JP6681674B2 - Electrical equipment - Google Patents

Description

  The present invention relates to an electric device, and more particularly to an electric device having a drying function.

  Conventionally, a washing machine, which is an example of an electric device having a drying function, determines the state of the laundry and ends the drying operation in order to improve the finish of clothes to be dried after the drying process of the washing and drying machine is completed. Is proposed. The state of the laundry referred to here is the degree of drying, the temperature, etc., which indicates the degree of drying of the clothes after drying. In Japanese Patent Laid-Open No. 2010-240007, an electrode is provided in the rotary drum, and the dryness of the clothing is detected from the resistance value of the electrode that contacts the clothing to control the drying. In Patent Document 2 (Japanese Patent Laid-Open No. 2014-100174), the dryness is determined based on the temperature difference between the intake air and the exhaust, and the dryness is displayed and notified to the user. In Patent Document 3 (Japanese Unexamined Patent Application Publication No. 2004-248806), the temperature in the washing tub is detected and controlled so that the temperature in the washing tub does not exceed 75 ° C. Further, in Patent Document 4 (Japanese Patent Laid-Open No. 2003-311098), in order to prevent wrinkles and improve the finished state of clothes, moisture is applied to the material to be dried during the drying process.

JP, 2010-240007, A JP, 2014-100174, A JP, 2004-248806, A JP, 2003-311098, A

  In the above-mentioned conventional technology, in order to improve the finish of the clothes after drying, the end of the drying is determined by the temperature or the degree of dryness. However, what kind of state the clothes after drying should be is defined. It has not been. For example, even if the clothes are dried completely at high temperature in an attempt to be completely dried, a so-called overdried state may result, and the clothes may shrink or feel rough. On the other hand, even if water is added to improve the finished state, the user may feel that the drying is insufficient.

  In fact, currently proposed washing and drying machines include a heater type and a heat-pon type, but the heater type has a problem that the user feels too hot when finished at a high temperature because it is too dry. On the other hand, the heat-pon type has a problem that the clothes do not reach a temperature higher than that of the heater type, but the dried clothes do not satisfy a sufficient degree of dryness, and the user feels that the dryness is poor.

  The present disclosure has been made to solve the above-described problems, and an object thereof is to provide an electric device that can bring a product to be dried into an appropriate state.

  An electric device according to one embodiment includes a control unit for controlling the electric device, a tank for storing an object to be dried, a gas to be heated and dried, and the heated and dried gas to be supplied to an air supply port. Temperature, the temperature of the gas sent from the inside of the tank through the exhaust port, and the humidity detection unit that detects the humidity of the gas sent from the inside of the tank through the exhaust port. And a temperature detection unit for detecting the temperature detection unit, and the control unit is configured such that, after the heating and drying of the gas by the warm air supply unit is started, the humidity detected by the humidity detection unit is a predetermined humidity, and the temperature detection unit When the temperature detected by is a predetermined temperature, the hot air supply unit is controlled to stop heating and drying.

  Preferably, the predetermined humidity and temperature are from the inside of the tank via the exhaust port when the dryness of the material to be dried in the tank is the target dryness and the temperature of the material to be dried is the target temperature. It is the humidity and temperature of the delivered gas respectively.

  Preferably, the target dryness K satisfies the condition (1.01 / D ≦ K / D ≦ 1.05 / D), and the target temperature T satisfies the condition (45 ° C. ≦ T ≦ 60 ° C.). , The target dryness K is represented by K = (DW / W1). However, D is a coefficient determined by the material of the material to be dried, W is the weight of the material to be dried in an absolutely dry state, and W1 is the weight when the dryness of the material to be dried is the target dryness. Show.

  Preferably, the target dryness and the target temperature respectively indicate the target dryness and the target temperature of the towel, and when the material to be dried contains the towel in a ratio of approximately 13% to 30% with respect to the total weight, the target dryness of the towel is desired. The combination (K1, T1) of the dryness K1 and the target temperature T1 of the towel is K1 and T1 in the coordinate system defined by the coordinate axis of the target dryness K1 and the coordinate axis of the target temperature T1 of the towel orthogonal to the coordinate axis. 045, 45 ° C.), point B (1.045, 50 ° C.), point C (1.075, 65 ° C.) and point D (1.075, 45 ° C.).

  Preferably, the warm air supply unit includes a gas flow passage and a heating / drying unit provided in the flow passage and for heating and drying the gas in the flow passage, and one end of the flow passage has an air supply port. And the other end of the flow path is connected to the exhaust port. The humidity detecting section and the temperature detecting section are arranged on the exhaust port side in the flow path, and the heating and drying section has a heat pump unit and a heating device.

  According to the present disclosure, the finish of the material to be dried can be brought to an appropriate state.

1 is a perspective view showing an appearance of a washer / dryer 1 according to Embodiment 1. FIG. FIG. 3 is a vertical cross-sectional view schematically showing the internal structure of the washer / dryer 1 according to the first embodiment. It is a figure which shows typically the control structure of the washing-drying machine 1 which concerns on Embodiment 1. FIG. 3 is a block diagram schematically showing a function of a CPU 23 according to the first embodiment. 6 is a flowchart showing an outline of a process for controlling the end of the drying process according to the first embodiment. FIG. 6 is a diagram showing a two-dimensional coordinate system defined by a coordinate axis of dryness K and a coordinate axis of temperature T orthogonal to the coordinate axis according to the first embodiment. FIG. 6 is a diagram showing a two-dimensional coordinate system defined by a coordinate axis of dryness K1 and a coordinate axis of temperature T1 orthogonal to the coordinate axis according to the second embodiment. It is a figure for demonstrating the suitable finish state of the clothing 55 containing the towel by the drying process of the washing-drying machine 1 which concerns on Embodiment 2. FIG. 5 is a diagram showing a result of comparison of subjective evaluations of subjects by an experiment for the first embodiment. FIG. 9 is a diagram showing a result of comparison of subjective evaluations of subjects by an experiment for the second embodiment. FIG. 11 is a diagram showing a region ER2 to which a combination (K, T) of the dryness K and the temperature T for obtaining an appropriate finished state according to the third embodiment is applicable.

  Hereinafter, embodiments of the present invention will be described with reference to the drawings. In the following description, the same parts are designated by the same reference numerals. Their names and functions are also the same. Therefore, detailed description thereof will not be repeated.

