KR970000687B1 - Clothing dryer - Google Patents

Abstract

No content.

Description

Clothes dryer

1 is a block diagram of a clothes dryer according to an embodiment of the present invention.

2 is a longitudinal sectional view of the clothes dryer of FIG.

FIG. 3 is a characteristic diagram showing the relationship between the heater input power and the intake temperature for explaining the detection of clogging of the filter holes of the clothes dryer of FIG.

4 is a flowchart illustrating the operation of the clothes dryer of FIG.

* Explanation of symbols for main parts of the drawings

2: PTC heater (heating means), 3: blowing fan (blowing means),

5: filter, 6: temperature detection means,

7: voltage detecting means, 9: current detecting means,

11: Control means.

The present invention relates to a clothes dryer for drying clothes for home use.

In recent years, household clothes dryers have provided a filter for removing waste threads in a drum for drying clothes, and when the filter holes are clogged due to a large amount of filter threads, the indicator lamps block the filter holes. Ali clothes dryer is proposed.

Conventionally, this kind of clothes dryer was comprised as disclosed in Unexamined-Japanese-Patent No. 55-16631. That is, the current change of the constant temperature resistance resistance heater (PIC heater) is detected by the current transformer, and when the detected current of the PTC heater is smaller than the set value, the filter hole is blocked.

In such a conventional clothes dryer, the PTC heater current is changed by the intake temperature, the air volume, and the voltage, and the current change of the PTC heater due to the seasonal change in the summer and winter, the voltage change, or the amount of cloth is applied to the clogging of the filter hole. Due to the much larger size than the current change, it is almost impossible to obtain a set value capable of detecting the clogging of the filter hole only by the current change in consideration of all the fluctuations, and thus it is impossible to actually detect the clogging state of the filter hole. Had

An object of the present invention is to provide a clothes dryer capable of detecting clogging of a filter hole which is not affected by a temperature change or a voltage change by solving the above-mentioned conventional problem.

In order to achieve the above object, the present invention provides a heating means comprising a PTC heater, a blowing means for blowing air heated from the heating means, a filter provided in a blowing path of the blowing means, and an intake temperature of the heating means. Temperature detecting means for detecting a voltage, voltage detecting means for detecting a voltage of the heating means, current detecting means for detecting a current of the heating means, and control for controlling the heating means and blowing means by the temperature detecting means. Means for calculating the electric power of the heating means from the voltage detecting means and the current detecting means, and clogging the filter hole from the temperature detected by the temperature detecting means and the calculated electric power. It provides a clothes dryer characterized in that the detection.

The present invention obtains electric power from the voltage and current of the PTC heater by the above-mentioned problem solving means, detects the blockage of the filter hole from the intake temperature and the power of the PTC heater, and blocks the filter hole regardless of the voltage change or temperature change. Can be detected accurately.

Hereinafter, an embodiment of the present invention will be described with reference to FIGS. 1 and 2.

As shown in the figure, the rotating drum 1 accommodates the dry matter, is heated by the PTC heater (heating means) 2 and circulated through the hot air blown by the blowing fan (blowing means) 3 to avoid it. Dry the dry matter. The motor 4 rotates the rotating drum 1 and the blowing fan 3.

The blower fan 3 consists of a heat exchanger fan and a two-winged fan, and has a function which circulates and cools the air in the rotating drum 1, and removes moisture.

The filter 5 is provided in the blowing path of the blowing fan 3, that is, the exhaust port of the air in the rotating drum 1. The temperature detecting means 6 detects the intake air temperature of the PTC heater 2.

If the hole of the filter 5 is clogged by a thread or the like, the amount of blown air is reduced and the heating power of the PTC heater 2 is reduced, so that the drying time is long and the drying efficiency is lowered.

The voltage detecting means 7 detects the voltage between the lines of the AC power source 8. The current detection means 9 is constituted by the current transformer 9 and the current-voltage conversion circuit 9b to detect the input current. The control apparatus 10 performs calculation and determination in order to control the PTC heater 2 and the motor 4 according to the signals of the temperature detecting means 6, the voltage detecting means 8, and the current detecting means 9. The control means 11 and the power control means 12 which consist of a microcomputer and its peripheral circuit which carry out are comprised. The power control means 12 comprises relays or power semiconductors 12a, 12b, and 12c, and drives and controls the heaters 2a, 2b and the motor 4 constituting the PTC heater 2; I'm trying to. In other words, the power control means 12 allows the input power of the PTC heater 2 to be controlled in at least two levels of strong and weak.

Here, if rotation control of the blower fan 3 is performed, not only the heating output can be controlled continuously but also the blower condition when detecting the blockage of the filter hole can be set constant.

The operation display circuit 13 is composed of a key switch included in the operation panel, an indicator of clogging of the filter hole, and the like.

The operation of the hole will be described with reference to FIGS. 3 and 4. 3 is a graph for explaining the filter hole clogging detection method according to the present invention, which is a characteristic diagram of the input power P and the intake air temperature T of the PTC heater 2. The input power P of the PTC heater 2 is represented by the product of the temperature difference Δt and the heat radiation coefficient H between the Curie temperature (switching temperature) T and the intake temperature T of the PTC heater 2. In other words

P = H (T _q -T) ..................... ...........................(One)

It is expressed by the formula Here, Curie temperature (switching temperature) T _q is a constant temperature (usually 220 ° C. to 235 ° C.). The heat radiation coefficient H can be obtained by measuring the intake air temperature T and the input power P during operation. That is, the heat radiation coefficient H can be obtained from the above equation. For example, although the circulation air volume Q and the heat radiation coefficient H are not proportional to each other, when the input power P of the PTC heater 2 decreases by approximately 20%, it can be judged that the hole of the filter is clogged and the heat radiation coefficient H decreases. have. In this connection, the filter (lint filter) hole in the dryer drum is clogged in 5 to 10 times of drying operation, so that the filter becomes white, which indicates that the filter hole is clogged when the circulating air volume Q decreases by approximately 20%. Can be set.

