KR101431716B1 - Heater Temperature Controlling System Of Heater For Blowing Hot Wind And Method For Detecting Of Fan Disorder Of Using The Same - Google Patents

Abstract

Disclosed are a heater temperature control system for detecting a fan driving error of a hot-air heater through cyclic on-off operation of the heater in the hot-air heater or a drier consisting of the heater and a fan, and a method for detecting the fan driving error using the same. The heater temperature control system for the hot-air heater capable of receiving the surrounding temperature and generating hot air includes an input unit for inputting a set temperature of the hot-air heater; a motor driven by an input signal of the input unit; a fan mounted on a shaft of the motor to blow the air; a heater spaced apart from the fan for conducting on-off operation to be heated to a set temperature; a temperature sensor positioned around the heater to detect the temperature; and a control unit for determining the fan driving error on the basis of the temperature data of the temperature sensor after the off point of the cyclic on-off operation in the heater. Therefore, since the on-off operation of the heater is conducted in a temperature raising section to the set temperature, it is possible to prevent fire caused by excessive heating, and to prevent a temperature fuse from being damaged due to the excessive heating. Also, the fan driving error can be detected by the simple program of the control unit under the situation in which the motor for driving the fan is restricted.

Description

TECHNICAL FIELD [0001] The present invention relates to a heater temperature control system for a hot air heater, and a fan driving error detection method using the same. BACKGROUND ART < RTI ID = 0.0 >

The present invention relates to a heater temperature control system for a hot air heater and a fan drive error detection method using the same, and more particularly, to a hot air apparatus or a dryer comprising a heater and a fan, And a fan drive error detection method using the same.

Generally speaking, a hot air heater refers to a mechanical device that generates a hot wind, and it can be used for a variety of hot air heaters ranging from a hot air heater for a compact hot air fan that can be easily used at home to a medium and large size used in various industrial and industrial fields Is used.

Such a hot air heater can be applied to all types of hot air generating machinery such as heaters for heating, various dryers such as foods, hair dryers, and food waste disposal devices.

1 is a perspective view showing a food drier using a hot air heater according to the related art. Drying of food is carried out for the purpose of being used as a food material for long-term storage or in a dry form.

1, the food drier includes a motor case 52 having a circular groove at the center of a portion corresponding to the pedestal 50, a motor case 52 having an intake port 53a in the groove, And a drying lid 65 and an upper lid 68 are stacked on the upper side of the pedestal 50.

A fan 56 is mounted on the shaft of the motor protruding in the vertical direction and the heat ray 57 and the heat ray attachment plate 58a and the overheat damping plate 58b are wound around the fan 56 A heater 60 is provided. A temperature sensor 90 is attached to the side surface of the side heat-radiating plate 58a of the fan.

The heating wires 57 constituting the heater 60 are flatly wound on the heating wire attaching plate 58a provided around the fan 56 and are installed on the overheating buffering plate 58b so as to be parallel to each other.

The heater cover 61 protects the fan 56 and the heater 60 and has a circular through hole 62a formed on the upper surface thereof and a side through hole 62b formed on the side surface thereof. Respectively.

A plurality of drying racks 65 are formed on the pedestal 50 in which a plurality of triangular grooves are formed and one or more drying rods 65 are formed. And a food preparation network 67 in which grid grooves are formed.

An upper lid 68 having an exhaust port 53b is stacked on the drying table 65 located at the uppermost position. An air outlet 53b is formed at the center of the upper surface of the top cover 68. [

When the electric power is supplied through a power line (not shown), the hot line 57 is heated and at the same time the motor 55 is driven to blow the air heated by the hot line 57, Rotate.

The fan 56 is rotated to suck air through the inlet port 53a to be heat-exchanged with the heat of the heat ray 57 and to be discharged through the circulation hole 62a and the side hole 62b.

When the temperature of the hot wire 57 is overheated and the temperature sensor 90 around the hot wire 57 reaches a predetermined temperature, the power supplied to the hot wire 57 is interrupted to prevent the hot wire 57 from being overheated. At this time, the fan 56 is continuously operated to cool the heat.

However, in the hot air heater such as the food drier, when the power source is applied, the heater is continuously heated to the set temperature and overheated. In this case, there is a risk of fire.

In addition, since the conventional hot air heater is equipped with only a thermostat or a fuse as a means for controlling the overheating action of the heating element, when the thermostat or the fuse fails, the heating element of the heater is continuously heated, . In particular, if the fan is not constrained to operate, the heater will overheat more easily because it does not cool the heat.