[Embodiment 1]
Hereinafter, the washer / dryer 1 according to the first embodiment of the present invention will be described. The washer / dryer 1 is an example of an “electrical device”.

(Technical thought)
The electric device shown in each embodiment has a tank for storing a material to be dried, a temperature for heating and drying gas, and a temperature for blowing the heated and dried gas into the tank through the air supply port. And a wind supply unit. The electric equipment detects the predetermined humidity and temperature of the gas sent out through the exhaust port after the hot air supply unit has heated and dried the gas and started blowing air into the tank through the air supply port. When heated, the hot air supply unit is controlled to stop heating and drying.

(Constitution)
FIG. 1 is a perspective view showing the external appearance of the washer / dryer 1 according to the first embodiment. As shown in FIG. 1, the washer / dryer 1 has a substantially rectangular parallelepiped casing 1A. The washer / dryer 1 includes an opening and a door provided on the front surface of the housing 1A. The door is composed of a door body 10 and a front door 11 (described later). The door is attached to the housing 1A via a hinge mechanism to open and close the opening. The opening is provided in and out of the drum 3 of the washing tub 2 to be described later so that an object to be washed or dried can be taken in and out. Further, an operation panel 12 and a charging section 45 for a detergent or the like are provided on the top of the housing 1A. The operation panel 12 includes keys operated by the user to input instructions to the washer / dryer 1.

  FIG. 2 is a vertical cross-sectional view schematically showing the internal structure of the washer / dryer 1 according to the present embodiment. As shown in FIG. 2, the casing 1A of the washer / dryer 1 includes a washing tub 2 in which a drum 3 is housed. The drum 3 has a cylindrical shape, and is held by the cylindrical washing tub 2 via a rotary shaft (not shown) and is connected to the washing tub drive motor 4. The drum 3 is an example of a “tub” for containing an object (typically, clothes 55) to be washed or dried. The washing tub 2 includes an air supply port 31 for supplying a dry gas sent into the drum 3 by a blower 50 described later. The air supply port 31 is preferably provided on the bottom surface of the washing tub 2. The dryer body is fed into the drum 3 from the air supply port 31 through the bottom surface of the drum 3. The drum 3 has a plurality of drain holes (not shown) for drainage in its body. Further, an exhaust port 32 for exhausting the gas in the tub to the outside is provided at the upper part of the washing tub 2. The gas in the drum 3 enters the washing tub 2 through the drain hole of the drum 3, passes through the exhaust port 32, passes through the exhaust filter that removes dust contained in the exhaust, and is sent to the heat pump unit 8 described later. To be

  The washer / dryer 1 also includes a heat pump unit 8, a heater unit 7, a blower 50, which will be described later, and a blower path 6 in order to allow drying air to flow through the drum 3 to dry the inside of the tank. The heat pump unit 8 includes an evaporator, a condenser, and a compressor inside. The air blowing path 6 corresponds to a “flow path” of gas provided so as to connect the drum 3, the heat pump unit 8 and the heater unit 7 to each other. The air passage 6 is composed of a tube having a hollow inside. One end of the tube of the blower path 6, which is one open end, is connected to the air supply port 31, and the other end, which is the other open end, is connected to the exhaust port 32.

  A temperature detection unit 601 that detects (measures) the temperature of the drying air that has passed through the washing tub 2 (more specifically, the drum 3) is provided in the path of the air passage 6. The temperature detection unit 601 is composed of, for example, a thermistor, and is provided on the exhaust port 32 side. The temperature detection unit 601 is preferably provided in the air passage 6 immediately after the drying air has passed through the drum 3, or on the path from the washing tub 2 to the heat pump unit 8. It is more desirable that the temperature detection unit 601 be provided between the exhaust port 32 and the exhaust filter. By doing so, the temperature immediately after being discharged from the drum 3 is detected, so that the actual temperature of the drum 3 can be more reflected. The temperature detection unit 601 is an example of a “temperature detection unit” that detects the temperature of the gas flowing into the air passage 6 from the exhaust port 32.

  In addition, a humidity detection unit 602 that detects (measures) the humidity of the drying air that has passed through the washing tub 2 (more specifically, the drum 3) is provided in the path of the air passage 6. The humidity detector 602 is composed of a humidity sensor and is provided on the exhaust port 32 side. It is desirable that the humidity detection unit 602 is provided on the air passage 6 immediately after the drying air passes through the drum 3, or on the passage from the washing tub 2 to the heat pump unit 8. It is more desirable that the humidity detector 602 is provided between the exhaust port 32 and the exhaust filter. By doing so, the humidity immediately after being discharged from the drum 3 is detected, so that the actual temperature of the drum 3 can be more reflected. The humidity detecting unit 602 is an example of a “humidity detecting unit” that detects the humidity of the gas flowing into the air passage 6 from the exhaust port 32.

  Although the temperature detection unit 601 and the humidity detection unit 602 are separately provided in the first embodiment, they may be configured as an integrated sensor.

  The door for opening and closing the opening of the washer / dryer 1 includes a door body 10 and a front door 11. The door body 10 is made of a transparent member such as glass. The front door 11 is a surface part of the door body 10 and is a surface opposite to the surface on the washing tub 2 side, and is a surface exposed to the outside when the door is closed. .

  The air blow passage 6, the heater unit 7, and the heat pump unit 8 configure a “warm air supply unit” for heating and drying gas and blowing the heated and dried gas into the drum 3 through the air supply port 31. To do. The gas flowing into the air passage 6 from the exhaust port 32 via the other end of the tube of the air passage 6 is dried by being condensed (dehumidified) by the heat pump unit 8. Then, the dried gas is heated by the heater unit 7 and is delivered to the air supply port 31 through one end of the tube. The heater unit 7 and the heat pump unit 8 are an example of a "heat drying unit" for performing such heat drying of gas. The gas after the drying and heating is blown into the drum 3 by the blower 50 through the blower path 6 and the air supply port 31. As a result, warm air is supplied into the drum 3. Although the drying method using the heat pump is applied to the washer / dryer 1, it may be a heater type in which the clothes 55 are dried only by the heater. Alternatively, the clothes 55 may be dried only by the heat pump.

