present invention is used as a room temperature sensor installed at a predetermined position, for example, a temperature sensing dummyster at a rear surface of a heating apparatus such as a fan heater at a position of 5 cm from a bottom and a position of 40 cm from a bottom, but the difference in sensing temperature between the two sensing dummysters is different. When the temperature difference occurs in the vertical direction, it is determined that no tropical flow is made and the rotation speed of the fan motor is changed, but the room temperature sensing circuit uses two resistors connected in series with the first room temperature sensing dummyster. And a midpoint of this resistor is connected to supply a room temperature sensing signal of the first room temperature dummyster to the microprocessor, and a second temperature sensing dummyster is connected in series with the two resistors and these midpoints of the resistance are connected to the room temperature sensing signal. Connect to supply the processor.

In addition, the fan motor control is a heating device capable of multi-stage heating, and when the power is turned on and the display is operated according to the user's key input and it is determined that the operation is turned on, the fan is driven and the heater reaches the predetermined temperature (X). After that, when the heater reaches the predetermined temperature, the igniter is ignited and the electronic pump is operated to induce the operation of the fan motor, and then it detects the room temperature and the set temperature, and generates heat according to the difference between the room temperature and the set temperature. Steps are determined, and thus electronic pump control and burner motor control are performed. At this time, according to the principles of the present invention, the first room temperature sensing dummyster and the second room temperature sensing dummyster according to the signal from the room temperature sensing circuit are performed. Detects whether the deviation of the detected temperature is zero degrees in the room temperature difference, 2 degrees in the room temperature difference, or 3 degrees or more in the room temperature difference. By inducing control to control the blowing intensity until the deviation becomes zero, smooth tropical flow in the room is made to maximize the comfort and heating effect.

The present invention will be described in detail with reference to the accompanying drawings as follows. The multi-stage controllable heating apparatus generally refers to a product using a microprocessor, and a detailed description thereof is outside the scope of the present invention, and the description thereof will be omitted, but it will be clearly understood by those skilled in the art. There will be.

In other words, such a heater is usually provided with a microprocessor, which receives a signal from the key operation unit, controls the display unit according to the signal, and has a flame detection unit and one room temperature detection unit connected to the electronics. Control the pump control unit, burner motor control unit and fan motor control unit.

In such a heating apparatus such as a fan heater, the room temperature sensing circuit of the present invention uses a microprocessor IC ₁ as shown in FIG. ₁ to provide two temperature sensing dummysters, that is, a first room temperature sensing dummyster RTH ₁ . And a second room temperature sensing dummyster RTH ₂ .

The first room temperature sensing dummyster RTH ₁ has resistors R ₁ and R ₂ connected in series and the midpoints of the resistors R ₁ and R ₂ are input to the microprocessor IC ₁ . It is connected to the terminal AN ₁ .

The second room temperature-sensing dummyster RTH ₂ has resistors R ₃ and R ₄ connected in series, and an intermediate point between the resistors R ₃ and R ₄ is connected to the microprocessor IC ₁ . It is connected to the input terminal (AN ₁ ).

In addition, the room temperature sensing dummy (RTH ₁ ) and (RTH ₂ ) to detect the room temperature separately, so it is not shown in the drawings to detect whether the tropical flow in the room is smooth, for example, It is installed 5cm from the bottom and 40cm from the bottom.

Therefore, the fan motor control of the present invention is performed in the procedure as shown in FIG.

After the power is applied to the heating apparatus (step 100), the display unit performs a function display according to the key input (step 101) (step 102). After that, the microprocessor IC ₁ determines whether the microprocessor IC ₁ is on with the current operation switch. Step 103), if the operation switch is turned on, the flow advances to step 104 to control the operation of the heater driver.

Then, the heater composition is controlled to determine whether the heater temperature is above a predetermined temperature, for example, X degrees (step 105), and if it is above X degrees, the process moves to step 106 to ignite the igniter, and in step 107 Operate the electronic pump and in step 108 to detect the room temperature and the set temperature, and in step 109 determines the heating step according to the difference between the room temperature and the set temperature, in step 110 to control the operation of the electric pump, step In 111, the operation of the burner motor is controlled.

Then, as the heating device such as a fan heater is operated, the first and second room temperature dummysters operate to receive a room temperature detection signal at each position.

Therefore, the microprocessor IC ₁ calculates each temperature deviation and detects the temperature distribution of the indoor space.

In other words, if the temperature difference between the two thermistors does not occur, it is determined that the tropical flow is suitably made, and the convection fan motor is controlled to be suitable for the heating step.

On the contrary, when the temperature difference occurs, the space is judged that the tropical current is not made properly, and the convection fan motor is operated at a speed faster than the rotational speed corresponding to the heat generation value so that the smooth convection is achieved.