Korean Utility Model Registration No. 20-0354535 Korean Patent Publication No. 10-0643885

SUMMARY OF THE INVENTION The present invention has been made in view of the above-described problems, and it is an object of the present invention to provide a heater temperature control system for a hot air heater that can suppress an excessive temperature rise of a heater, will be.

The present invention also provides a heater temperature control system for a hot air heater capable of detecting a fan drive error with a simple program of a control unit in a state where a motor for driving the fan is constrained, and a fan drive error detection method using the same.

A heater temperature control system of a hot air heater according to the present invention for solving the above problems is characterized by comprising an input unit for inputting a set temperature of the hot air heater, A fan drive motor driven by an input signal of the input unit; A fan mounted on a shaft of the fan driving motor to blow air; A heater installed to be spaced apart from the fan and periodically being turned on / off and heated to a set temperature; A temperature sensor positioned around the heater and sensing a temperature; And a controller for determining whether or not a fan drive error has occurred from the temperature data of the temperature sensor from a point in time when the heater is turned off on / off.

In the present invention, the controller may stop the operation of the heater when it judges the fan drive error two or more times consecutively. Preferably, the operation of the heater can be stopped when the fan drive error is judged twice to five times.

In the present invention, the intermittent operation of the heater including the hot line, which is periodically turned on / off and heated to the set temperature, is relatively short compared to the on time, which is the off time, Can be continuously increased at the on time.

In the present invention, the hot air heater may be any one of a hot air fan, a dryer, a hair dryer, and a food garbage disposal apparatus.

According to another aspect of the present invention, there is provided a method of detecting a fan driving error using a heater temperature control system for a hot air heater, the method comprising: inputting a set temperature of a heater in an input unit of a hot air heater; Increasing the ambient temperature while intermittently operating the heater; Measuring temperature data over time in a temperature sensor adjacent to the heater; Analyzing the temperature data by the controller to determine whether the fan drive error occurs; Wherein the control unit determines whether the temperature data analyzed by the control unit is in a normal state, determines whether the temperature has reached a set temperature, extends the heater off time or completely turns off the heater in the case of a fan drive error ; When the temperature data reaches the set temperature, the control unit maintains the set temperature while interrupting the heater. When the set temperature is not reached, the control unit raises the ambient temperature by the heater while interrupting the heater.

In the present invention, the controller may further include a step of determining whether or not the fan operation has an error while the set temperature is being maintained while interrupting the heater when the temperature data reaches the set temperature.

According to the present invention having the above-described configuration, it is possible to prevent a fire due to excessive heat generation by raising the temperature to the set temperature by intermittently operating the heater, instead of continuously heating the temperature up to the set temperature, As a result, damage such as a temperature fuse due to excessive heat generation can be prevented.

Further, in a situation where a motor for driving the fan is constrained, it is possible to detect the fan drive error by a simple program of the control unit.

1 is a perspective view showing a food drier using a hot air heater according to the related art.
2 is a conceptual diagram showing a heater temperature control system of a hot air heater according to an embodiment of the present invention.
3 is a flowchart illustrating a method of detecting a fan driving error using a heater temperature control system for a hot air heater according to an embodiment of the present invention.
FIG. 4 is a graph showing the time-dependent temperature of the food drier of FIG. 1 according to the prior art.
FIG. 5 is a graph showing the temperature of the hot air heater according to an embodiment of the present invention with respect to time. FIG.
FIG. 6 is a graph showing a time-dependent temperature of a hot air heater according to another embodiment of the present invention.

Hereinafter, a heater temperature control system for a hot air heater according to a preferred embodiment of the present invention and a fan drive error detection method using the same will be described in detail with reference to the accompanying drawings.

2 is a conceptual diagram showing a heater temperature control system of a hot air heater according to an embodiment of the present invention.

2, the heater temperature control system 100 includes an input unit 110 for inputting a set temperature of the hot air heater, A fan 170 mounted on a shaft of the fan driving motor 160 for blowing air therethrough, a fan 170 installed to be apart from the fan 170 and periodically turned on / off, A temperature sensor 190 disposed around the heater 180 for sensing a temperature of the heater 180 and a heater 180 for heating the heater 180 to a predetermined temperature, And a controller 150 for determining a fan drive error from the temperature data of the temperature sensor 190 at the time point when the fan drive error has occurred.

The input unit 110 can input the on / off of the power of the hot air heater, the set temperature of the hot air heater, and the operation time.