  FIG. 3 is a diagram schematically showing a control structure of the washer / dryer 1 according to the first embodiment. Referring to FIG. 3, the washer / dryer 1 includes a control circuit 5. Each part of the washer / dryer 1 is connected to the control circuit 5. A microcomputer 22 is provided as a main component of the control circuit 5. The microcomputer 22 includes a CPU (Central Processing Unit) 23, a storage unit (RAM (Random Access Memory) 24, ROM (Read Only Memory) 25) for storing programs and data, a timer 26, and I / O (Input / Input). Output) port 27, and system bus 28. The CPU 23 corresponds to the “control unit” of the washer / dryer 1. Each unit of the microcomputer 22 transmits / receives data via the system bus 28. The control circuit 5 further includes a power supply circuit 30 for supplying electric power to the microcomputer 22, and an input key circuit 33 connected to the I / O port 27, a state detection circuit 34, a display device drive circuit 35, and a load drive circuit. 37, a temperature detecting circuit 41 connecting the temperature detecting unit 601 and a humidity detecting circuit 42 connecting the humidity detecting unit 602. The I / O port 27 converts the data from the CPU 23 into a signal and outputs it to each circuit. Further, the I / O port 27 converts the signal from each circuit into data and outputs it to the CPU 23.

  The input key circuit 33 is connected to the operation panel 12. The state detection circuit 34 connects the sensor unit 107 including various sensors for detecting the state of each unit of the washer / dryer 1.

  The sensor unit 107 includes a weight sensor 117 that measures the weight (unit: gram) of the clothes 55 stored in the drum 3. The display device drive circuit 35 connects a display device (not shown). The display device displays various information such as the state of the washer / dryer 1. The temperature detection circuit 41 receives a drive signal for measuring the temperature from the I / O port 27, removes a noise component from the measurement signal by the temperature detection unit 601, and outputs the removed measurement signal to the I / O port. To 27. The humidity detection circuit 42 receives a drive signal for measuring the humidity from the I / O port 27, generates a noise component from the detection signal by the humidity detection unit 602, and outputs the detection signal after removal to the I / O port 27. Output.

  The load drive circuit 37 includes a washing tub drive motor 4, a drain motor 21, a water supply valve 38 for washing, a circulation pump 39, a drain valve 40, a blower 50 for blowing air to the blower path 6, a heater unit 7, and a heat pump unit 8. Connect. The load drive circuit 37 controls each of these parts based on a control signal from the CPU 23.

  FIG. 4 is a block diagram schematically showing the function of the CPU 23 according to the first embodiment. Referring to FIG. 4, CPU 23 includes a washing process control unit 201 and a drying process control unit 204. The washing process control unit 201 includes a washing process control unit 220, a rinsing process control unit 221, and a dehydration process control unit 222. The function of each of these units is realized by hardware and software (program and data) executed by the CPU 23. Such software is stored in the RAM 24 and the ROM 25 in advance.

  Further, the ROM 25 stores a plurality of tables 251, a table 252, and a table 253. The plurality of tables 251 include tables 251 corresponding to different materials (cotton, chemical fiber, etc.) of the entire clothes 55 to be dried. In each table 251, the temperature t (unit: ° C) and the humidity H (unit: gram / cubic meter) are registered in association with each weight of the clothes 55.

  The temperature t and the humidity H are detected from the air flow (warm air) sent from the exhaust port 32 when the clothes 55 of the corresponding material and weight are brought into an appropriate dry state in the drum 3 in the drying process. Indicates temperature and humidity. In the table 251, data acquired in advance by an experiment is registered. Details of the data registered in the table 251 will be described later.

  The table 252 and the table 253 are registered with data of temperature and humidity of the object to be dried when the clothes 55 include a towel, and details of the data will be described later.

  The washing process control unit 201 controls the washing tub drive motor 4, the washing water supply valve 38, the drain valve 40, and the like so as to perform the washing process.

  Here, the washer / dryer 1 includes a washing step of washing the clothes 55 with a detergent, a rinsing step of rinsing the detergent adhering to the clothes 55, and a dehydrating step of removing excess water from the clothes 55 in the washing step.

  The washing process control unit 201 includes a washing process control unit 220, a rinsing process control unit 221, and a dehydration process control unit 222. The washing process control unit 220 controls the washing tub drive motor 4, the washing water supply valve 38, the circulation pump 39, and the drain valve 40 so as to perform the washing process. The rinsing process control unit 221 controls the washing tub drive motor 4, the washing water supply valve 38, the circulation pump 39, and the drain valve 40 so as to control the rinsing process. The dehydration process control unit 222 controls the washing tub drive motor 4, the water supply valve 38 for washing, and the drain valve 40 so as to perform the dehydration process of washing.

(Control by the drying process control unit)
The drying process control unit 204 includes a fan motor (not shown) for rotating the fan of the washing tub drive motor 4, the washing water supply valve 38, and the blower 50 so as to perform the drying process in the drum 3, and a heat pump unit. 8 and the heater unit 7 are controlled. In the drying step, the clothes 55, which is the material to be dried, in the drum 3 is dried by removing water. Here, the clothes 55 are the objects to be dried, but not limited to the clothes 55, it is possible to apply to all cloth products.

  After starting the drying process, the drying process control unit 204 determines the end of the drying process based on whether or not a predetermined condition using the detection values of the temperature detecting unit 601 and the humidity detecting unit 602 is satisfied. .

  The drying process by the drying process control unit 204 will be described. When the drying process is started, the washing tub drive motor 4 starts rotating the drum 3 under the control of the CPU 23. The rotation speed of the drum 3 is controlled based on the rotation chart for the drying process. The fan 50 operates the fan 50 while the drum 3 is rotating. By these operations, the air in the drum 3 is returned to the inside of the drum 3 from the air supply port 31 through the exhaust port 32, the air blow passage 6, the blower 50, the heat pump unit 8, the heater unit 7, and the air blow passage 6 in order. Be done. The air thus circulated is heated and dried by the heat pump unit 8 and the heater unit 7 and supplied into the drum 3 as warm air, and the clothes 55 in the drum 3 are gradually dried by the warm air.

