JP5597373B2 - Clothes dryer - Google Patents

Description

  The present invention supplies warm air to a drying chamber containing clothes, heat-exchanges the exhaust discharged from the drying chamber by a heat exchanging means, dehumidifies, and warms the air after dehumidification again to warm the drying chamber. It is related with the clothes dryer of the structure which dries the said clothing by circulating so that it may supply.

  In this type of clothes dryer, for example, a laundry dryer that can perform from washing to drying, cooling water is used as a heat exchange means, and the exhaust discharged from the drying chamber is cooled with the cooling water so as to be dehumidified. There is something that was made. In this case, the determination as to whether or not the clothes are dried is, for example, by detecting the temperature of the cooling water after heat exchange by means of the heat exchange temperature detecting means and judging using the heat exchange temperature, or For example, the temperature of exhaust gas exhausted from the drying chamber is detected by an exhaust temperature detection means, and the exhaust temperature is used to make a determination (see, for example, Patent Document 1).

JP 2001-218994 A

  When drying clothes with the clothes dryer (washing dryer) as described above, depending on the user, not only drying clothes in the state of a dehydrated compress, but also, for example, semi-dry clothes that have been sun-dried, Clothes that are almost dry but slightly moistened, and clothes that are felt to be insufficiently dried during drying may be dried. However, with conventional products, when clothes that are almost dry are dried, they may be in a state of being dried too much (overdrying).

  The present invention has been made in view of the above circumstances, and an object of the present invention is to provide a clothes washing machine that can prevent overdrying even when clothes that are almost dry are dried.

In order to achieve the above-described object, the present invention supplies hot air to a drying chamber containing clothing, dehumidifies the exhaust discharged from the drying chamber by heat exchange using a heat exchanging means, and dehumidified air. In the clothes dryer configured to dry the clothes by warming the air again and supplying it to the drying chamber, the clothes dryer is discharged from the drying chamber until a predetermined judgment time elapses after starting the drying operation. Dry cloth detection means for determining that the clothing is dried from the dry cloth when the temperature difference between the exhaust temperature and the heat exchange temperature after heat exchange by the heat exchange means is equal to or greater than a reference value And heating means for generating hot air to be supplied to the drying chamber, and control means, and the control means performs drying in the case of normal drying in which the dry cloth detection means does not determine that the dry cloth is dried. After detecting that it has entered the state, before A finishing operation is performed in which the heating degree of the heating means is weaker than that at the time of normal drying, and then the drying operation is controlled after the cooling operation for cooling the drying chamber is performed. Even when the drying operation is judged to be dry from the dry cloth and the drying operation is terminated at an early stage, the drying operation is controlled after the finishing operation and the cooling operation are performed as in the case of the normal drying. It is characterized by.

  The difference in temperature difference between the exhaust temperature and the heat exchange temperature differs between when drying from a compress and when drying from a dry cloth that is almost dry. Specifically, when drying from a dry cloth, the temperature difference between the exhaust temperature and the heat exchange temperature tends to be larger than when drying from a compress. Therefore, in the present invention, paying attention to this point, when the temperature difference between the exhaust temperature and the heat exchange temperature becomes equal to or higher than a predetermined temperature after the start of the drying operation, a predetermined judgment time elapses. By determining that it is dry, it is possible to prevent overdrying.

  When the temperature difference between the exhaust temperature and the heat exchange temperature is equal to or higher than a predetermined temperature before the predetermined determination time has elapsed after the start of the drying operation, it is determined that the drying is performed from the dry cloth. This makes it possible to prevent overdrying even when clothes that are almost dry are dried.