The display unit 130 includes an LCD or an LED and receives information about the hot air heater such as the set temperature of the heater, the current temperature, the set time, and the remaining time from the controller 150. In addition, when an error of the fan 170 is detected, an alarm sound may be generated.

The control unit 150 operates the fan driving motor 150 and the heater 180 according to the input signal input from the input unit 110. Further, information on the temperature is input from the temperature sensor 190 and displayed on the display unit 130.

The fan drive motor 160 operates together when the heater 180 operates and circulates the heat generated by the heater 180 by rotating the fan 170 connected to the fan drive motor 160. [ The fan driving motor 160 may be provided with a separate motor sensor (not shown) to output the motor information regarding the operating state of the fan driving motor 160 to the controller 150. In the present invention, the control unit 150 can determine whether the motor is operated or restricted by matching the temperature change data of the temperature sensor and the stored reference temperature change rate data 151.

The heater 180 is heated until the input set temperature is reached. In the present invention, the heater is periodically turned on / off and heated up to a set temperature. This is because when the heater is heated to the set temperature in the hot air heater composed of the heater and the fan, the heater is forcibly turned off even when the temperature is lower than the set temperature after a certain time from the initial heating, . In particular, in the case where an abnormality such as restraint of the fan occurs during heating of the heater, continuous heating of the heater may overheat the heater, causing damage to the safety device such as damage to the external shape and fuse of the temperature, In case of inflow, the heater may overheat and cause fire. In the present invention, the heater 180 is periodically turned on and off to be heated up to a set temperature, thereby preventing overheating of the heater 180 and preventing damage and fire of the hot air heater due to overheating of the heater have.

The temperature fuse 185 is cut to prevent the hot air heater from being overheated when the temperature inside the hot air heater is out of a certain range. The temperature fuse 185 is a secondary safety measure and can prevent the heater from overheating even when the motor sensor or the temperature sensor is not operating.

The temperature sensor 190 is positioned around the heater 180 and senses the temperature to provide the control unit 150 with the temperature.

If the fan driving motor 160 is not operated, the hot air heater may overheat, causing damage such as a temperature fuse, and further, a fire may occur. A motor sensor capable of determining whether the fan drive motor 160 is operative and restrained can be separately constructed, but additional configuration and costs arise.

In the present invention, it is possible to judge whether the fan motor 160 is normally operated or not by using the periodic intermittent operation of the heater 180 and the temperature data measured by the temperature sensor 190 at this time.

The control unit 150 stores the reference temperature change rate data 151 and the determination unit 153 determines whether the temperature detected by the temperature sensor 190 stored in the temperature sensor data storage unit 152 And judges a fan drive error from the data.

 The reference temperature change rate data 151 is data that serves as a reference for determining whether or not the fan 170 is constrained (off), and is used as a reference temperature change rate data from the time point when the heater 180 is turned off It is data on temperature change with time. The reference temperature change rate data 151 is a value varying according to the design of the hot air heater based on the structure of the fan and heater of the hot air heater and the distance between the temperature sensor and the heater and is set in advance according to the design of the hot air heater And data stored in the control unit.

Note that the present invention has a pattern in which the rate of temperature change when the heater 180 and the fan 160 operate normally and the rate of temperature change when the fan is restrained (when not operating normally) have significantly different patterns. Therefore, in the present invention, the heater 180 is heated to the set temperature while intermittently performing the intermittent operation of the heater until the set temperature is arbitrarily reached.

When the fan 170 is operated normally at the time when the heater 180 is operated and turned off, the temperature is drastically lowered near the temperature sensor 190 near the heater 180, And stores it in the temperature sensor data storage unit 152. The temperature sensor data is stored in the temperature sensor data storage unit 152. [ In this case, the determination unit 153 determines that the fan is operating normally, and the heater operation unit 155 immediately restarts the heater 180.

On the other hand, when the fan 170 does not operate normally due to restraint or the like at the time when the heater 180 is turned off, the temperature sensor 190 near the heater 180 senses a sudden temperature change Or the temperature rises. In this case, the heater operation part 155 can maintain the heater off time or completely turn off the heater.

In other words, the present invention determines whether or not a fan drive error occurs due to a temperature change rate with time from a point in time at which the controller 180 turns off the periodic on / off operation of the heater 180.

3 is a flowchart illustrating a method of detecting a fan driving error using a heater temperature control system for a hot air heater according to an embodiment of the present invention.