  In the drying step, the water vaporized from the clothes 55 is included in the gas delivered from the exhaust port 32 of the drum 3 to the air passage 6. When the moist gas passes through the heat pump unit 8, it is cooled and condensed by the evaporator, heated by the condenser, and further heated by the heater unit 7 as necessary, and sent to the air passage 6. It The condensed water is discharged to the outside via a drain duct (not shown). The drying process may be performed until the drying operation is finished by the stop operation from the operation panel 12 or the CPU 23. In the first embodiment, the drying process is terminated when the CPU 23 determines that the above condition is satisfied, not the stop operation by the user from the operation panel 12.

(Processing for controlling the end of the drying process)
FIG. 5 is a flowchart showing an outline of processing for controlling the end of the drying process according to the first embodiment. The program according to this flowchart is stored in the ROM 25. The CPU 23 reads the program from the ROM 25 and executes the read program to realize the processing.

  First, the clothes 55 are stored in the drum 3, and the door is closed. Therefore, the inside of the drum 3 is in a sealed state. CPU23 will acquire the parameter for controlling a drying process, if a drying process is started (step S1).

  The parameters include the weight W2 (unit: gram) of the clothes 55 that are the objects to be dried in the drum 3. The weight W2 is the weight of the garment 55 actually put into the drum 3. If the clothes 55 do not intentionally contain water, it is considered that the weight W of the clothes 55 in an absolutely dry state and the weight W2 of the clothes 55 actually put into the drum 3 are the same, Drying control according to the amount of clothes is performed from the value of the weight W2. The absolutely dry state means a state in which water is completely removed from the fibers of the clothing 55. In addition, examples of products intentionally moistened include wet cloths and towels, clothes that have been directly water-washed with partial washing, and fibers that are apparently wet to the touch. The weight W2 can be acquired from the measured value by the weight sensor 117 provided in association with the drum 3 or the value input by the user via the operation panel 12, but the acquisition method is not limited to this. The material Q indicates the material of the fiber of the garment 55 (100% cotton, 100% chemical fiber, blended cotton (65%) and chemical fiber (35%), etc.).

  The above-described drying is performed by the drying process control unit 204 (step S3). As a result, the dried and heated gas becomes hot air and is supplied into the drum 3 through the air supply port 31, and the clothes 55 in the drum 3 are gradually dried by the hot air. The gas circulated in the drum 3 is delivered into the air passage 6 via the exhaust port 32.

  The humidity and the temperature inside the drum 3 are respectively detected (measured) by the temperature detection unit 601 and the humidity detection unit 602 arranged in the air passage 6 (step S5). Based on the above parameters, the CPU 23 searches the ROM 25 for the table 251 corresponding to the parameter (material), and reads the temperature t and the humidity H associated with the parameter (weight of the clothing 55) from the table 251 ( Step S7).

  The CPU 23 detects the temperature t read from the table 251 by the temperature detection unit 601 and the humidity read from the table 251 by the humidity detection unit 602 based on the detection values of the temperature detection unit 601 and the humidity detection unit 602. When it is determined that H is detected, it is determined that the condition for ending the drying is satisfied (YES in step S9). In the first embodiment, the temperature t is indicated by the temperature (temperature range) in a predetermined range, and the humidity H is also indicated by the humidity (humidity range) in the predetermined range. Therefore, the CPU 23 compares the detected temperature and humidity of the temperature detection unit 601 and the humidity detection unit 602 with the temperature t and humidity H of the table 251, respectively, and detects the detected temperature within the range of the temperature t based on the comparison result. It is determined whether or not the detected humidity falls within the range of the humidity H. Based on the result of the determination, it is determined whether or not the condition for ending the drying is satisfied.

  When the CPU 23 determines that the detected temperature falls within the range of the temperature T and the detected humidity falls within the range of the humidity H, that is, when the condition for ending drying is satisfied (YES in step S9). The operation of the heat pump unit 8 and the heater unit 7 is stopped (step S11). As a result, the supply of warm air into the drum 3 is stopped, and the drying process ends.

  When the CPU 23 determines that the condition for ending the drying is not satisfied (NO in step S9), the process returns to step S5 to continue the drying process, and the subsequent processes are repeated.

(Data of table 251)
The data of the table 251 searched by the CPU 23 when determining the end of the above-described drying process (step S9) will be described.

  Here, for the sake of explanation, the temperature T and the dryness K representing the temperature and the dryness of the entire clothing 55 are used, respectively. The temperature t and the humidity H of each table 251 are determined by the values of the temperature T and the dryness K at the end of the drying process of the entire clothes 55. Specifically, the temperature t and the humidity H indicate that the temperature T of the entire clothes 55 is appropriate (hereinafter also referred to as a target temperature) after the drying process is started, and the dryness K of the entire clothes 55 is appropriate. The following shows the temperature detected by the temperature detection unit 601 and the humidity detected by the humidity detection unit 602, respectively, when the dryness (hereinafter also referred to as the target dryness) is indicated. When the entire garment 55 has an appropriate temperature and an appropriate degree of dryness, the garment 55 is in an appropriate finished state.

  The dryness K is represented by the formula K = D × (weight W / weight W1). In this equation, the coefficient D indicates a value determined by the material of the clothes 55 (material to be dried), the weight W indicates the weight of the entire clothes 55 in an absolutely dry state, and the weight W1 indicates that the clothes 55 are appropriately dried. The total weight of the garment 55 in degrees is shown. The details of the method for determining the appropriate temperature T corresponding to the above-mentioned target temperature and the appropriate dryness K corresponding to the target dryness will be described later.

  In the present embodiment, the table 251 is, for example, a single table similar to the table 251 corresponding to the material Q in which the fibers of the entire clothing 55 composed of a plurality of fiber structures are composed of 65% cotton and 45% synthetic fiber. The table 251 corresponding to the material Q of 100% cotton composed of the fibrous structure and the table 251 corresponding to the material Q of 100% synthetic fiber composed of a single fibrous structure. In each table 251, the weight of the entire garment 55 is classified in the range of 2 kg to 6 kg (for example, 2 to 3 kg, 3 kg to 4 kg, 4 kg to 5 kg, and 5 kg to 6 kg, respectively). The temperature t and the humidity H are registered.

  Here, regarding the values of the appropriate temperature T and the appropriate dryness K described above, referring to FIG. 6, an appropriate finish state of the clothes 55 by the drying process of the washer / dryer 1 according to the first embodiment is shown. explain. FIG. 6 shows, as an example, a case where the fiber material Q of the entire garment 55 is made of a mixed spinning of 65% cotton and 45% synthetic fiber.

