KR20100026346A - Dryer and control method of dryer - Google Patents

Abstract

PURPOSE: A drier and a control method thereof are provided to completely dry laundries by measuring humidity of the laundries. CONSTITUTION: A drier is composed of a humidity sensor and a controller. The humidity sensor measures humidity of laundries. The controller performs a first drying process by comparing the measured first value with a first standard value(S1). The controller performs a second drying process by comparing a second value, measured during the first drying process, with a second standard value(S2).

Description

Dryer and control method of dryer

The present invention relates to a dryer and a dryer control method, and more particularly, includes a humidity sensing unit for measuring the humidity of a drying target, and sets a drying stroke based on the measured value of the humidity sensing unit, and performs the set drying stroke. It relates to a dryer and a dryer control method for controlling the humidity sensing unit to re-measure the humidity of the drying object to reset the drying stroke in accordance with the re-measured result to prevent the drying object from being undried.

Many dryers are used in various fields of real life to dry a given building to reach a desired degree of drying. Many products, such as a drying furnace of a factory that manufactures a large amount of dried products, a laundry dryer of a general household, a combined-use washing machine, and a dish dryer, are used to remove moisture of a dry matter using hot air or microwaves.

As a method of determining the dryness of the object to be dried using these dryers, drying may be performed for a time determined by a user using a simple timer, but recently, various sensors may be used to directly or indirectly determine the dryness of the object to be dried. The method of controlling to reach the desired dryness by measuring the temperature is utilized.

At this time, by measuring the humidity of the drying target and classify the drying stroke on the basis of this to dry the drying target as desired by the user. Therefore, it is important to accurately measure the humidity of the drying object.

The present invention includes a humidity sensing unit for measuring the humidity of the drying target, and controls to perform the first drying stroke based on the first measurement value measured by the humidity sensing unit, the first drying stroke is performed During the process, the humidity sensor re-measures the humidity of the drying target, and controls the drying operation to be performed based on the measured result, thereby preventing the drying of the drying target. And to provide a dryer control method.

The present invention, the humidity detection unit for measuring the humidity of the drying target, the first measurement value measured by the humidity detection unit and the first reference value is controlled to perform a first drying stroke, the first drying It provides a dryer comprising a control unit for controlling the second drying stroke is performed by comparing the second measurement value and the second reference value measured by the humidity sensing unit during the stroke.

In addition, the present invention is a step of performing a first drying stroke by comparing the first measurement value and the first reference value measured by the humidity sensing unit, and by the humidity sensing unit during the first drying stroke And a second drying stroke is performed by comparing the measured second measurement value with a second reference value.

Dryer and dryer control method according to the present invention, by measuring the humidity of the drying target to control the drying operation is performed according to the result, there is an effect of preventing the drying target is not dried.

Further, in the dryer and the dryer control method according to the present invention, the drying target is undried by re-measuring the humidity of the drying target during the execution of the first drying stroke and setting the drying stroke according to the re-measured value. There is an effect to prevent it.

Advantages and features of the present invention and methods for achieving them will be apparent with reference to the embodiments described below in detail with the accompanying drawings. However, the present invention is not limited to the embodiments disclosed below, but can be implemented in various different forms, and only the embodiments make the disclosure of the present invention complete, and the general knowledge in the art to which the present invention belongs. It is provided to fully inform the person having the scope of the invention, which is defined only by the scope of the claims. Like reference numerals refer to like elements throughout.

Hereinafter, a laundry dryer will be described for convenience of description. However, the dryer of the present invention is not limited thereto and specifies that the dryer may be implemented in various forms such as a combined-use washing machine and a dish dryer.

1 is a side cross-sectional view of a dryer according to an embodiment of the present invention. Referring to FIG. 1, the dryer includes a cabinet 1 forming an exterior and a drum 2 rotatably disposed in the cabinet 1. An inlet 3 is formed in the front of the cabinet 1 to inject clothes to be dried into the drum 2, and a door 4 that opens and closes the inlet 3 is disposed in the cabinet 1.