Referring to FIG. 3, reference temperature change rate data at a time point when the heater is turned off during the intermittent operation of the heater is stored in the control unit (S301). The reference temperature change rate data is used as a criterion for judging the presence or absence of an error in the fan operation by matching with the data actually measured by the temperature sensor at the time when the heater is turned off during the intermittent operation.

The set temperature of the heater is input in the input unit (S302).

The heater performs on / off operation, and the ambient temperature is raised by the heater (S303). At the same time, the motor drives the fan. The intermittent operation of the heater for raising the ambient temperature is interrupted (on / off) within a range that does not greatly affect the temperature rise time. In practice, the temperature rise time of the present invention for raising the temperature up to the set temperature during the intermittent operation and the conventional temperature rise time in which the heater is continuously heated to raise the temperature to the set temperature is not experimentally significant.

The temperature sensor measures the temperature, measures temperature data according to time, and provides the measured temperature data to the control unit (S304). Particularly, in the present invention, attention is paid to the temperature data of the temperature sensor from the point of time when the heater is turned off (on / off) periodically.

The control unit analyzes the temperature data acquired from the temperature sensor to determine whether or not there is an error in the fan operation (S305). That is, the reference temperature change rate data at the time point when the heater is turned off during the intermittent operation of the heater is compared with the actually measured temperature data to determine whether or not the fan drive error has occurred.

If the actual measured temperature data analyzed by the control unit is temperature data according to the fan operation error condition, the control unit extends the heater off time or completely turns off the heater (S306). When the temperature data indicates a fan operation error condition, the motor is mainly confined, which will be described later with reference to the temperature graph.

If the temperature data analyzed by the control unit is in the normal operation state of the fan, it is determined whether the set temperature is reached (S307).

When the set temperature is reached, the set temperature is maintained (SS08) while the heater is on / off. As described above, when the set temperature is reached while interrupting the heater, excessive temperature rise of the heater can be suppressed and the ignition point can be lowered, thereby contributing to the prevention of fire.

If the set temperature is not reached, the temperature by the heater is raised while operating the heater on / off (S303).

The interruption of the heater of the step 'S308' and the step of 'S303' is a different concept. In step 'S308', the set temperature is reached and the set temperature is maintained. In step 'S303' And a heater off period is arbitrarily set to acquire temperature data for determining the fan operation from the temperature sensor.

Further, in step S308, it is possible to determine whether or not there is an error in the fan operation during the intermittent operation in which the heater reaches the set temperature and maintains the set temperature. After the set temperature has been reached, the reference temperature change rate data is compared with the actually measured temperature data to determine whether or not the fan drive error has occurred.

The heater temperature control system of the hot air heater of the present invention and the fan drive error detection method using the heater temperature control system of the present invention can be applied to hot wind generating machinery such as a hot air fan, a drier, a hair dryer and a food garbage disposal apparatus.

Hereinafter, the temperature change over time with respect to the fan drive error and the arbitrary on / off operation of the heater will be described in detail.

FIG. 4 is a graph showing the time-dependent temperature of the food drier of FIG. 1 according to the prior art. Graph 1 shows the case where the fan drive motor operates normally, and graph 2 shows the case where the fan drive motor is constrained.

Referring to FIG. 4, when the set temperature is input from the input unit, the conventional hot-air heater in which the conventional fan driving motor operates normally continuously increases its temperature to the set temperature _Tt . From the point in time when the set temperature has been reached (t ₁ ), the heater is intermittently operated to maintain the set temperature (T _t ) (see graph ①).

However, when the fan driving motor does not normally operate, the conventional hot air heater continuously raises the temperature to a much higher temperature than the set temperature. This is because the fan can not cool the heater, in which case the heater is overheated and there is a risk of fire. (See graph ②).

FIG. 5 is a graph showing the temperature of the hot air heater according to an embodiment of the present invention with respect to time. FIG. The graph ③ shows the case where the fan drive motor operates normally and the graph ④ shows the case where the fan drive motor is restrained before the time when the fan temperature reaches the set temperature (t _a ).

With reference to Figure 5 if, by setting the set temperature at the input, the fan driving motor has a hot-air heater of the present invention to operate properly on-off (on-off) the temperature to the set temperature (T _t) increases as the speed operation do. The time during which the heater is turned off is set to be relatively shorter than the time during which the heater is turned on so that the temperature of the heater is entirely raised and the fan continues to operate normally even when the heater is off, , The temperature sensor senses a rapid rate of temperature change. That is, the present invention detects a sudden temperature change rate at a time point when the heater is turned off through on-off intermittent operation of the heater, and determines whether the fan drive error occurs. From the point of time when the set temperature is reached (t _a ), the heater is intermittently operated to maintain the set temperature (T _t ) (see graph 3).

