JP3659836B2 - Drum washing machine - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to a drum type washing machine that houses laundry in a rotating drum and rotates and rotates the rotating drum to perform washing and drying.
[0002]
[Prior art]
Numerous drum-type washing machines have been proposed in which laundry is stored in a rotating drum and the rotating drum is rotated by a driving device to perform washing and drying. This type of washing machine is used in Europe. Is almost. In general, the drum type washing machine can wash laundry by warm air after washing, rinsing, and dehydration.
[0003]
The configuration of a conventional drum type washing machine will be described. FIG. 4 is a schematic view showing the internal configuration of the drum type washing machine as viewed from the front. FIG. 5 is a schematic view showing an internal configuration of the washing machine as viewed from the side, and shows a partial cross section.
[0004]
Reference numeral 1 denotes an outer tub main body of a substantially rectangular parallelepiped washing machine, and 2 denotes a water tub provided in the outer tub main body 1. The water tank 2 is suspended by a vibration isolating mechanism 3 composed of a spring or the like in order to absorb vibration during operation. Further, it is supported from below by a shock absorber 4.
[0005]
A rotating drum 5 is provided in the water tank 2, and its rotating shaft 6 is disposed substantially horizontally. Reference numeral 7 denotes a motor capable of forward and reverse rotation that drives the rotary drum 5 via the rotary shaft 6. A large number of through holes 5 a are formed in the peripheral wall of the rotating drum 5, and water and air can enter and leave the water tank 2. A baffle 5b extending along the axial direction protrudes from the inside of the peripheral wall.
[0006]
The outer tub body 1, the water tub 2, and the rotating drum 5 are open on the front surface, and a packing 8 that communicates with the periphery of the opening (in / out port) 1 a of the outer tub body 1 and the opening 2 a of the water tub 2 is fitted. Yes. A door 9 is attached to the entrance / exit 1a. When the door 9 is closed, the packing 8 is brought into close contact with the periphery thereof, and the water tank 2 is sealed. During operation, the door 9 is locked and cannot be opened.
[0007]
Reference numeral 10 provided in the upper front portion of the outer tub main body 1 is an operation panel provided with operation keys and a display unit. Reference numeral 11 denotes a control device that controls driving of the electric member in accordance with an input of an operation key.
[0008]
As a water supply means of this drum type washing machine, a water supply path 12 connected to a water tap (not shown) is branched into two to constitute a first water supply path 12a and a second water supply path 12b. Valves 13a and 13b are provided. The detergent case 14 located above the water tank 2 is internally divided into a detergent room, a bleaching room, and a softener room (all not shown), and the first water supply path 12a communicates with the detergent room and the bleaching room, The second water supply channel 12b communicates with the softener chamber. A water supply nozzle 15 extends from the detergent case 14, and its tip is located in the rotating drum 5.
[0009]
Further, as a drainage means, a drainage channel 16 extends from the drainage port 2 b at the bottom of the water tank 2, and communicates with the outside of the outer tank body 1 through a filtration case 17. A drain valve 18 is provided on the downstream side of the drainage passage 16 with respect to the filtration case 17. A pump may be used instead of the drain valve 18.
[0010]
In the filtration case 17, a lint filter 19 is attached so as to close the connection port with the drainage channel 16, and foreign matters such as lint and dust can be removed from the drainage. The lint filter 19 may be, for example, a bag shape made of fine fibers or a cage shape made of fine resin lattices, and can be removed from the lower front portion of the outer tub main body 1.
[0011]
In addition, a circulating duct 20 is formed in the water tank 2 as a hot air supply means, and a fan 21 and a heater 22 are provided. When the fan 21 is activated, the air in the water tank 2 is sucked from the air inlet 20a located at the lower part of the water tank 2, heated by the heater 22, and then blown out from the air outlet 20b located at the upper part of the water tank 2.
[0012]
Reference numeral 23 denotes a water level sensor, which is attached to a pipe 25 extending from an air trap 24 provided at the upper part of the filtration case 17. The water level sensor 23 detects the water level in the water tank 2 by measuring the pressure fluctuation in the pipe 25 that fluctuates according to the upper and lower levels of the water level in the water tank 2 with a pressure switch.