  FIG. 6 shows a two-dimensional coordinate system defined by the coordinate axis of the dryness K (vertical axis) and the coordinate axis of the temperature T (horizontal axis) orthogonal to the coordinate axis. According to an experiment described later, in the drying process of the washer / dryer 1, the coordinate values satisfying the conditions of (1.01 / D ≦ K / D ≦ 1.05 / D) and 45 ° C. ≦ T ≦ 60 ° C. (see FIG. 6 was measured, the garment 55 was in an appropriate finished state. Note that the appropriate finish state is based on the evaluation of the touch feeling of the clothing 55 based on the subjectivity of the user (human), as will be shown in an experiment described later.

  In the experiment, the temperature t detected by the temperature detector 601 and the humidity H detected by the humidity detector 602 when this condition is satisfied are sampled for each weight classification of the clothing 55, and the weight classification is displayed in the table 251 corresponding to the material Q in the weight classification. Correspondingly registered.

  As described above, the CPU 23 ends the drying process when the temperature t and the humidity H in the appropriate finished state based on the subjectivity of the user are detected. Therefore, it is possible to improve the user's evaluation of the feeling of touch of the clothes 55 after drying (“just goodness of warmth”, “goodness of touch”, etc.) as compared with the conventional case. As a result, the user's satisfaction with the dried clothes 55 can be improved.

  According to the above experiment, when the fibers of the entire clothes 55 are 100% cotton in the completely dried fibers, D = 1.08 and K = (1.08 × W) / W1. Similarly, in the case of 100% synthetic fiber, D = 1.004 and K = (1.004 × W) / W1. Further, in the case of the mixed spinning of 65% cotton and 45% synthetic fiber, K = (1.08 × (0.65 × W) + 1.004 × (0.35 × W)) / W1.

[Second Embodiment]
The second embodiment shows a modification of the first embodiment. In the second embodiment, when the clothes 55 include a towel (100% cotton), the target dryness includes the target dryness of the towel, and the target temperature includes the target temperature of the towel. In the second embodiment, the data in the table 252 is referred to in order to determine that the dry state of the towel has become an appropriate finished state in the drying process, that is, in order to determine whether or not to finish the drying process. It

  With reference to FIG. 7, an appropriate finish state of the clothes 55 including towels by the drying process of the washer / dryer 1 according to the second embodiment will be described. FIG. 7 shows a case where the garment 55 includes a plurality of towels and the weight of the towel 55 occupies approximately 13% or more and 30% or less of the total weight of the garment 55. As an example, the towel included in the garment 55 is 100% cotton, the size is about 34 cm, the length is about 85 cm, and the weight in the absolutely dry state is about 90 g or more and 110 g or less.

  FIG. 7 is a diagram showing a two-dimensional coordinate system defined by a coordinate axis of dryness K1 (vertical axis) and a coordinate axis of temperature T1 (horizontal axis) orthogonal to the coordinate axis. According to an experiment by the inventor, in the drying process of the washer / dryer 1, a combination of the dryness K1 and the temperature T1 (K1, T1) of a plurality of towels is set as a point A (1.045, 45 ° C.), point B (1.045, 50 ° C.), point C (1.075, 65 ° C.) and point D (1.075, 45 ° C.) within the region (shaded area in FIG. 7) When the coordinate values were measured, the towel on the garment 55 was in an appropriate finished state.

  In the experiment, the temperature t detected by the temperature detection unit 601 and the humidity H detected by the humidity detection unit 602 are sampled and registered in the table 252 when this condition is satisfied.

  Also in the second embodiment, the process of FIG. 5 is performed during the drying process. Here, among the processes of FIG. 5, the processes of steps S7 and S11 different from those of the first embodiment will be described. The other processes in FIG. 5 are the same as those in the first embodiment, and therefore the description is omitted.

  In step S7 of FIG. 5, the CPU 23 searches the table 252 according to the towel drying mode designated via the operation panel 12 at the start of the drying process, and reads the temperature t and the humidity H. When the temperature H of the table 252 is detected by the temperature detecting unit 601 and the temperature t of the table 251 is detected by the humidity detecting unit 602, the CPU 23 determines that the condition for ending the drying is satisfied (at step S9). If YES, the drying process is finished (step S11).

  Therefore, it is possible to improve the user's evaluation of the feel of the towel included in the clothing 55 at the end of the drying process (or after the completion of the drying process) (“just good warmth”, “good feel of the skin”, etc.) compared to the conventional case. be able to. As a result, the user's satisfaction with the dried clothes 55 can be improved.

[Third Embodiment]
The third embodiment shows a modification of the second embodiment. An appropriate finished state corresponding to the value in the shaded area in FIG. 7 is a dry and dry state. However, some users prefer a moist feel even when dry. The third embodiment shows a configuration for meeting such a user's request.

  According to the experiment by the inventor, in the coordinate system of FIG. 7, the regions that meet the demand are points (1.035, 45 ° C.), points (1.035, 70 ° C.), points (1.05, 70 ° C.) It was found that the region is an area ER2 surrounded by three points. FIG. 11 is a diagram showing a region ER2 to which a combination (K, T) of the dryness K and the temperature T for obtaining an appropriate finished state according to the third embodiment is applicable. For reference, FIG. 11 also shows an area ER1 of a combination (K, T) for obtaining an appropriate finished state in the experiment of the second embodiment. In the third embodiment, in the experiment, the temperature t detected by the temperature detector 601 and the humidity H detected by the humidity detector 602 when the combination (K, T) in the region ER2 is detected are sampled, and are stored in the table 253. be registered.

  Also in the third embodiment, the process of FIG. 5 is performed during the drying process. Here, among the processes of FIG. 5, the processes of steps S7 and S11 different from those of the first embodiment will be described. The other processes in FIG. 5 are the same as those in the first embodiment, and therefore the description is omitted.

  In step S7 of FIG. 5, the CPU 23 searches the table 253 and reads the temperature t and the humidity H in accordance with the towel moistening drying mode designated via the operation panel 12 at the start of the drying process. When the humidity H of the table 253 is detected by the temperature detecting unit 601 and the temperature t of the table 251 is detected by the humidity detecting unit 602, the CPU 23 determines that the condition for ending drying is satisfied (at step S9). If YES, the drying process is finished (step S11).

