JP3907576B2 - Drum type washer / dryer - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to a drum-type washing and drying machine that performs from washing to drying in the same drum.
[0002]
[Prior art]
Conventionally, home-use and business-use drum-type laundry dryers that perform washing and drying in the same drum have been used. FIG. 9 is a side sectional view showing the overall configuration of such a conventional drum type washing and drying machine. In general, a drum-type washing and drying machine includes a drum 3 having a small hole 3a for exhausting hot air for dehydration and drying on a circumference, and a water tank disposed outside the drum 3, as shown in FIG. 2 are provided.
[0003]
The water tank 2 is suspended from the ceiling of the outer tank 1 by a spring 4, and the drum 3 is directly driven to rotate by a drive mechanism provided behind the water tank 2. In addition, a water supply valve 5 is provided on the rear side, a water supply port 6 is provided on the front side, and a drainage device 7 is provided on the lower front side. On the other hand, the drying device includes a heater 8 provided above the water tank 2, a blower 9, and a heat exchanger 10 provided near the rear part of the water tank 2.
[0004]
In the above configuration, the laundry is put into the drum 3, and water from the water supply valve 5 and the detergent stored in the water supply port 6 are supplied into the drum 3 and washed. Washing is performed by an impact force by an operation (hereinafter referred to as tumbling) of rotating the drum 3 at a low speed to lift and drop the laundry. When the washing is finished, the drainage device 7 is driven, and the dirty detergent solution is discharged and the process proceeds to rinsing.
[0005]
Then, after the washing (or rinsing) water is discharged, the dehydration is performed by rotating the drum 3 at a high speed and scattering the water by centrifugal force. At this time, the moisture contained in the laundry is discharged out of the drum 3 through the small holes 3a, travels downward along the inner wall of the water tub 2, and is discharged out of the machine through the drainage device 7.
[0006]
Drying is performed by circulating hot air while rotating the drum 3 at a low speed and tumbling the laundry in the same manner as in the case of washing. The circulation of the warm air is performed in the order of the blower 9 → the heater 8 → the water tank 2 → the drum 3 → the water tank 2 → the heat exchanger 10 → the air blower 9. At this time, moisture gradually evaporates from the heated laundry. And the warm air containing moisture contacts the water supplied from the cooling water supply part provided in the upper part in the heat exchanger 10, and this moisture is condensed and dehumidified. The condensed moisture is discharged out of the apparatus by the drainage device 7. Drying is performed by repeating the above.
[0007]
As a conventional washer-dryer, for example, a heat exchanger comprising a water spray nozzle and a cooling duct, and an auxiliary fin provided in the cooling duct to improve the dehumidifying capacity is disclosed. (For example, refer to Patent Document 1). In addition, a high-efficiency dehumidification system is disclosed in which water splash ribs are provided in the dehumidification duct of the heat exchanger (see, for example, Patent Document 2).
[0008]
[Patent Document 1]
JP-A-4-152970 [Patent Document 2]
Japanese Patent Laid-Open No. 11-347282
[Problems to be solved by the invention]
However, in the heat exchanger for the purpose of dehumidification in the conventional washing and drying machine as described above, cooling fins and water jumping ribs are provided inside the heat exchanger as means for improving the dehumidifying capacity. The road was narrowed and sufficient air volume could not be secured. Moreover, since the heat exchanger was enlarged or the capacity of the fan was increased in order to secure the air volume, the cost was increased as a result.
[0010]
In view of such problems, an object of the present invention is to provide a drum-type washing / drying machine having a simple configuration, a high dehumidifying capacity, a low-cost and a compact heat exchanger.
[0011]
[Means for Solving the Problems]
To achieve the above object, the present onset Ming, an outer tub, and elastically Tsu支been aquarium into outer tub, for passing water and air in the peripheral wall thereof is rotatably supported within the water tank A drum-type washing and drying machine comprising: a drum having a small hole for receiving laundry; and a drying device for drying the laundry in the drum, wherein the drying device A heater that evaporates moisture by heating, a blower that blows warm air from the heater into the drum, and a dehumidifier that cools the water vapor of the laundry discharged outside the drum from the small holes and condenses the moisture In the drum-type washing and drying machine provided with a heat exchanger for use, the heat exchanger has a hollow cylindrical shape, and a groove-shaped ring portion having a cross-sectional area larger than a body portion of the heat exchanger on an inner peripheral wall surface thereof Is formed in a spiral shape, and the section of the ring portion is substantially circular in cross section, and the heat exchange Cooling water supplied to the vessel is lowered while turning along the ring portion, and characterized by being configured to be temporarily held in the ring portion.