[0013]
A temperature sensor 26 is provided at the bottom of the water tank 2. Reference numeral 27 denotes a heater for warming water in the water tank 2.
[0014]
The operation of the conventional drum type washing machine will be described. The user puts laundry in the rotating drum 5 in advance, and puts detergent, bleach, and softener into each chamber of the detergent case 14. Then, the operation is started by operating the keys of the operation panel 10.
[0015]
First, in the washing step, the water supply valve 13a of the first water supply channel 12a is opened to supply water to the detergent chamber and the bleaching chamber of the detergent case 14. The water (washing liquid) containing the detergent and the bleaching agent is sprayed onto the laundry in the rotating drum 5 by the water supply nozzle 15. When the water level sensor 23 detects that the washing liquid has accumulated up to the predetermined water level H in the water tank 2, the water supply valve 13a is closed. Then, the washing liquid is heated to a predetermined temperature by the heater 27. When the temperature sensor 26 detects that the washing liquid has reached a predetermined temperature, the motor 7 is driven to perform washing by rotation of the rotary drum 5.
[0016]
When the rotation of the rotary drum 5 in the washing process is completed, a dehydration process is performed next. In the dehydration step, first, after the drain valve 18 is opened and the washing liquid is discharged, the rotary drum 5 rotates at high speed to dehydrate the laundry. At this time, water from the laundry flows down the side wall of the water tank 2 through the through hole 5a of the rotating drum 5, and is discharged from the drain port 2b. When the dehydration is completed, the drain valve 2b is closed.
[0017]
In the next rinsing step, the water supply valve 13a of the first water supply channel 12a is opened as in the washing step, and water is sprayed from the water supply nozzle 15 to the laundry in the rotary drum 5 through the detergent case 14. When the water level sensor 23 detects that water has accumulated up to the predetermined water level H in the water tank 2, the water supply valve 13a is closed. Then, the rotating drum 5 rotates to perform rinsing, and then the above dehydration process is performed.
[0018]
The rinsing step and the accompanying dehydration step are performed a plurality of times. Among these, only the final rinsing step opens the water supply valve 13b of the second water supply passage 12b and supplies water to the softener chamber of the detergent case 14. The water (rinse liquid) containing the softener is sprayed to the laundry in the rotary drum 5 by the water supply nozzle 15. Then, the same rinsing as in the rinsing step is performed, and then the dehydration step is performed.
[0019]
Finally, in the drying process, the fan 21 and the heater 22 are operated, and hot air blows out from the outlet 20b of the water tank 2. At this time, since the rotating drum 5 rotates, the laundry is efficiently blown with warm air and quickly dried.
[0020]
[Problems to be solved by the invention]
In the conventional drum type washing machine, the washing liquid is warmed so as to obtain a high cleaning effect, and a heater 27 is provided for this purpose. However, the configuration of providing the heater 27 affects the productivity and cost.
[0021]
Japanese Laid-Open Patent Publication No. 4-343887 discloses a drum-type washing machine that warms the washing liquid by means of hot air supply means for the drying process without using the dedicated heater 27 for warming the washing liquid in the water tank. According to this, a circulation device that circulates the washing liquid in the water tank is provided, the circulated washing liquid is sprinkled, and the sprinkled washing liquid is warmed with warm air.
[0022]
Japanese Laid-Open Patent Publication No. 6-327896 discloses a drum type washing machine that warms the washing liquid without providing the heater 27 for warming the washing liquid in the water tank or the circulating device for circulation. According to this, at the time of water supply to the water tank, water is supplied to the vicinity of the outlet of the hot air supply means, and the washing liquid is warmed in contact with the hot air.
[0023]
However, in the method of warming water while circulating the washing liquid disclosed in Japanese Patent Laid-Open No. 4-343887, since the contact area between the warm air and the washing liquid is small, the washing liquid can be efficiently brought to a predetermined temperature in a short time. In addition to heating, the washing liquid circulates in the circulation device, so that the water level in the water tank is lowered and the original washing effect is hindered. Furthermore, the configuration of providing a circulation device for circulating the washing liquid is unreasonable in that productivity is reduced and the cost is increased.