Flowchart of drying operation showing one embodiment of the present invention Longitudinal side view of washer / dryer Vertical side view of the exhaust temperature sensor and heat exchanger temperature sensor mounting part Block diagram showing electrical configuration The figure which shows the relationship between initial outside air temperature and the reference value of temperature difference for dry cloth detection judgment (reference value of temperature difference between exhaust temperature and heat exchange temperature) The figure which shows the relation between the weight detection result and the limit time for dry cloth detection judgment The figure which shows an example of the temperature change at the time of drying a compress The figure which shows an example of the temperature change at the time of drying a dry cloth

  Hereinafter, an embodiment in which a clothes dryer of the present invention is applied to a drum-type washing dryer will be described with reference to the drawings. First, in FIG. 2 showing a longitudinal side view of the drum type washing and drying machine, the outer box 1 has a rectangular box shape, and a water tank 2 is elastically placed inside the outer box 1 via an elastic support mechanism 3. It is arrange | positioned in the state supported by. The aquarium 2 has a horizontal cylindrical shape in which the axial direction is the front-rear direction (left-right direction in FIG. 2), and in this case, the water tank 2 is disposed in an oblique axis state in which the axial direction rises forward. The rear surface of the water tank 2 is closed. A drum 4 is rotatably disposed inside the water tank 2. The drum 4 also has a horizontal-axis cylindrical shape with the rear surface side (left side in FIG. 2) closed, and is arranged coaxially with the water tank 2 (front-up oblique axis state). The drum 4 has a large number of small holes 5 serving as ventilation holes and dewatering holes on the peripheral wall and the rear wall, and also functions as a washing tub, a dewatering tub, and a drying tub. The interior of the drum 4 is a drying chamber.

  A clothing entrance 6 is formed at a substantially central portion of the front portion (right side in FIG. 2) of the outer box 1, and a door 7 for opening and closing the clothing entrance 6 is provided. The opening 8 on the front surface of the water tank 2 and the clothing entrance 6 are connected by an annular bellows 9 (only a part is shown in FIG. 2). The opening 10 on the front surface of the drum 4 communicates with the clothing entrance 6 through a bellows 9. Therefore, the drum 4 accommodates clothes (not shown) through the clothes entrance 6 so as to be put in and out.

  A motor 11 is attached to a substantially central portion of the back surface of the water tank 2. The motor 11 is composed of, for example, a direct current brushless motor and is of an outer rotor type. The stator is fixed to the back portion of the water tank 2 and the rotor 12 is rotatably provided outside the stator. A rotating shaft 13 is provided at the center of the back portion of the drum 4, and a rear end portion of the rotating shaft 13 passes through the water tank 2 and is connected to the rotor 12. Therefore, the drum 4 is directly rotated by the rotor 12 of the motor 11. The motor 11 constitutes a rotation driving unit for the drum 4.

  A drain valve 14 and a drain hose 15 are connected to the bottom of the water tank 2, and when the drain valve 14 is opened, water in the tank 2 is discharged outside the machine through the drain hose 15. A circulation pump 16 is disposed below the water tank 2. The circulation pump 16 sucks water in the water tank 2 through a water absorption hose 17 and pumps it through a water supply hose 18. A nozzle 19 at the tip of the water supply hose 18 faces the inside of the water tank 2 (inside the drum 4) from the opening 8 of the water tank 2, and the water pumped from the circulation pump 16 is discharged from the nozzle 19 into the drum 4. It has become so.

  A heat exchanger 21 that constitutes heat exchange means is disposed on the back of the water tank 2. The heat exchanger 21 has a hollow duct shape as a whole, and is disposed on one side (right side as viewed from the front) of the motor 11. The lower part is the rear part of the water tank 2 as shown in FIG. The water tank 2 communicates with an exhaust port 22 formed in the lower part.

  Above the water tank 2, a blower device 23 is disposed on the rear side, and a heating device 24 is disposed on the front side thereof. Among these, the blower 23 includes a fan casing 25, a blower blade 26 disposed inside the fan casing 25, and a fan motor 27 (see FIG. 4) that rotationally drives the blower blade 26. Has been. A rear inlet of the fan casing 25 is connected to the upper portion of the heat exchanger 21 via a connection duct 28. The heating device 24 has a configuration in which a heater 30 as a heating means for generating hot air is provided inside the case 29, and the rear portion of the case 29 is connected to the discharge port at the front portion of the fan casing 25. The air supply duct 31 is connected to the front part of the. The air supply duct 31 has its tip end connected to the upper part of the water tank 2 and faces the water tank 2 (in the drum 4).

  Here, the heat exchanger 21 communicated with the inside of the water tank 2, the connection duct 28, the fan casing 25 of the blower 23, the case 29 of the heating device 24, and the air supply duct 31 constitute a circulation air passage 32. doing. The circulation air passage 32, the blower 23, and the heating device 24 constitute hot air supply means for supplying hot air into the drum 4 constituting the drying chamber.