In addition, it is judged that the temperature variation of the ducil-temperature dummyster is higher and that the tropical current is not properly made at a higher temperature than when the room temperature is low, so that the rotational speed of the convection fan motor is further increased to allow smooth tropical flow. In even distribution, the comfort sensing heating effect is maximized.

To this end, the temperature difference between the two chambers of the Doosan temperature dummy is so great that the speed of rotation of the convection fan is increased. Control to ensure proper tropical flow.

Therefore, in the present invention, it is determined in step 112 whether there is a temperature difference between the second room temperature dummyster of the first room temperature dummyster, and in step 113, it is determined whether the temperature difference between the two room temperature dummysters is 1 degree or less, and the step ( In 114), it is determined whether the temperature difference is less than 2 °, otherwise it is determined that a difference of 3 degrees or more occurs.

Accordingly, as shown by the control map of the fan motor as shown in FIG. 3, the room temperature is lower than 12 ° C and higher than 30 ° C with 27 steps divided by the difference in the total heating value of the heating apparatus. Moving to the fan motor control step with respect to the temperature distribution, the control of the fan motor is controlled according to the deviation of the two room temperature sensing dummysters of 1 ° C, 2 ° C, and 3 ° C or higher, for example, 0, +1, +2. , +3, +4, etc., to increase the fan motor's speed in a step superior to the heating step.

That is, the heat generation step X is divided into 27 stages of 00-26 and stored in the microprocessor internal RAM according to the amount of heat, and the deviation Y of the room temperature sensing dummyster is divided into five stages of 0-4.

Therefore, as shown in the fan motor lock-up table, fan motor speed control matrices such as DATA0 to DATA29 from address 1F00 to 1FID are stored in the internal ROM as shown in the fan motor lock-up table.

For example, in 1F04, fan motor rotational data in the strongest heating step 00 is stored, and in 1F1F, fan motor rotational speed data in the weakest heating step 26 is stored.

Therefore, as described above, when the room temperature sensing temperature deviation Y of the room temperature sensing dummyster is 0, data of 1F (X + 4) is read. In the heating step 00, data 4 is read. When the deviation Y is 2, the data of IF (X + 4-Y) address is read.

That is, when the heating step is 00, data 1 is read, and the fan motor is controlled in a direction of increasing the rotational speed of the fan motor with respect to the detected temperature deviation of the room temperature sensing dummyster, so that the tropical air flows in the room.

For example, if the current temperature is 23 ℃ and the room temperature detection deviation is 2 ℃, it means increasing the stage of +2. If the current heating stage of 23 ℃ is 10 stages, the fan motor control is regarded as having 8 stages of heat generation. To increase the speed.

Therefore, referring to FIG. 2 again, when the room temperature sensing deviation is greater than or equal to 3 degrees in step 114, the fan motor is controlled by considering the increased heating step of the heating step + α3 (see FIG. 3), and step 114 If the room temperature deviation is 2 ℃, the fan motor is controlled as an increased heating step of the heating step + α2 (see FIG. 3), and if the room temperature deviation is 1 ℃ in step 113, the heating step + α1 (see FIG. 3). The fan motor is controlled by an increased heating step of), and if there is no room temperature deviation, the fan motor is controlled by considering the same heating step as the current heating step.

Where α1, α2 and α3 mean steps 0, +1, +2, +3, +4. In the next step 119, it is determined whether the heating device is safely operated, and if there is no abnormal state, the combustion operation continues. If not, the process moves to the step 120 and is reset.

As described above, the present invention controls the fan motor according to their room temperature sensing deviation by one or more room temperature sensing sensors so that the tropical air flows smoothly in the room to induce an optimal heating effect.

Claims (2)

A heating apparatus having an indoor temperature sensing means and calculating the amount of heat generated by calculating a difference between the temperature sensed by the indoor temperature sensing means and a set temperature, and determining the rotational speed of the fan motor according to the amount of heat generated. In the fan motor control apparatus of the present invention, the temperature difference of the indoor convection air is detected at a predetermined position having a different height from the bottom surface on the rear surface of the heating apparatus, and the temperature difference is determined so as to determine a predetermined heating step by the temperature deviation. A fan motor control device comprising a room temperature sensing means. In the fan motor control method in a heating device to calculate the difference between the temperature detected by the room temperature sensing means and the set temperature to control the rotational speed of the fan motor in accordance with the amount of heat generated in the heating device, the normal operation of the heating device In order to achieve this, a room temperature comparison judgment step of obtaining a comparative deviation of the detected temperatures from the two room temperature sensing means for detecting the indoor convection temperature, and the corresponding heating step is determined according to the room temperature temperature deviation obtained in the room temperature comparison determination step. Fan motor control method comprising a fan motor control step of controlling the rotational speed of the motor.

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