[0024]
On the other hand, the configuration in which water is supplied near the hot air outlet and is heated in contact with the warm air as disclosed in Japanese Patent Application Laid-Open No. 6-327896 has a high temperature to warm the flowing laundry liquid. A large capacity heat source is required to supply wind and high-temperature hot air. Further, since heat and fireproof means in the vicinity of this heat source are required, it is not practical.
[0025]
The present invention has been made in view of the above problems, and is a drum type in which a warm washing liquid can be obtained without using a heater or circulation device dedicated to warming water or a large-capacity heat source for supplying hot hot air. The purpose is to provide a washing machine.
[0026]
[Means for Solving the Problems]
In order to achieve the above object, a drum-type washing machine of the present invention includes a rotating drum that accommodates laundry, a water tank that rotatably includes the rotating drum and is provided in an outer tub body, and a rotating drum. a water supply means for supplying water, in the rotary drum to the hot air the drum type washing machine having a hot air supply means for drying the supplied laundry, rotates the said rotary drum, said by the water supply means A hydration process for supplying water to the rotating drum to hydrate the laundry, and rotating the rotating drum and supplying warm air by the warm air supply means to add water contained in the laundry in the hydration process. A warming step for heating, and in the water-containing step, water containing no detergent is supplied by the water-supplying means so that the laundry is water-containing, and after the water-containing step and the heating step, the water-supplying means performs the detergent. The water containing the rotation And supplying to the ram. As described above, since the laundry is sufficiently hydrated and warm air is blown onto the laundry, the laundry has a large contact area with the warm air, so that the washing water can be efficiently heated. Moreover, since warm air contacts the laundry containing moisture sufficiently, there is no inconvenience that the laundry is dried and the cloth is damaged.
[0027]
In the heating step, warm air is supplied from a warm air supply means for drying the laundry to heat the laundry. Thereby, it can heat without providing the warm air supply apparatus only for the washing liquid heating, and can provide an inexpensive drum-type washing machine.
[0028]
Further , since the water is contained in the laundry, it comes into contact with the warm air at the surface and gaps of the laundry, so that the contact area with the warm air is increased and the warm air can be efficiently heated.
Further, the rotating drum is rotated in the water-containing process and the heating process. As a result, the laundry rotates in the rotating drum, so that the entire area of the laundry can be moistened in a short time in the hydration process. Can be warmed.
[0029]
Moreover, the time the water step is hydrated to the laundry by supplying water without detergents, for supplying water containing detergent After warming. Thereby, it can prevent that a detergent bubble generate | occur | produces at the time of a heating, and it can prevent that a detergent bubble floats with a warm air and damages a warm air supply apparatus and a rotation mechanism part.
[0030]
In the drum type washing machine having the above configuration, the water level to be water in the water process is characterized in that the water supply to a lower level than the level which is the water supply in the washing step. That is, after the laundry is wetted and heated , the water containing the detergent is supplied up to the water level supplied in the washing step . Thereby, since the water which should be heated is a small amount, it can be warmed efficiently in a short time. Thereafter, the water containing the detergent supplied to the rotating drum in the washing step is warmed together with the water warmed in the heating step. Moreover, the water containing a detergent can be supplied after heating and the water level can be stopped at the water level supplied in the washing step .
[0031]
In the drum-type washing machine having the above-described configuration, the hot air supply means includes a circulation duct having an air inlet and an air outlet communicating with the inside of the water tank, a heater for heating air in the circulation duct, and the circulation duct. Through which the air in the water tank is circulated, and when the fan is activated, the air in the water tank is sucked into the circulation duct from the intake port, heated by the heater, and the circulation duct The air is supplied into the water tank from the outlet.
[0035]
In the drum type washing machine having the above-described configuration, the heating process is executed in parallel with the water-containing process. Thereby, the time required from the start of the water-containing process to the end of the heating process can be shortened compared to the case where the heating process is started after the end of the water-containing process.