Therefore, in the touch feeling of the towel included in the clothes 55 at the time of (or after) the drying process, “softness” and “moistness” are increased as compared with the finished state of the second embodiment, and therefore, the moist feeling is increased. The user's satisfaction can be improved for the user who likes the finished finish.

[Experiment for evaluation of touch]
In order to evaluate the touch feeling of the clothing 55 of each embodiment, the inventor evaluated the touch feeling of the clothing 55 for a total of 10 points of the combination (K, t) of the dryness K of the entire clothing 55 and the temperature t. The clothing 55 that was the subject of the evaluation included a towel, and this towel was used as the subject to evaluate the touch feeling. The point with the highest score out of the 10 points was set as the reference point (corresponding to the reference point M in FIG. 6). Then, in order to evaluate the touch feeling of the reference point M, an experiment comparing the touch feeling evaluation of the reference point M and the touch feeling evaluations of Examples 1 to 4 described later was conducted. Further, in order to evaluate the touch feeling according to Examples 1 to 4, an experiment comparing the touch feeling evaluation of the reference point M with Comparative Examples 1 to 5 described later was also performed.

  For each embodiment, in order to evaluate the touch feeling of the towel taken out from the clothes 55 dried by the washer / dryer 1, the inventor has determined the average dryness value K ′ and the temperature of the six taken out towels. The touch feeling of the towel was evaluated for a total of 10 points of the combination (K ', t') of the average value t '. The point with the highest score out of the 10 points was set as the reference point (corresponding to the reference point N in FIG. 7). Then, in order to evaluate the touch feeling of the reference point N, an experiment was conducted in which the touch feeling of the reference point N was evaluated and in comparison with Examples 5 to 8 described later. In addition, in order to evaluate the touch feeling according to Examples 5 to 8, an experiment comparing the touch feeling evaluation at the reference point N with Comparative Examples 6 to 10 described later was also performed.

  Hereinafter, these comparison experiments will be described. In FIG. 6, the reference point M and each combination (K, T) of Examples 1 to 4 are indicated by points P to S. Further, each combination (K, T) of Comparative Examples 1 to 5 is shown by points v1 to v5. Further, in FIG. 7, the reference point N and each combination (K1, t1) of Examples 5 to 8 are indicated by points A to D. Further, each combination (K1, t1) of Comparative Examples 6 to 10 is shown by points v6 to v10.

  The (K, T) of the reference point M is (1.03, 50 ° C.). (K1, t1) of the reference point N is (1.06, 50 ° C.).

  The conditions of each of the above embodiments will be described. The finish of the entire garment 55 of Example 1 is point P (1.01, 45 ° C.), the finish of the entire garment 55 of Example 2 is point Q (1.01, 60 ° C.), and the finish of Example 3 The finish of the entire clothing 55 is point R (1.05, 60 ° C.), and the finish of the entire clothing 55 of Example 4 is point S (1.05, 45 ° C.).

  Further, the finish of the towel of Example 5 is point A (1.045, 45 ° C), the finish of the towel of Example 6 is point B (1.045, 50 ° C), and the finish of the towel of Example 7 is The finish is point C (1.075, 65 ° C), and the finish of the towel of Example 8 is point D (1.075, 45 ° C).

  The conditions of each of the above comparative examples will be described. The finish of the entire garment 55 of Comparative Example 1 is point v1 (1.01, 40 ° C.), and the finish of the entire garment 55 of Comparative Example 2 is point v2 (1.00, 60 ° C.) The finish of the entire garment 55 is point v3 (1.04, 65 ° C), and the finish of the entire garment 55 of Comparative Example 4 is point v4 (1.06, 60 ° C). The finish is point v5 (1.06, 40 ° C.).

  Further, the finish of the towel of Comparative Example 6 is point v6 (1.035, 40 ° C), and the finish of the towel of Comparative Example 7 is point v7 (1.04, 55 ° C), which is the same as that of the towel of Comparative Example 8. The finish is point v8 (1.055, 65 ° C), the finish of the towel of Comparative Example 9 is point v9 (1.055, 65 ° C), and the finish of the towel of Comparative Example 10 is point v10 (1.07). , 40 ° C).

(About evaluation contents)
In the experiment, eight males and eight females were subjected to 10 different drying processes, and the touch of the entire clothes 55 finished by each drying process and the towel extracted from the clothes 55 The touch was evaluated. As shown in FIG. 8, the evaluation contents are “just goodness of warmth”, “goodness of touch”, “softness”, “dry and wet feeling”, and “softness” classified in items 1 to 5. .

  The evaluation method of the contents of items 1 to 5 is subjective evaluation by subjectivity of each subject. That is, as the evaluation method, VSA (Visual Analogue Scale) used to evaluate the strength of the sense / emotion was used. In this evaluation method, one straight line showing the worst sensation at one end and the best sensation at the other end is marked on one straight line, which is adapted to the strength of the sensation / emotion for the evaluation content felt by the subject at that time. By measuring the length from the mark position to one end, the subjective sensation is quantified and evaluated by scores.

(Experiment for Embodiment 1)
In the experiment, in the washing / drying machine 1, four points P to S in FIG. 6, five points indicated by points v1 to v5, and a total of 10 points of dryness and temperature combinations (K, T) are detected. As described, ten drying steps were performed. At the end of each drying step, the touch of the entire garment 55 was evaluated with respect to the evaluation items 1 and 2 “just good warmth” and “good touch”.

  The inventor determined the reference point based on the evaluation results (evaluation score) of the evaluation items 1 and 2 when each subject touches the entire clothing 55 that has completed each drying process. Specifically, from the above 10 points, the point with the highest total score of the evaluation items 1 and 2 “just warmth” and “goodness of touch” for each evaluation content is extracted, and this is used as the standard. It was a point. According to this experiment, the extracted reference point was point M (1.03, 50 ° C.) in FIG.