  Above the water tank 2, a water injection case 34, a water level sensor 35, a water supply valve unit 36, and the like are further provided. Among these, although not shown in detail in the water injection case 34, the detergent case 34a with which a user takes in / out is provided. The water injection case 34 is connected to the water tank 2 via a connection hose 38. The water level sensor 35 is an air pressure that responds to changes in the water level in the water tank 2 via an air tube 39 piped from the lower part of the water tank 2, and thus in the drum 4 communicated with the water tank 2 through the small hole 5. It is detected by the change of.

  The water supply valve unit 36 includes a common water inlet valve 36 and a heat exchanger water supply valve 41 and a common inlet 36 a so that the inlet 36 a is connected to a water faucet via a water hose (not shown). It has become. The outlet portion of the water supply valve 40 is connected to the water injection case 34 via a connection hose 42, and the outlet portion of the heat exchange water supply valve 41 is connected to the upper portion of the heat exchanger 21 via a connection hose 43. Has been.

  In this case, when the water supply valve 40 is opened, tap water is supplied into the water tank 2 and eventually into the drum 4 via the connection hose 42, the water injection case 34, and the connection hose 38. In addition, when the detergent is put into the detergent case 34 a of the water injection case 34, the detergent is also supplied into the water tank 2 and eventually into the drum 4 along with the water supply to the water tank 2. Further, when the heat exchange water supply valve 41 is opened, tap water is supplied into the heat exchanger 21 through the connection hose 43 and flows down in the heat exchanger 21, and heat exchange is performed on the flowing down water. Water vapor in the air passing through the inside of the vessel 21 is touched, cooled, and condensed to be dehumidified. The water flowing down in the heat exchanger 21 once enters the water tank 2 from the exhaust port 22 at the lower rear part of the water tank 2, and is discharged outside the apparatus through the drain valve 14 and the drain hose 15.

  As shown in FIG. 3, an exhaust temperature sensor 45 (exhaust temperature detection element) is provided in the vicinity of the exhaust port 22 of the water tank 2, and a heat exchange temperature sensor 46 (heat exchange temperature) is provided below the heat exchanger 21. Detection element) is provided. Among these, the exhaust temperature sensor 45 is disposed at a position where it is easy to detect the temperature of the exhaust discharged from the drum 4 (drying chamber) during the drying operation. The heat exchanger temperature sensor 46 is disposed at a position where it is easy to detect the temperature of the cooling water after flowing through the heat exchanger 21 during the drying operation and exchanging heat with the exhaust discharged from the drum 4 (drying chamber). ing. The exhaust temperature sensor 45 and the heat exchange temperature sensor 46 are composed of a thermistor.

  An operation panel 47 is provided in the upper part of the front surface of the outer box 1 in the vicinity of the water injection case 34, and an operation circuit unit 48 is provided on the back side of the operation panel 47. The operation panel 47 is provided with an operation unit 49 such as an operation switch and a display unit 50 (both see FIG. 4). A control circuit unit 51 is provided at the lower part of the back side of the front surface of the outer box 1.

  FIG. 4 shows a block diagram of an electrical configuration related to the gist of the present invention. In FIG. 4, the control device 52 is composed of, for example, a microcomputer and is provided in the control circuit unit 51. The control device 52 has a function of controlling the overall operation of the washing / drying machine. The control device 52 functions as the control means, dry cloth detection means, and weight detection means of the present invention. In addition to signals from the operation unit 49, the water level sensor 35, the exhaust temperature sensor 45, and the heat exchange temperature sensor 46, the control device 52 also receives signals from the rotation sensor 53, the current sensor 54, and the like. The rotation sensor 53 detects the rotation speed of the motor 11. The current sensor 54 detects a current flowing through the motor 11. Based on these input signals and a control program provided in advance, the control device 52 includes a display unit 50, a buzzer 55, a water supply valve 40, a heat exchange water supply valve 41, a drain valve 14, a motor 11, a fan motor 27, a heater 30, It has a function of controlling the circulation pump 16 and the like.