[0039]
DETAILED DESCRIPTION OF THE INVENTION
Embodiments of the present invention will be described below with reference to the drawings. In addition, in each figure, the same code | symbol is attached | subjected about the same member as the conventional embodiment shown in FIG.4 and FIG.5, and the overlapping description is abbreviate | omitted.
[0040]
FIG. 1 is a schematic view showing an internal configuration when the drum type washing machine of the present embodiment is viewed from the front. FIG. 2 is a schematic view showing an internal configuration of the drum type washing machine as viewed from the side, and shows a partial cross section.
[0041]
The rotary shaft 6 of the rotary drum 5 of the present embodiment is provided in a state slightly inclined with respect to the horizontal direction so that the rear side is lowered. This inclination is preferably 5 to 30 °, and may be almost horizontal as in the prior art shown in FIG.
[0042]
Further, a cooling water supply path 28 and a water supply valve 29 are provided as a cooling device for cooling the circulation duct 20 during the drying process. The cooling water supply path 28 is branched from the water supply path 12 connected to the water tap and communicates with the circulation duct 20 upstream of the heater 22 in the air flow. Therefore, the water from the cooling water supply channel 28 flows down the circulation duct 20 and falls into the water tank 2 through the intake port 20a.
[0043]
In the operation of the drum-type washing machine of the present embodiment, first, after performing a water-containing step for allowing the laundry to contain water and a heating step for warming the water in the aquarium, the washing step and the rinsing step are performed as in the prior art. The dehydration process and the drying process are performed. Before the water-containing step, the amount of laundry may be detected to determine a water level corresponding to the amount of laundry, or a chart of washing, rinsing, dehydrating and drying steps.
[0044]
The amount of laundry can be detected in the situation where the electric power consumed by rotating the rotating drum 5 or the situation where the rotating drum 5 is rotated at a constant speed to interrupt electricity and the rotating speed decreases. That is, if the amount of laundry is large, a large amount of power is required for drum rotation, and if it is small, only a small amount of power is required. The amount of power can detect the amount of laundry. Further, if the laundry quantity is large, the rotation speed of the drum 5 is reduced when the rotating drum 5 is rotated at a constant speed to interrupt electricity, but the rate of reduction per hour differs depending on whether the quantity of laundry is large or small. The amount of laundry can be detected by the change in the decrease rate.
[0045]
The water-containing process will be described. In the water-containing step, first, the water supply valve 29 of the cooling water supply passage 28 is opened to supply water to the water tank 2. When the water level sensor 23 detects that water has accumulated up to the first water level H1 set at a position lower than the flush water level H, the water supply valve 29 is closed. As shown in FIG. 3, the water supply in the water-containing process is provided with a dedicated water supply path 12 c and a water supply valve 13 c that communicate with the water supply nozzle 15, and the water supply valve 13 c is opened and directly injected onto the laundry in the rotating drum 5. Good.
[0046]
The water-containing step may be terminated after a predetermined time has elapsed after opening the water supply valve 29, and the water-containing process is terminated by re-supplying the amount of water that has been supplied to the first water level H1 and the water level has decreased. Also good. That is, after supplying water to the first water level H1, the water level sensor 23 detects the water level in the water tank 2 during a predetermined time. When it is detected that the water level is equal to or lower than the second water level H2 lower than the first water level H1, water is supplied again to the first water level H1 through the cooling water supply passage 28. If the water level is kept at the second water level H2 by repeating this, the water-containing step ends. The water-containing step may be terminated after repeating the water supply a plurality of times or for a predetermined time without repeating the water supply until the water level maintains the second water level H2.
[0047]
In addition, you may perform a water-containing process by the following methods. That is, after supplying water to the first water level H1, the water level is detected by the water level sensor 23 for a predetermined time, and a change pattern of the water level that changes depending on the moisture content of the laundry is obtained. Based on this change pattern, water is supplied beyond the first water level H1 so that the final water level reaches the first water level H1.
[0048]
In the two examples of the water-containing step described above, a larger amount of water than the amount corresponding to the first water level H1 can be supplied according to the water content of the laundry. Therefore, even a laundry with a high moisture content can be sufficiently hydrated.