(results of the experiment)
FIG. 9 is a diagram showing a result of comparison of the subjective evaluation of the subject by the experiment for the first embodiment. In FIG. 9, the result of comparing the subjective evaluation of the touch feeling between the reference point M and the four points P to S of Examples 1 to 4, and the reference point M and the points v1 to v5 of Comparative Examples 1 to 5 are shown. The results of comparing subjective evaluation with points are shown. When the significance level is 5% and there is no significant difference with respect to the reference point M, that is, when the score with a high evaluation score is “◯” and the significance probability is less than 10% and the score is lower than the reference point M and there is a tendency of difference. Is indicated by “Δ”, the significance level is set to 5% or less, and the case where the score is lower than the reference point M and there is a significant difference is indicated by “x”.

  As a result, when the drying of the entire garment 55 is finished at four points P to S in Examples 1 to 4, the criteria for each evaluation content of “just goodness of warmth” and “goodness of touch” No significant difference was seen with point M, and the evaluation was high. At points v1 to v5 of Comparative Examples 1 to 5, the score was lower than that of the reference point M, and the score difference tended to be different, or there was a significant difference. Therefore, high evaluation could not be obtained. From the results of such an experiment, the inventor found that the combination (K, T) of the target dryness and the target temperature within the region surrounded by the points P to S in FIG. 6 (hatched portion in FIG. 6) was obtained. It has been found that if the finish of the entire garment 55 is set, the subjective feeling of the user with respect to the "goodness of warmth" and "good feel of the skin", that is, an appropriate finished state can be obtained. Further, according to FIG. 9, it has been found that the critical significance regarding the value of the region surrounded by the points P to S is also shown.

(Experiment for Embodiment 2)
In the experiment, in the washer / dryer 1, the clothes 55 including the six towels having the size shown in the second embodiment were dried. In order to detect the combination of temperature and dryness (K1, T1) at 4 points of points A to D in FIG. 7, 5 points indicated by points v6 to v10, and a total of 10 points N, 10 combinations are detected. A drying process was performed. At the end of each drying process, the subject is made to touch the towel extracted from the dried clothes 55, and “just the warmth”, “the nice touch”, “softness”, and “dry and wet” shown in the evaluation items 1 to 5 in FIG. Subjective evaluation was performed for each evaluation content of "feel" and "softness". As a result, with respect to all the evaluation contents in FIG. 8, the point having the highest total score of the average scores was used as the reference point. The reference point was point N (1.06, 50 ° C.) in FIG. 7.

(results of the experiment)
FIG. 10 is a diagram showing a result of comparison of subjective evaluations of subjects by an experiment for the second embodiment. It is a figure which shows the result of subjective evaluation. In FIG. 10, the results obtained by comparing the subjective evaluations of the touch feeling with the reference point N and the four points A to D of Examples 5 to 8 and the reference point N and the points v7 to v11 of Comparative Examples 6 to 10. The result of comparing the subjective evaluation of the touch feeling with 5 points is shown. When the significance level is set to 5% and there is no significant difference with respect to the reference point N, that is, a point with a high score is "○", and the probability is less than 10% and the score is lower than the reference point N and there is a tendency of difference. “Δ”, when the significance level was 5% or less and the score was lower than the reference point N and there was a significant difference, it was indicated by “x”.

  As a result, when the towels included in the clothing 55 are dried at the four points A to D in Examples 5 to 8, there is no significant difference from the reference point N for each evaluation content shown in FIG. It was not seen and was highly evaluated. At points v6 to v10 of Comparative Examples 6 to 10, the scores were lower than the reference point N, and the score difference tended to be different, or there was a significant difference, so high evaluation could not be obtained. From the results of such an experiment, the inventor puts on the garment 55 so that the combination (K1, T1) of the target dryness and the target temperature within the area surrounded by the points A to D (the hatched portion in FIG. 7) is obtained. It has been found that setting the finish of the included towel improves the subjective feeling of the user for all of the evaluation items shown in FIG. 8, that is, an appropriate finish state of the towel can be obtained. Further, according to FIG. 10, it was found that the critical significance regarding the value of the area surrounded by the points A to D is also shown.

  In each of the embodiments, the laundry to be dried is exemplified as the clothes 55, but bedding such as a futon may be used. Further, although the drum type washer / dryer 1 is given as an example of a device having a drying function, it may be a vertical type washer / dryer, or a dryer (a large-sized dryer or a futon used in a household dryer or a coin laundry). Dryer) or the like.

(Configuration of Embodiment)
The electric device (washer / dryer 1) heats and dries a control unit (CPU 23) for controlling the electric device, a tank (drum 3) for accommodating an object to be dried (55), and gas. A warm air supply unit (air passage 6, heater unit 7, heat pump unit 8) for blowing the heated and dried gas into the tank through the air supply port, and a gas delivered from the tank through the exhaust port. A humidity detection unit 602 that detects the humidity of the above, and a temperature detection unit 601 that detects the temperature of the gas sent from the inside of the tank through the exhaust port. The controller is configured such that, after the heating and drying of the gas by the warm air supply unit is started, the humidity detected by the humidity detector is a predetermined humidity, and the temperature detected by the temperature detector is a predetermined temperature. When, the hot air supply unit is controlled so as to stop heating and drying.

  This makes it possible to stop heating and drying when the finished state of the material to be dried is such that the predetermined humidity and temperature of the gas delivered through the exhaust port are detected. Therefore, it is necessary to prevent the finished state of the material to be dried from not satisfying predetermined humidity and temperature conditions (for example, insufficient drying (wet) of the material to be dried, excessive drying, high temperature). You can

  The above-mentioned predetermined humidity and temperature are sent from the inside of the tank through the exhaust port when the dryness of the material to be dried in the tank is the target dryness and the temperature of the material to be dried is the target temperature. The humidity and temperature of the gas to be generated.

  Accordingly, when the dryness of the material to be dried reaches the target dryness and the temperature thereof reaches the target temperature, the heating of the inside of the tank and the blowing of the dried warm air can be stopped. Therefore, it is possible to prevent the material to be dried from being overdried or having a high temperature.

  The target dryness K satisfies the condition (1.01 / D ≦ K / D ≦ 1.05 / D), and the target temperature T satisfies the condition (45 ° C. ≦ T ≦ 60 ° C.). D represents a coefficient determined by the material of the material to be dried, W represents the weight of the material to be dried in an absolutely dry state, and W1 represents the weight when the dryness of the material to be dried is the target dryness. In, the target dryness K is represented by K = (DW / W1).