  Next, the case where clothes are dried by the washing / drying machine having the above-described configuration will be described with reference to FIGS. 1 and 5 to 8. When drying clothes, first, a user accommodates clothes to be dried in the drum 4 and performs an operation for performing a drying operation with the operation unit 49 of the operation panel 47 with the door 7 closed. Based on this, the control device 52 starts the drying operation of FIG.

  First, the controller 52 detects the initial outside air temperature in step S1. In this case, the control device 52 detects and stores the detected temperature of the exhaust temperature sensor 45 immediately after the start of the drying operation as the initial outside air temperature. In step S2, the control device 52 sets a reference value for the temperature difference corresponding to the detected initial outside air temperature based on the data table of the initial outside air temperature and the reference value for the temperature difference in FIG. In the data table, the initial outside air temperature is 15 ° C. (less than 15 ° C.), 15 ° C. to 25 ° C. (15 ° C. or more and less than 25 ° C.), 25 ° C. to 35 ° C. ~ (35 ° C or higher). The reference value of the temperature difference in the data table is a reference value of a temperature difference between an exhaust temperature detected by an exhaust temperature sensor 45 described later and a heat exchange temperature detected by the heat exchange temperature sensor 46. For example, when the initial outside air temperature (the temperature detected by the exhaust temperature sensor 45) is 20 ° C., the reference value for the temperature difference is set to 45 ° C.

  Next, the control device 52 performs weight detection control for detecting the weight of the clothing housed in the drum 4 (step S3). In this case, the control device 52 rapidly rotates the drum 4 by the motor 11 (for example, rotates it to 170 rpm), detects the current value flowing through the motor 6 during the rapid rotation by the current sensor 54, and detects the detected current. The weight of the clothing is detected (determined) based on the value. In step S4, the control device 52 determines a limit time corresponding to the weight detection result detected in step S3 based on the weight detection result in FIG. 6 and the data table of the dry cloth detection determination limit time. In this case, the weight detection is -2.0 kg (less than 2.0 kg), 2.0 kg-4.0 kg (2.0 kg or more to less than 4.0 kg), 4.0 kg-6.0 kg (4.0 kg or more- (Less than 6.0 kg) and 6.0 kg to (6.0 kg or more). For example, if the weight detection result is 5.0 kg (between 4.0 kg and 6.0 kg), the time limit for dry cloth detection determination is set to 70 minutes.

  Next, in step S5, the control device 52 determines whether or not the elapsed time after starting the drying operation has reached the dry cloth detection determination limit time set in step S4. In step S6, the process proceeds to step S6. In step S6, it is determined whether the temperature difference between the exhaust temperature (detection temperature of the exhaust temperature sensor 45) and the heat exchange temperature (detection temperature of the heat exchange temperature sensor 46) is equal to or greater than the reference value set in step S2. If the reference value has not been reached, the process proceeds to step S7 according to “NO”.

  In step S7, normal drying control is executed. In the normal drying control, in order to dry the clothes accommodated in the drum 4, the drum 4 is rotated by the motor 11, the blower 23 and the heating device 24 are driven, and the heat exchange water supply valve 41 is further turned on. Open. Among these, as the drum 4 rotates, the clothing in the drum 4 is repeatedly lifted and dropped. Further, as the blower 23 and the heating device 24 are driven, the air heated by the heater 30 of the heating device 24 is warmed, and the warm air is supplied to the air supply duct as shown by an arrow A in FIG. It is supplied to the inside of the water tank 2 and eventually into the drum 4 through 31 to warm the clothes in the drum 4 and deprive the clothes of moisture. The air deprived of moisture from the clothing passes through the small hole 5 of the drum 4 and passes through the water tank 2 (outside the drum 4) and is discharged from the exhaust port 22 at the lower rear part to the heat exchanger 21 side. The exhaust discharged to the heat exchanger 21 side rises in the heat exchanger 21. At this time, as the heat exchange water supply valve 41 is opened, tap water is supplied into the heat exchanger 21 through the connection hose 43 and flows down, and the air (exhaust gas) rising in the heat exchanger 21 is It is cooled (heat exchange) in contact with water (cooling water) flowing down in the heat exchanger 21, and the water vapor contained in the exhaust is condensed and dehumidified. The air dehumidified in the heat exchanger 21 is returned to the fan casing 25 through the connection duct 28, heated by the heater 30, and supplied to the water tank 2 (inside the drum 4). Thereby, the clothes in the drum 4 are dried.