[0049]
When the water-containing step is completed, in the next heating step, the fan 21 and the heater 22 which are hot air supply means are operated, and hot air is blown out from the outlet 20b of the water tank 2. When the temperature sensor 26 detects that the water in the water tank 2 is warmed by the warm air and has reached a predetermined temperature, the fan 21 and the heater 22 are stopped.
[0050]
In the subsequent washing step, the washing liquid is supplied to the water tank 2 up to a predetermined water level H by supplying water to the detergent case 14 from the first water supply path 12a as in the conventional technique. At this time, the washing liquid is combined with the water in the water tank 2 warmed in the warming step to be a temperature suitable for washing.
[0051]
Since it takes a certain time, for example, 10 to 30 minutes, from the time when the warm air supplying means is operated in the heating step until the warm air of a predetermined temperature is supplied into the water tank 2, the operation of the warm air supplying means is started. May be operated simultaneously with the start of water supply in the water-containing process, after a predetermined time has elapsed, or in advance thereof. Thereby, the time until the water-containing step and the heating step are completed can be shortened.
[0052]
As described above, the drum type washing machine of the present embodiment allows the laundry to contain a small amount of water lower than the washing water level H, and efficiently obtains a warm washing liquid using the hot air supply means also used for the drying process. ing. Accordingly, there is no need to provide a heater dedicated to warm water and a washing liquid circulation device as in the prior art.
[0053]
In addition, when the washing liquid is supplied in the water-containing process, there may be a disadvantage that the detergent foams when the warm air is blown, and the foam enters the circulation duct. Therefore, water not containing the detergent is used here. Furthermore, the structure is simplified by using the cooling water supply path 28 provided as a cooling device for the circulation duct 20 also as the water supply means in the water-containing process.
[0054]
In addition, it is good to rotate the rotating drum 5 in the said water-containing process and a heating process. Thus, the laundry can be efficiently hydrated in a short time in the hydration process. Moreover, since the contact area with respect to the warm air of a laundry becomes large in a heating process, water can be warmed in a short time.
[0055]
At this time, the rotational speed of the rotating drum 5 may be slower than the rotational speed of the washing process. For example, it is preferable that the laundry is rolled at the bottom of the rotating drum 5. Thereby, the moisture content of the laundry can be promoted, and the damage and noise of the laundry can be reduced.
[0056]
Further, the rotation of the rotating drum 5 is desirably rotated with a pause in order to promote moisture content and warming of the laundry, and more preferably forward and reverse. The water level detection by the water level sensor 23 during the water-containing process can be performed with high accuracy when it is performed during this pause period.
[0057]
Further, the rotation direction of the rotating drum 5 when the fan 21 is operating is preferably rotated in the direction in which water is pumped up to the side wall of the water tank 2 on the side opposite to the intake port 20a, here, in the direction of arrow P in FIG. . That is, the rotation of the rotating drum 5 raises the water surface on the opposite side of the intake port 20a, and the water surface on the intake port 20a side does not fall, so that the intake port 20a is not blocked by water. In this way, the water level at the intake port 20a is lowered by the rotation of the rotary drum 5, so that even if the water level fluctuates due to the rotation of the laundry, the first water level H1 detected before the rotation of the rotary drum 5 is somewhat. Even if it becomes higher than the lower end of the intake port 20a, the air flow can be efficiently circulated from the intake port 20a without the intake port 20a being blocked.
[0058]
Next, the drying process using the cooling water supply channel 28 will be described. In the drying process, the hot air supply means is activated, the water supply valve 29 is opened, and water is sprinkled from the cooling water supply path 28 to the circulation duct 20. This water falls into the water tank 2 and is discharged from the drain port 2b.
[0059]
The hot air blown out from the air outlet 20b by the operation of the hot air supply means absorbs the moisture of the laundry, is sucked into the circulation duct 20 from the air inlet 20a, rises and reaches the fan 21. At this time, the rising air flow is cooled in contact with water sprayed from the cooling water supply passage 28, whereby moisture in the air flow is condensed and dehumidified. The dehumidified air stream is heated again by the heater 22 and blown out from the outlet 20b. The water produced by the condensation descends together with the water from the cooling water supply passage 28 and is discharged through the intake port 20a and the water tank 2.
