KR970010324B1 - Hot-air control device of a fan heater - Google Patents

Abstract

The hot air control device of a fan heater is provided with a low-temperature hot air control switch, to thereby emit hot air in a low temperature in accordance with the selection of the control switch. The hot air control device of the fan heater comprises: a key input part(30) where the low-temperature hot air control switch(32) is contained, thus to key-input a fan heater operation according to a low-temperature hot air to a microcomputer(1); the microcomputer(1) for driving a blowing motor(73) by the key input of the control switch(32) in such a manner that the rotation number(rpm) of the blowing motor is increased to a predetermined level, which generates output values being proportional to output stages of an electromagnetic pump(94); and a blowing motor driver(70) for driving the blowing motor(73) in accordance with the output of the microcomputer(1).

Description

Hot air controller of fan heater

1 is a control block diagram according to the present invention.

2 is a detailed circuit diagram of a main block according to the present invention.

3 is a voltage applied waveform diagram of a blower motor for explaining the present invention.

4 is a view showing the relationship between the RPM of the blower motor and the electronic pump drive according to the present invention.

* Explanation of symbols for main parts of the drawings

1: microcomputer 30: key input unit

32: low temperature wind control switch 70: blowing fan drive unit

83: blower motor 90: electronic pump drive unit

94: electronic pump

The present invention relates to a warm air control device for a fan heater, and more particularly, to a warm air device for a fan heater provided with a separate low temperature wind control switch to dissipate heat at a low temperature according to the selection of the switch.

The conventional fan heater featuring microcomputer control compares the temperature of the room where the fan heater is located with the temperature set by the user and automatically adjusts the combustion state from `` weak '' to `` strong '' combustion according to the difference. Perform the operation. The expression `` weak '' or `` strong '' expresses the intensity of the heat emitted from the fan heater, and `` weak '' combustion minimizes the rotational speed (RPM) of the blower motor that emits heat to the outside and burns the fuel. By minimizing the output of the electric pump to be transferred to the fan heater, the intensity of heat radiated to the outside of the fan heater is minimized. In the case of `` strong '' combustion, the fan of the blower motor is maximized and the output of the electromagnetic pump is maximized. This combustion operation maximizes the intensity of the heat emitted to the outside of the heater. In addition, a linear control step (for example, medium combustion) may be provided between the "weak" combustion and the "strong" combustion. Therefore, when the difference between the temperature set by the user and the room temperature is not large, it is a general control to proceed with "weak" combustion operation and when the difference between the temperature set by the user and the room temperature is greater than a certain temperature, the process proceeds to "strong" combustion operation. Way.

However, this method of hot air control controls the blowing fan to weak wind when `` weak '' burns, and the blowing fan to strong wind when `` weak '' burns. When it touched the human body, it caused difficulty in breathing and discomfort, and when the `` weak '' burned, there was a problem that the air volume of the blowing fan was weakened so that the warm air could not emanate far away. In the strong winds, the temperature of the warm air is uniform, causing problems that have been a hindrance to various control of the warm air.

The present invention has been devised to solve the above problems, and when the RPM of the blower fan increases with a certain amount of heat, immediately focuses on the phenomenon that the temperature of the warm air is lowered if the amount of air is increased, the ambient temperature or the user where the fan heater is installed It is an object of the present invention to provide a warm air control device of the fan heater to operate the fan heater even in low temperature wind according to the haptic temperature (desired).

In order to achieve the above object, the present invention includes a key input unit for inputting a fan heater operation according to low temperature wind to a microcomputer by providing a low temperature wind control switch, and a blower motor by key input of the low temperature wind control switch of the key input unit. RPM is increased to a certain level than in the normal mode, but the microcomputer to perform a predetermined output to be proportional to the output stage of the electronic pump, and a blower motor driving unit for driving the blower motor by the controlled output of the microcomputer Has characteristics.

Hereinafter, the present invention will be described in detail with reference to the accompanying drawings.

FIG. 1 is a control block diagram according to the present invention, and FIG. 2 is a detailed circuit diagram of the main part of FIG. 1, wherein the microcomputer 1 which is the central signal processing source of the fan heater control to which the present invention is applied, and the microcomputer (1) and a power supply unit 10 for supplying proper power to the peripheral circuit portion thereof, a reset unit 20 for resetting the microcomputer 1, a combustion / fire extinguishing switch, a temperature setting switch, a low temperature wind control switch A key input unit 30 for performing a specific key input thereto according to the microcomputer 1, a vaporizer temperature sensing unit 40 for sensing a temperature of the vaporizer using a temperature sensing element installed in the vaporizer, and the like; The heater driver 50 for driving the heater embedded in the carburetor to increase the temperature of the carburetor, the igniter driver 60 for driving the igniter installed at the upper part of the burner to perform ignition work, and installed at the rear of the burner foot Blowing fan drive unit 70 for driving the blowing fan to blow the hot air to the outside of the fan heater, solenoid drive unit 80 for controlling the transfer of fuel to the burner by intermittent opening and closing of the solenoid valve, electronic pump ( 94 is composed of an electronic pump driving unit 90 for driving fuel to the carburetor, and a salt current sensing unit 100 for detecting a ignition and abnormal combustion state by detecting a flame through a flame rod installed on the burner. .