3 is a graph showing the relationship between the input power P and the intake temperature T of the PTC heater 2, where A represents the characteristic when there is little clothing, A 'represents the characteristic when there are many clothing, and B is It shows the characteristic when the filter hole is clogged. C denotes the detection level of the filter hole clogging for determining the clogging of the filter hole. The detection level P _s of the filter hole clogging corresponds to the intake air temperature T,

P _s = K- _k T ........................................... .............................(2)

It can be set almost linearly. Where K and k are integers.

In addition, since the input power P of the PTC heater 2 is related to the intake air temperature T from Formula (1), the detection level P _s of the filter hole clogging is

P _ss = H _s (T _q -T) ... ............. (3)

It is expressed by the formula Here, H _s is a heat radiation coefficient when the hole is clogged.

4 is a flowchart of one embodiment of the present invention described above, which shows a subroutine for detecting filter hole clogging. In step 101, the intake temperature of the PTC heater 2 is detected, and in step 102 the PTC heater 2 is detected. It is determined whether or not the input power of?) Is weak. In order to make the detection of the filter hole clogging as simple as possible, it is necessary to keep the air condition and the power condition of the PTC heater 2 constant, and to make the PTC heater 2 weak in consideration of the AC power capacity. By setting, the blockage of the filter hole is determined. Moreover, the method of feedback-controlling the rotation speed of the blowing fan 3, and setting the input power of the PTC heater 2 weakly is preferable. In step 103, the voltage and current of the PTC heater 2 are detected, and in step 104, the power of the PTC heater 2 is obtained from the product of the voltage and the current. In the embodiment shown in FIG. 2, the motor 4

Since the input is also added, the motor input must be subtracted.

In step 105, it is checked whether the change of the input current or the input power is almost constant. At this time, the method of investigating the change in a fixed time, or the method of setting a delay of a fixed time after setting the PTC heater 2 weakly may be sufficient. Next, in step 106, clogging of the filter hole is determined. By comparing the detected level P _s and input power detection level compared to P or calculated by the temperature T and P _{s k} = K- input power P corresponding to the intake air temperature T of the PTC heater (2), when P <P _s Detect clogging of filter holes. Alternatively, the drop in the heat radiation coefficient H is determined from the intake temperature T of the PTC heater 2 and the input power P of the PTC heater 2 to detect clogging of the filter hole. If it is determined in step 106 that the filter hole is blocked, the filter hole blocking flag is generated in step 107, and the filter hole blocking display lamp of the operation display circuit 13 is turned on by the hole blocking flag in step 108.

The power of the heating means is calculated by the current detected by the current detecting means and the voltage detected by the voltage detecting means, and the blockage of the filter hole is detected by the temperature detected by the temperature detecting means and the calculated power. When the voltage change becomes constant to some extent, that is, when the voltage change can be almost ignored, the filter hole is clogged by the current detected by the current detecting means and the temperature detected by the temperature detecting means. Can be detected.

As apparent from the above description, according to this embodiment, the power of the PTC heater 2 is obtained from the voltage detecting means 7 and the current detecting means 9, and the intake temperature and PTC detected by the temperature detecting means 6 are obtained. The clogging of the filter 5 hole can be detected precisely from the electric power of the heater 2.

In addition, in the above embodiment, the moisture removal type clothes dryer is described, but it is apparent that the same effect can be obtained with the exhaust type clothes dryer. In addition, when the voltage detecting means 7 corrects the power reduction of the PTC heater 2 due to the decrease in the airflow amount, the accuracy can be further improved. In addition, when detecting the blockage of the hole, if the rotation speed of the blower fan 3 is constantly controlled, voltage correction becomes unnecessary, and of course, the detection accuracy is also improved.

As is apparent from the above embodiment, according to the present invention, there is provided a heating means comprising a PTC heater, a blowing means for blowing air heated from the heating means, a filter provided in the blowing path of the blowing means, and the heating means. The heating means and the blowing means are controlled by a temperature detecting means for detecting an intake air temperature, a voltage detecting means for detecting a voltage of the heating means, a current detecting means for detecting a current of the heating means, and the temperature detecting means. And the control means calculates the electric power of the heating means from the voltage detecting means and the current detecting means, and calculates the electric power of the filter hole from the temperature detected by the temperature detecting means and the calculated electric power. Since the blockage is detected, the blockage of the filter hole can be detected without being affected by temperature change or voltage change. Can be detected.

Claims (3)

A heating means comprising a positive temperature-sensitive resistance heater, a blowing means for blowing air heated from the heating means, a filter provided in a blowing path of the blowing means, a temperature detecting means for detecting an intake temperature of the heating means; And current detecting means for detecting a current of the heating means, and control means for controlling the heating means and the blowing means by the temperature detecting means, wherein the control means includes a current detected by the current detecting means. And a clogging of the filter hole by the temperature detected by the temperature detecting means. 2. The apparatus according to claim 1, further comprising a voltage detecting means for detecting a power supply voltage or a voltage of the heating means, calculating the power of the heating means from the voltage detecting means and the detecting means, and The clothes dryer characterized by detecting clogging of the filter hole from the calculated power. The temperature and current of claim 1 or 2, wherein the control means makes it possible to control the input power of the heating means in at least two stages of strong and weak, and the temperature and current detected by the temperature detecting means when the input power is about weak. A clothes dryer characterized by detecting clogging of a filter hole in a current detected by the detecting means.