A motor 5 is disposed on the inner upper end of the cabinet 1, and a belt 6 is provided on a rotation shaft of the motor 5 to rotate the drum 2 using the rotational force generated by the motor 5.

In the drum 2 a blade 7 is arranged. The wing 7 serves to mix the clothes to be evenly distributed without agglomeration inside the drum 2 by lifting and dropping the clothes to be dried as the drum 2 rotates.

On the other hand, the dryer further includes a heater 11 for receiving external air through the air supply duct 12, and a blowing fan 9 for blowing air heated by the heater 11. Between the heater 11 and the blowing fan 9, a circulation duct 8, which is a passage through which air flows, is disposed, and the circulation duct 8 communicates with the drum 2.

Looking at the process of drying the clothes disposed in the drum (2), the step air is introduced into the air supply duct 12 by the rotation of the blowing fan (9), the introduced air is heated while passing through the heater (11) The heated air is introduced into the drum 2 to dry the clothes, and then discharged to the outside of the drum 2 by the blowing force of the blowing fan 9 and circulated into the circulation duct 8.

As described above, when the clothes are dried while the air is circulated, the fan 9 continues to rotate so that the outside air is supplied to the air circulation duct 8 through the air supply duct 12 connected to the outside. Therefore, the circulating air and the supplied external air are circulated while being mixed. At this time, since the air passing through the drum 2 is high in temperature and contains a large amount of moisture, it is condensed with the cold external air introduced through the air supply duct 12 and is discharged to the outside through the condensate discharge duct 13. .

On the other hand, the dryer further includes a humidity sensing unit for measuring the humidity of the drying target. The humidity sensing unit may be implemented by various means, but it is preferable to use the electrode sensor 20 to serve as a function of sensing the amount of the drying target. Hereinafter, the humidity sensing unit will be described as an electrode sensor 20, but the humidity sensing unit is not limited thereto and specifies that it may be implemented in various forms.

The dryer further includes an electrode sensor 20 disposed in the drum 2 so as to be in contact with the clothes to be dried. The electrode sensor 20 may be disposed on the wing 7 in contact with the garment as shown in FIG. 1, but is not limited thereto.

The electrode sensor 20 includes two electrodes in contact with clothes, and uses the characteristic that the measured value of the electrode sensor 20 varies according to the humidity included in the clothes contacting the two electrodes. For example, when the humidity of the clothing is high, the resistance between the two poles of the electrode sensor 20 is measured to be small. On the contrary, when the humidity of the clothing is low, the resistance between the two poles of the electrode sensor 20 is measured to be large. Properties can be used.

In addition, the electrode sensor 20 may measure the humidity of the drying target by using the output voltage characteristics. That is, a low voltage is output when the humidity of the clothing touching between the anodes of the electrode sensor 20 is high, and a high voltage is output when the humidity of the clothing touching between the anodes of the electrode sensor 20 is low. Humidity of the clothing can be measured. Hereinafter, the electrode sensor 20 will be described in a manner of measuring the humidity of the garment using a voltage output according to the humidity of the garment to be dried between the anodes.

The dryer further includes a humidity sensor 30 for measuring the humidity of the air circulating between the blowing fan 9 and the heater 11. While the electrode sensor 20 directly measures the humidity by directly contacting the clothes to be dried, the humidity sensor 30 measures the humidity of the circulating air.

Figure 2 is a block diagram showing the configuration of a dryer according to an embodiment of the present invention. Referring to FIG. 2, a signal output by the electrode sensor 20 and the humidity sensor 30 is transmitted to the controller 50, and the controller 50 analyzes the signal to set an optimal drying stroke. Of course, the controller 50 may also be configured to serve as a role of controlling the overall dryer.

More specifically, when the operation of the dryer is started, the drum 2 rotates to the left and right to measure the quantity of clothes to be dried. At this time, the garment is in contact with the electrode sensor 20 as the drum 2 rotates, and the electrode sensor 20 outputs an output voltage having an amplitude characteristic that varies depending on the humidity of the garment. The output voltage output by the electrode sensor 20 is transmitted to the control unit 50, and the control unit 50 analyzes the amplitude characteristics of the output voltage to determine the dose.