In addition, the key input unit 30 is a combustion / fire extinguishing switch, the temperature setting switch is omitted in the drawings, only the low temperature wind control switch 32 is shown, when the low temperature wind control switch 32 is turned on the microcomputer (1) The low level signal is input to the input port I of the microcomputer 1 to perform low temperature wind control with the input signal at this time.

In addition, in order to drive the electronic pump 94 of the electronic pump driver 90, the microcomputer 1 outputs a low signal to the output port P1, and the output low signal is relayed through the buffer 91. The switch contact is turned on, and a predetermined voltage (V3: V4) is applied to the electromagnetic pump 94, and at the same time, a pulse of a predetermined frequency is output to the output port P2 of the microcomputer 1, thereby providing a photocoupler 95 ) Is intermittently turned on to apply a predetermined voltage to the electron pump 94, thereby causing the electron pump 94 to pump. According to the frequency of the pulse output to the output port P2 of the microcomputer 1, the output of the electronic pump 94 is variable, which is to control the heat amount of the fan heater.

Further, in order to drive the blowing motor 73 of the blowing fan driver 70, the microcomputer 1 outputs a predetermined pulse signal to the output port P3 to energize the contactless relay 82 through the resistor 71. The power source AC is applied to the blower motor 73 to drive the blower motor 73, and the power source AC is applied to the blower motor 73 according to the ON time of the contactless relay 72. The effective value of is varied so that the RPM of the blower motor 73 is variable.

In the present invention, as an example, a motor having a rated RPM maximum value of 1500 of the blower motor 72 is used, and in normal mode control, the RPM of the blower motor 72 operates between 1000 and 1300 as shown in the Y curve of FIG. In the low temperature wind mode, the RPM of the blower motor 72 is controlled to operate between 1200 and 1500 as shown in the X-curve of FIG. 4 to correspond to the output (calories, 1 to 5 stages) of the electronic pump 94. Drive the blower motor 72.

For reference, in a constant heat quantity, for example, when the heat quantity of the electronic pump 94 in the normal mode is 1 stage (1800 Kcal / h) and the RPM of the blower motor 72 is 1000, the low-temperature wind mode is selected to blow air motor When the RPM of 72 reaches 1200, the temperature of the warm air drops about 7 ° C.

3-1 shows power waveforms applied to the blower motor 72 when the blower motor 72 is driven at the maximum RPM 1300 in the normal mode. T1, t2, t3 ..., The solid state relay 72 is energized only during the hatched portion based on the viewpoint, and as a result, a power source AC corresponding to the hatched portion is applied to the blowing motor 72 so that the blowing motor 72 is driven. (3-2) of FIG. 3 shows power waveforms applied to the blowing motor 72 when the blowing motor 73 is driven at the maximum RPM 1500 when the low temperature wind is selected.

Reference numeral 31 is a resistor, 92 is a diode, V1 is a 5 volt DC voltage, and V2 is a 12 volt DC voltage.

The operation and effect of the present invention configured as described above will be described below.

When power is applied through the power supply unit 10 and a fan heater combustion command is input to the microcomputer 1 through the key input unit 30, the microcomputer 1 performs normal control for performing ignition. The ignition process drives the heater of the heater driving unit 50 to preheat the carburetor, and when the preheating completion temperature of the carburetor is detected through the carburetor temperature detecting unit 40, the electronic pump driving unit 90 and the solenoid driving unit 80 After driving the pump 94 and opening the solenoid valve, the igniter operation is performed by outputting the igniter driving signal to the igniter driver 60.

When the ignition operation is performed, the output of the electronic pump 94 and the RPM of the blower fan 73 are calculated by comparing the temperature set by the user with the user's temperature through the key input unit 30, and outputs accordingly. For example, when the set temperature of the consumer is lower than the room temperature (the set temperature and the room temperature), the combustion operation is performed "weak".

In such normal combustion, when the user turns on the low temperature wind control switch 32 to use the fan heater with low temperature wind and a low level signal is input to the input port I of the microcomputer 1, the microcomputer 1 Recognizes as the low-temperature wind control mode as the input signal at this time, and the predetermined value (20%) compared to the RPM of the blower motor 73 in the normal mode in the number of stages of the electric pump 94 of the same calorific value as the X curve of FIG. The output to the blower fan driver 70 is varied to control the blower motor 73 by rising. Therefore, the user can use the low temperature wind fan heater control as compared to the normal mode.

As described above, the present invention can use low temperature wind control according to the user's sense of warm air using a fan heater, and can prevent dyspnea and discomfort caused by hot wind reaching the human body when a person is in close proximity to the set. It is a useful invention with various advantages, such as allowing the warm air to go far, even during weak combustion.

Claims (1)

In the fan heater, a key input unit 30 having a low temperature wind control switch 32 for inputting a fan heater operation according to the low temperature wind to the microcomputer 1 and a low temperature wind control switch of the key input unit 30. By the key input of 32, the RPM of the blower motor 73 is raised to a certain level than in the normal mode and driven, but the microcomputer 1 for performing a predetermined output in proportion to the output stage of the electronic pump 94, and And a blower motor drive unit (70) for driving the blower motor (73) by the controlled output of the microcomputer (1).