  In step S8, drying is detected when drying from the compress. Here, FIG. 7 shows the exhaust temperature (detected temperature of the exhaust temperature sensor 45), the heat exchange temperature (detected temperature of the heat exchange temperature sensor 46), the exhaust temperature, and the heat exchange temperature when dried from the compress. An example showing a change in the temperature difference between the two is shown. In this case, the determination as to whether or not the clothing has been dried is made when the heat exchange temperature drops by a predetermined temperature Δt from the peak (maximum temperature) in FIG. FIG. 8 shows the exhaust temperature (detected temperature of the exhaust temperature sensor 45) and the heat exchange temperature (detected temperature of the heat exchange temperature sensor 46) when the dry cloth is dried from a dry cloth. An example showing a change in temperature difference between the exhaust temperature and the heat exchange temperature is shown.

  When FIG. 7 and FIG. 8 are compared, the change in the temperature difference between the exhaust temperature and the heat exchange temperature is different between the case of drying from a compress and the case of drying from a dry cloth that is almost dry. Specifically, it can be seen that the temperature difference between the exhaust temperature and the heat exchange temperature tends to be larger than when drying from a dry cloth (see FIG. 8) and when drying from a compress (see FIG. 7). . Therefore, in the present embodiment, paying attention to this point, when the temperature difference between the exhaust temperature and the heat exchange temperature becomes equal to or higher than a predetermined temperature before the predetermined judgment time has elapsed after the start of the drying operation, Judged to be dry.

  If it is determined in step S8 that it is not in a dry state, the process returns to step S5. In the initial stage of the drying operation, steps S5 to S8 are repeated. Then, the controller 52 determines that the temperature difference between the exhaust temperature and the heat exchange temperature is the reference set in step S2 before the elapsed time from the start of the drying operation exceeds the limit time set in step S4. If it is equal to or greater than the value, it is determined that the clothes are dried from the dry cloth and the clothes are in a dry state ("YES" in step S6), and the process proceeds to step S9.

  In step S9, the finishing operation is performed for a predetermined time. The finishing operation is performed to ensure drying, and is the same as the normal drying control except that the heating degree of the heater 30 in the heating device 24 is set to be weaker than that in the normal drying control of Step S7. To do. When the finishing operation is finished, the control device 52 performs the cooling operation. The cooling operation is performed to lower the temperature in the drum 4. The heater 30 in the heating device 24 is turned off, the heat exchange water supply valve 41 is closed, and the operation of the blower device 23 and the rotation of the drum 4 are performed. Continue. This cooling operation is performed until it is determined that the drying operation is finished (step S11). The determination of the end of the drying operation is made based on whether or not the temperature of the exhaust from the drum 4 (the temperature detected by the exhaust temperature sensor 45) has become, for example, 60 ° C. or less. 60 ° C. is a temperature at which the user does not get burned when taking out the clothes. When it is determined in step S11 that the drying operation has ended, the control device 52 stops the rotation of the drum 4 in step S12, stops the operation of the blower 23, and ends the drying operation.

In the above-described steps S5 to S8, in the case of drying from a compress, as shown in FIG. 7 , the change in the temperature difference between the exhaust temperature and the heat exchange temperature is small, and the dry cloth detection judgment limit time set in step S4 However, the temperature difference reference value set in step S2 is not reached. In such a case, the control device 52 determines that the drying is from the compress and continuously performs the normal drying control. As shown in FIG. 7, the heat exchange temperature reaches a predetermined temperature from the peak (maximum temperature). If it falls [Delta] t, it is determined that it is in a dry state ("YES" in step S8), the process proceeds to step S9, a finishing operation is performed in the same manner as drying from a dry cloth, and then a cooling operation is performed.

  When the controller 52 performs washing, rinsing, and dehydration, and subsequently performing a drying operation, the control device 52 is dried from the compress, and is not dried from the dry cloth. It is set so as not to make a determination as to whether or not it is dry from a dry cloth.