  Therefore, by defining an area with a certain degree of drying and a certain temperature for the material to be dried after drying, the rugged feeling due to the overdry state is eliminated (that is, it is dried in a state containing an appropriate amount of water). Can be maintained), and good touch can be maintained. Further, by defining the temperature in a certain region, it is possible to provide the user with a good finish due to the warm feeling of the material to be dried. By defining such a range of dryness and temperature, it is possible to enhance satisfaction with the finish of drying. Specifically, with such a configuration, the dried object to be dried can improve the user's satisfaction in terms of "just warmth" and "feeling of touch".

  The above target dryness and target temperature indicate the target dryness and the target dryness of the towel, respectively. A combination of the target dryness K1 of the towel and the target temperature T1 of the towel (K1, T1) when the material to be dried contains towels in a ratio of approximately 13% to 30% with respect to the total weight of the material to be dried (K1, T1). Is a point A (1.045, 45 ° C.), a point B (1.045, 50 ° C.) in a coordinate system defined by the coordinate axis of the target dryness K1 and the coordinate axis of the towel target temperature T1 orthogonal to the coordinate axis. The coordinates (hatched portion in FIG. 7) in the region surrounded by the point C (1.075, 65 ° C.) and the point D (1.075, 45 ° C.) are shown.

  Therefore, in the finished state after drying the towel included in the material to be dried, it is possible to achieve the finished state in which the target dryness and the target temperature are achieved.

  The warm air supply unit includes a gas flow channel (6) and a heating / drying unit (7, 8) provided in the flow channel and configured to heat and dry the gas in the flow channel. One end of the flow path is connected to the air supply port and the other end of the flow path is connected to the exhaust port.

  Therefore, a gas circulation path that connects the flow path, the heating / drying unit, and the inside of the tank is formed, and the heated and dried gas can be supplied into the tank while circulating the gas through the circulation path.

  The humidity detecting unit and the temperature detecting unit are arranged on the exhaust port side in the flow path. Therefore, it is possible to measure the humidity and temperature in the tank (more specifically, in the tank containing the material to be dried) by detecting the humidity and temperature on the side closer to the inside of the tank in the flow path. It will be possible. As a result, it becomes possible to more accurately determine whether or not to stop the warm air supply unit.

  The heating / drying unit includes a heat pump unit (heat pump unit 8) and a heating device (heater unit 7). Therefore, it is possible to send a drier gas into the tank (supplying warm air).

  Moreover, in the embodiment, a method for controlling an electric device (washer / dryer 1) is provided. The electric device heats and dries the tank (drum 3) for storing the material to be dried (clothes 55), and blows the heated and dried gas into the tank through the air supply port. And a warm air supply unit (blower path 6, heater unit 7, heat pump unit 8). The control method includes the steps of detecting the humidity of the gas sent from the inside of the tank through the exhaust port, detecting the temperature of the gas sent from the inside of the tank through the exhaust port, and heating the gas by the hot air supply unit. And when the humidity of the gas delivered through the exhaust port is a predetermined humidity after the drying is started and the temperature is a predetermined temperature, the hot air is supplied so as to stop the heating and the drying. Controlling the unit.

  The embodiment disclosed this time is an example, and the present invention is not limited to the above description. The scope of the present invention is shown by the claims, and is intended to include meanings equivalent to the claims and all modifications within the scope.

  1 washer / dryer, 2 washing tub, 3 drum, 5 control circuit, 6 air passage, 7 heater part, 8 heat pump part, 12 operation panel, 22 microcomputer, 31 air inlet, 50 air blower, 55 clothes, 117 weight sensor , 204 drying process control unit, 251, 252, 253 table, 601 temperature detecting unit, 602 humidity detecting unit, H humidity, K, K1 dryness, M, N reference point, T, T1, t temperature, W, W1, W2 weight.

Claims (4)

Electrical equipment,
A control unit for controlling the electric device,
A tank for storing the material to be dried,
A hot air supply unit for heating and drying the gas, and supplying the heated and dried gas to the inside of the tank through the air supply port,
A humidity detector for detecting the humidity of the gas sent from the tank through the exhaust port,
A temperature detection unit for detecting the temperature of the gas delivered from the tank through the exhaust port,
A storage unit that stores a target humidity and a target temperature for drying the object to be dried at a target dryness and a target temperature ,
The storage unit stores the target humidity and the target temperature for each material and weight of the material to be dried,
The control unit is
Reading the target humidity and the target temperature corresponding to the material and weight of the material to be dried from the storage unit,
After the heating and drying of the gas by the warm air supply unit is started, the humidity detected by the humidity detection unit is the target humidity, and the temperature detected by the temperature detection unit is the target temperature, An electric device that controls the warm air supply unit to stop the heating and drying. The target dryness K satisfies the condition (1.01 / D ≦ K / D ≦ 1.05 / D), and the target temperature T satisfies the condition (45 ° C. ≦ T ≦ 60 ° C.),
The target dryness K is represented by K = (DW / W1) (where D is a coefficient determined by the material of the material to be dried, W is the weight of the material to be dried in an absolutely dry state, and W1 indicates a weight when the dryness of the material to be dried is the target dryness), and the electric device according to claim 1. The target dryness and the target temperature indicate the target dryness and the target temperature of the towel,
When the material to be dried contains the towel in a ratio of approximately 13% to 30% with respect to the total weight, the combination (K1, T1) of the target dryness K1 of the towel and the target temperature T1 of the towel is: A point A (1.045, 45 ° C.), a point B (1.045, 50 ° C.) in the coordinate system defined by the coordinate axis of the target dryness K1 and the coordinate axis of the target temperature T1 of the towel orthogonal to the coordinate axis. The electric device according to claim 1, which indicates coordinates in a region surrounded by a point C (1.075, 65 ° C) and a point D (1.075, 45 ° C). The warm air supply unit,
A gas flow path,
A heating and drying unit provided in the flow channel and for heating and drying the gas in the flow channel,
One end of the flow path is connected to the air supply port and the other end of the flow path is connected to the exhaust port,
The humidity detector and the temperature detector are arranged on the exhaust port side in the flow path,
The electric device according to any one of claims 1 to 3, wherein the heating and drying unit includes a heat pump unit and a heating device.

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