When the output voltage output by the electrode sensor 20 is determined as a first measurement value to determine a dose, the controller 50 compares the first measurement value with the first reference value. At this time, the first reference value is a reference value for classifying a quantity of quantity. That is, the controller 50 determines that the quantity is small when the first measured value is larger than the first reference value. When the first measured value is larger than the first reference value, the controller 50 determines that the quantity is large and the heater 11 Control the heating degree, heating time, etc. so that the optimized drying stroke is performed.

When the controller 50 analyzes the output voltage of the electrode sensor 20 and determines that the quantity is small, the first drying stroke is performed. The first drying stroke is a process of performing a drying stroke for a predetermined time. The predetermined time is a time set so that a small amount of cloth can be sufficiently dried.

On the other hand, if it is determined by the controller 50 that the quantity is large, the second drying stroke is performed. At this time, the second drying step is to determine the drying degree by the electrode sensor (20). That is, when the quantity is large, it is more accurate to measure the humidity using the electrode sensor 20, so that the output voltage of the electrode sensor 20 may reach a drying reference value set based on the humidity as desired by the user. Carry out drying until.

In this case, when the first drying stroke is performed by the controller 50 in a small amount, the electrode sensor 20 re-measures the humidity of the clothes to be dried during the first drying stroke. When the measured value of the electrode sensor 20 measured during the first drying stroke is the second measured value, the controller 50 compares the second measured value with the second set value and determines the amount of the dose again. This is to measure the humidity of the drying target more accurately.

That is, since the electrode sensor 20 is a method of measuring humidity by contact with a drying object, it is difficult to expect accurate measurement when the drying object is disposed to one side in the drum 2. Therefore, there is a possibility that the accuracy of the quantity determined by the first measured value during the execution of the first drying stroke may be inaccurate. Therefore, it is possible to measure the dose with higher accuracy by re-measuring the dose during the first drying stroke.

In this case, since the second measurement value output by the electrode sensor 20 is measured during the execution of the first drying stroke, the second measurement value is a value measured in a state where the drying of the drying target is performed at a predetermined level. Therefore, it is preferable that the second reference value is set differently from the first reference value in consideration of the execution time of the first drying stroke already started.

The electrode sensor 20 generally uses the characteristics of the output voltage or the characteristics of the measurement resistance, and considering the fact that the output voltage or the measurement resistance of the electrode sensor 20 increases according to the degree of drying progress of the drying object. It is preferable that a 2nd reference value is set higher than the said 1st reference value.

On the other hand, when the second measured value of the electrode sensor 20 is larger than the second reference value, it is determined as a small amount, so that the first drying stroke is continued for a predetermined time. The controller 50 determines whether to further dry by determining the dryness of the drying target after the predetermined time elapses.

In the first drying stroke with a small amount of water, the humidity sensor 30 can measure the humidity of the drying target more accurately. Therefore, the controller 50 analyzes the measured value of the humidity sensor 30 to determine the drying target. It judges whether it dried by the set drying degree.

The controller 50 determines the measured value measured by the humidity sensor 30 and terminates the drying process when it is determined that the drying of the drying target is completed.

On the other hand, if it is determined that the drying of the drying object is not made by the user desired drying degree, it is controlled to perform an additional drying stroke.

Referring to FIG. 2, the dryer further includes an input unit 40 for receiving a drying stroke set according to a drying target from a user. The input unit 40 may be disposed in a control panel (not shown) or the like and may be configured as a button type to receive a command for a drying stroke set according to a characteristic of a drying target.

The additional drying stroke is set differently depending on the material to be dried. For example, if the drying process input by the input unit 40 may be composed of a normal course that does not consider the characteristics of the drying object, or a cotton course when the drying object is cotton, the normal course and the cotton course may be dried. The times are set different from each other.

3 is a flowchart illustrating a control method of a dryer according to an embodiment of the present invention. Referring to Figure 3, when the operation of the dryer is started, the humidity of the drying object is detected by the humidity sensor. In this case, the humidity detecting unit is preferably an electrode sensor 20.