According to the above-described embodiment, the following operational effects can be obtained.
If the temperature difference between the exhaust temperature and the heat exchange temperature exceeds the specified temperature (reference value) before the predetermined judgment time (dry cloth detection judgment limit time) elapses after the drying operation starts, Judged to be dry, and shifted to finishing operation earlier than in the case of drying from a compress. This makes it possible to prevent overdrying when clothes that are almost dry are dried.

  As the heat exchange temperature, the cooling water temperature after the exhaust from the drum 4 is cooled with cooling water (after heat exchange) is used, so that a temperature difference between the exhaust temperature and the heat exchange temperature is likely to occur. It can be judged well whether or not the drying is from. For example, when the exhaust from the drum 4 is cooled with cooling air instead of cooling water (so-called air cooling), the heat exchange temperature is the temperature of the air after cooling the exhaust (after heat exchange). Can also be used.

  Since the control device 52 constituting the dry cloth detecting means changes the reference value of the temperature difference according to the outside air temperature at the initial stage of the drying operation, it is possible to prevent erroneous detection of the dry cloth detection. In addition, the control device 52 detects the weight of the clothing and changes the length of the determination time (the dry cloth detection determination limit time) according to the detected weight. This makes it possible to prevent false detections.

  When the controller 52 determines that it is drying from the dry cloth and ends the drying operation early, the drying operation is ended after the cooling operation for cooling the drum 4 constituting the drying chamber is performed. It is possible to prevent the user from being burned when taking out the dried clothes. Further, when the control device 52 determines that the drying is performed from the dry cloth and ends the drying operation early, after performing the finishing operation in which the heating degree of the heater 30 in the heating device 24 is weaker than that during normal drying. Since the drying operation is terminated, the clothes can be surely dried even when dry cloth is detected.

The present invention is not limited to the above-described embodiment, and can be modified or expanded as follows.
The present invention is not limited to a washing / drying machine that can perform from washing to drying, and can also be applied to a machine that can perform only drying.

  In addition, the heater 30 is exemplified as the heating means for drying, and the water-cooled heat exchanger 21 is exemplified as the dehumidifying means. Can also be used.

  In the drawings, 1 is an outer box, 2 is a water tank, 4 is a drum (drying chamber), 21 is a heat exchanger (heat exchange means), 23 is a blower, 24 is a heating device, 30 is a heater (heating means), 40 Is a water supply valve, 41 is a heat exchange water supply valve, 45 is an exhaust temperature sensor, 46 is a heat exchange temperature sensor, and 52 is a control device (control means, dry cloth detection means, weight detection means).

Claims (4)

Supplying hot air to a drying chamber containing clothes, exchanging heat from the exhaust discharged from the drying chamber by heat exchange means, dehumidifying, and heating the dehumidified air again to warm air and supplying it to the drying chamber In a clothes dryer configured to dry the clothes by circulating in,
The temperature difference between the exhaust temperature discharged from the drying chamber and the heat exchange temperature after heat exchange by the heat exchanging means is greater than or equal to a reference value until a predetermined judgment time has elapsed after the start of the drying operation. A dry cloth detecting means for determining that the clothes are dried from the dry cloth,
Heating means for generating warm air to be supplied to the drying chamber;
With control means,
The control means includes
In the case of normal drying in which the dry cloth detection means is not determined to be dry from the dry cloth , after detecting that the dry state has been reached, the finishing operation in which the heating degree of the heating means is weaker than in normal drying And then controlling to end the drying operation after performing a cooling operation to cool the drying chamber,
Even when the dry cloth detection means determines that the dry cloth is being dried and ends the drying operation early, the drying operation is ended after the finishing operation and the cooling operation are performed as in the case of the normal drying. A clothes dryer characterized by being controlled as follows .   The clothes dryer according to claim 1, wherein the heat exchange temperature is a cooling water temperature after cooling the exhaust with cooling water.   The clothes dryer according to claim 1 or 2, wherein the dry cloth detecting means changes a reference value of the temperature difference according to an outside air temperature. Comprising weight detection means for detecting the weight of the clothing housed in the drying chamber;
The clothes dryer according to any one of claims 1 to 3, wherein the dry cloth detecting means changes the length of the determination time according to the weight detected by the weight detecting means.

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