On the other hand, when the fan driving motor does not operate normally, since the fan of the hot air heater of the present invention does not operate, the temperature sensor does not detect a sudden temperature change or the temperature rises. This is because the fan can not cool the heater and can not detect a sudden temperature change rate of the steady state. Therefore, the controller determines that the fan does not operate normally at this time, and prolongs the off time or completely turns off the heater off. (See graph ④).

If the control unit detects a fan driving error, the heater may be completely turned off immediately. However, since an error may occur due to a cause other than the failure of the fan such as a user opening the cover, And is set to completely turn off the heater in the event of occurrence. That is, the heater can be set to be completely turned off when a plurality of errors occur more than once.

FIG. 6 is a graph showing a time-dependent temperature of a hot air heater according to another embodiment of the present invention. The graph (3) shows a case where the fan driving motor described above in FIG. 5 operates normally, and the graph (5) shows a case where the fan driving motor is constrained after the time point t _a at which the fan driving motor reaches the set temperature.

Referring to FIG. 6, the hot air heater of the present invention in which the fan drive motor operates normally is the same as the graph 3 of FIG.

However, after the time point t _a at which the fan drive motor reaches the set temperature, the heater performs the intermittent operation to maintain the set temperature T _t . After the point of time t _a at which the set temperature is reached, May be constrained. Also in this case, since the fan does not operate in the hot air heater in the intermittent operation in which the set temperature (T _t ) is maintained after the time when the heater reaches the set temperature (t _a ), the temperature sensor does not detect a sudden temperature change Or the temperature is raised. This is because the fan can not cool the heater and can not detect a sudden temperature change rate of the steady state. Therefore, the controller determines that the fan does not operate normally at this time, and prolongs the off time or completely turns off the heater off. (See graph ⑤).

It will be apparent to those skilled in the art that various modifications and variations can be made in the present invention by those skilled in the art without departing from the spirit and scope of the invention as defined in the appended claims. Are also included within the scope of the present invention.

100: heater temperature control system 110: input part
130: Display unit 150:
151: reference temperature change rate data 152: temperature sensor data storage section
153: Judgment section 155: heater operating section
160: Fan drive motor 170: Fan
180: Heater 185: Temperature fuse
190: Temperature sensor

Claims (6)

1. A hot air heater for generating hot air by introducing ambient air,
An input unit for inputting a set temperature of the hot air heater;
A fan drive motor driven by an input signal of the input unit;
A fan mounted on a shaft of the fan driving motor to blow air;
A heater that is installed apart from the fan and is heated to a set temperature while periodically turning on / off by setting an off period of the heater;
A temperature sensor positioned around the heater and sensing a temperature; And
And a controller for determining whether or not a fan drive error has occurred based on the temperature data of the temperature sensor from a point in time when the heater is turned off during the periodic on / off operation,
Off time of the heater which is periodically turned on / off and heated to the set temperature is relatively short as compared with the on time so that the ambient temperature of the heater rises to the set temperature The heater temperature control system of the hot air heater. The method according to claim 1,
Wherein the control unit stops the operation of the heater when it is determined that the fan drive error has occurred two or more times in succession. delete The method according to claim 1,
Wherein the hot air heater is any one of a hot air fan, a dryer, a hair dryer, and a food garbage disposal apparatus. Inputting a set temperature of the heater at an input portion of the hot air heater;
Wherein the heater arbitrarily sets an off period of the heater to raise the ambient temperature while performing a periodic on / off operation;
Measuring temperature data over time in a temperature sensor adjacent to the heater;
Analyzing the temperature data by the controller to determine whether the fan drive error occurs;
Wherein the control unit determines whether the temperature data analyzed by the control unit is in a normal state, determines whether the temperature has reached a set temperature, extends the heater off time or completely turns off the heater in the case of a fan drive error ; And
Wherein the controller is configured to maintain the set temperature while interrupting the heater when the temperature data reaches the set temperature, and to raise the ambient temperature by the heater while interrupting the heater when the set temperature is not reached,
Wherein the periodic on / off operation is relatively short compared to the on time so that the ambient temperature of the heater rises to the set temperature. A method of detecting a fan drive error. 6. The method of claim 5,
Wherein the control unit further includes a step of determining whether or not there is an error in the fan operation while keeping the set temperature while intermittently controlling the heater when the temperature data reaches the set temperature A method for detecting a fan drive error.

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