[0060]
【The invention's effect】
As described above, the drum-type washing machine of the present invention includes washing water that does not include detergent in the laundry in the water-containing step, and warms the water-containing laundry with warm air. Not only contacts the surface of the water as in the case of heating only the washing water, but also contacts the surface and gaps of the laundry by being wet with the laundry. Therefore, the washing water has a large contact area with the warm air and can be warmed efficiently.
[0061]
It is necessary to provide a dedicated water supply path that does not contain detergent, because it is configured to supply water using the water supply means also used for the drying process, and to obtain warm washing liquid using the hot air supply means also used for the drying process. In addition, there is no need to provide a dedicated heater for washing liquid heating as in the prior art. Therefore, it can contribute to the improvement of productivity and cost. Moreover, since the water which does not contain a detergent is warmed with warm air, it is possible to prevent accidents such as detergent bubbles being generated due to drum rotation or laundry movement and blocking the warm air circulation path, and heating can be performed satisfactorily.
[0062]
Moreover, since it becomes a small amount of water supply below the 1st water level lower than the washing | cleaning process water level at the time of the said water-containing process, it can heat-warm efficiently in a short time.
[0064]
Further, by performing the water-containing process and the heating process in parallel, the time required from the start of the water-containing process to the end of the heating process can be shortened. Furthermore, by rotating the rotating drum during the hydration process or the heating process, the entire laundry area can be hydrated in a short time without any unevenness in the hydration process. It can be heated efficiently.
[Brief description of the drawings]
FIG. 1 is a schematic view showing an internal configuration of a drum type washing machine according to an embodiment when viewed from the front.
FIG. 2 is a schematic view showing an internal configuration when the drum type washing machine is viewed from the side.
FIG. 3 is a longitudinal sectional view of a water supply unit of the drum type washing machine.
FIG. 4 is a schematic view showing an internal configuration of a conventional drum type washing machine as viewed from the front.
FIG. 5 is a schematic view showing an internal configuration when the drum type washing machine is viewed from the side.
[Explanation of symbols]
DESCRIPTION OF SYMBOLS 1 Outer tank body 2 Water tank 5 Rotating drum 6 Rotating shaft 12 Water supply path 12a 1st water supply path 12b 2nd water supply path 13a Water supply valve 13b Water supply valve 14 Detergent case 15 Water supply nozzle 20 Circulation duct 20a Air inlet 20b Air outlet 21 Fan 22 Heater 28 Water supply path for cooling 29 Water supply valve H Water level H1 in the washing process 1st water level H2 2nd water level

Claims (4)

A rotating drum for storing laundry;
A water tank that is rotatably mounted on the rotating drum and is provided in the outer tank body;
Water supply means for supplying water to the rotating drum ;
In the drum type washing machine having a hot air supply device to dry the laundry by supplying hot air to the rotary drum,
With rotating the rotary drum, a water-containing step of hydrated to the laundry by supplying water to the rotary drum by the water supply means,
Wherein the rotary drum is rotated, and a said step warming of heating the water water to the laundry in the hot air supplying the hydrous step with warm air supply means,
In the water-containing step, water containing no detergent is supplied by the water supply means to cause the laundry to contain water, and after the water-containing step and the heating step, water containing the detergent is supplied to the rotating drum by the water supply means. A drum-type washing machine characterized by that.   The warm air supply means includes
  A circulation duct having an air inlet and an air outlet communicating with the inside of the water tank;
  A heater for heating the air in the circulation duct;
  A fan that circulates air in the water tank through the circulation duct;
  When the fan is activated,
  The air in the water tank is sucked into the circulation duct from the intake port, heated by the heater, and the air is supplied into the water tank from the outlet of the circulation duct. Drum-type washing machine. The drum type washing machine according to claim 1 or 2 , wherein the heating step is performed in parallel with the water-containing step. Drum-type washing machine according to any one of claims 1 to 3 water to be water is characterized in that a lower water level than the water level of water is supplied in the washing step in the water process.

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