A quantity is determined by comparing the first measured value measured by the electrode sensor 20 with the first reference value. (S1) In this case, the first reference value serves as a reference for determining a quantity of drying target.

When the first measured value measured by the electrode sensor 20 is larger than the first reference value, the first drying stroke is performed because a small amount of the quantity is required. In this case, it is determined whether the second drying stroke is performed by comparing the second measurement value and the second reference value of the electrode sensor 20 measured while performing the first drying row definition (S2). If it is smaller than the second reference value, the second drying stroke proceeds. The second drying stroke refers to a stroke in which drying proceeds until the electrode sensor 20 reaches a drying reference value (S6).

When the second measurement value of the electrode sensor 20 measured in step S2 is greater than the second reference value, after drying for a predetermined time, after the predetermined time has elapsed, it is checked whether drying of the drying object is completed. Since the case is a small amount, it is preferable to measure the humidity of the drying target using the humidity sensor 30 to determine whether drying is complete. If drying is not completed as a result of the measurement, additional drying stroke is performed. (S4)

In the additional drying stroke, a drying time is set according to a user's selection input to the input unit 40. For example, the drying time may be set differently according to a drying stroke selected by a user such as a normal mode and a cotton mode.

Those skilled in the art will appreciate that the present invention can be embodied in other specific forms without changing the technical spirit or essential features of the present invention. Therefore, it should be understood that the embodiments described above are exemplary in all respects and not restrictive. The scope of the present invention is indicated by the scope of the following claims rather than the detailed description, and all changes or modifications derived from the meaning and scope of the claims and the equivalent concept are included in the scope of the present invention. Should be interpreted.

1 is a side cross-sectional view of a dryer according to an embodiment of the present invention.

Figure 2 is a block diagram showing the configuration of a dryer according to an embodiment of the present invention.

3 is a flowchart illustrating a control method of a dryer according to an embodiment of the present invention.

<Explanation of symbols for the main parts of the drawings>

11: heater 20: electrode sensor

30: humidity sensor 40: input unit

50: control unit

Claims (11)

Humidity sensing unit for measuring the humidity of the drying target; And Comparing the first measurement value measured by the humidity sensing unit with the first reference value so that the first drying stroke is performed, and the second measurement value measured by the humidity sensing unit during the execution of the first drying stroke; And a controller for comparing the second reference value and controlling the second drying stroke to be performed. The method of claim 1, The first drying administration, And a drying stroke performed for a predetermined time when the first measurement value of the humidity sensing unit is greater than the first reference value. The method of claim 1, The second drying administration, And the second measurement value of the humidity detection unit is smaller than the second reference value, until the measurement value of the humidity detection unit reaches a drying reference value. The method of claim 2, The control unit, And a second drying step of controlling the additional drying stroke when the second measurement value of the humidity detecting unit is smaller than a second reference value. The method of claim 4, wherein It further includes an input unit for receiving a washing stroke input, The additional drying stroke, And a time performed according to the washing stroke inputted to the input unit. The method of claim 1, And the second reference value is larger than the first reference value. The method of claim 1, The humidity sensor is an electrode sensor dryer. Performing a first drying stroke by comparing the first measured value measured by the humidity sensing unit with the first reference value; And performing a second drying stroke by comparing the second measurement value measured by the humidity sensing unit with a second reference value while the first drying stroke is being performed. The method of claim 8, Comparing the first measurement value and the first reference value measured by the humidity sensing unit, the step of performing the first drying stroke, And the first drying step is performed for a predetermined time when the first measurement value measured by the humidity sensor is greater than the first reference value. The method of claim 8, The step of performing the second drying stroke by comparing the second measurement value measured by the humidity sensing unit with a second reference value, And if the second measurement value measured by the humidity sensing unit is smaller than the second reference value, a second drying stroke is performed until the measurement value of the humidity sensing unit reaches a drying reference value. The method of claim 8, And further performing a drying step if the second measurement value measured by the humidity sensing unit is greater than the second reference value.

Images