By doing so, the cooling water from above can be temporarily held at the surface with surface tension. The retained cooling water is wound up in a mist shape by the air that blows up, whereby heat exchange is performed efficiently.
[0012]
According to such a configuration of the heat exchanger, a shape capable of temporarily holding the cooling water in the heat exchanger can be easily formed integrally, and the cross-sectional area of the air passage and the like is not reduced. Therefore, it is not necessary to enlarge the blower or to increase the size of the heat exchanger in order to maintain the air flow rate, and it is possible to realize a heat exchanger that is inexpensive, compact, and has good performance. Moreover, by forming the grooved ring in a spiral shape, the cooling water can be evenly distributed on the inner peripheral wall of the heat exchanger, and the dehumidifying ability can be improved. Moreover, stable dehumidification can be performed by making the cross section of the part which forms a groove-shaped ring into a substantially circular shape.
[0013]
The present invention also provides an outer tub, a water tub elastically suspended in the outer tub, a small hole for water flow and ventilation on the peripheral wall supported rotatably in the water tub. A drum-type laundry dryer comprising a drum for storing an article and a drying device for drying the laundry in the drum, wherein the drying device evaporates moisture by heating the laundry in the drum A heater, a blower that blows warm air from the heater into the drum, and a heat exchanger for dehumidification that cools the water vapor of the laundry discharged outside the drum from the small holes and condenses the moisture In the drum-type washing and drying machine provided, the heat exchanger has a hollow cylindrical shape, a plurality of groove-shaped ring portions are provided on the inner peripheral wall surface thereof, and a section of the arrangement portion of the ring portion is substantially circular, The connecting portion between the ring portions has a cross-sectional area larger than that of the body portion having a substantially rectangular cross section of the heat exchanger. Fence, is characterized in that the smoothly connected while gradually changing the cross-sectional shape of the arrangement portion of the ring portion and the cross-sectional shape of the barrel.
[0014]
According to this configuration, the connection portion between the plurality of groove-shaped rings is configured to have a smaller cross-sectional area than the body portion of the heat exchanger, and the portion in front of which the air contacts the cooling water held in the groove-shaped ring is narrowed down. Thus, since the wind speed is increased and the cooling water is wound up in a mist shape, the contact with the air can be improved and the dehumidifying ability can be improved.
[0016]
DETAILED DESCRIPTION OF THE INVENTION
Hereinafter, embodiments of the present invention will be described with reference to the drawings. FIG. 1 is a side sectional view showing the overall configuration of a drum-type washing and drying machine according to an embodiment of the present invention. The drum type washing and drying machine of the present embodiment performs washing to drying in the same drum, and is elastically supported in the outer tub 1 and the outer tub 1 as shown in FIG. A water tank 2, a drum 3 that is rotatably supported in the water tank 2, and has a plurality of small holes 3 a for water flow and ventilation on its peripheral wall, and a drying device 20 that dries the laundry in the drum 3. ing.
[0017]
In addition, about the structure of the drum 3, the water tank 2, and the outer tank 1, since it is the same as that of the thing of the prior art mentioned above, description is abbreviate | omitted. Hereinafter, the structure of the drying apparatus 20 will be mainly described. The drying device 20 is unitized so as to reduce the pressure loss of the air passage and can be disposed in a limited space, and is attached above the water tank 2.
[0018]
As shown in the figure, the drying device 20 includes a heater 8 that heats the laundry in the drum 3 to evaporate moisture, a blower 9 that blows warm air from the heater 8 into the drum 3, and a small size. The heat exchanger 10 is configured to cool and dehumidify the hot and humid air discharged from the holes 3a to the outside of the drum 3 together with water vapor.
[0019]
FIG. 2 is a side sectional view showing the structure of the drying system in the present embodiment. As shown in the figure, the hot air suction port of the heat exchanger 10 is connected to the water tank 2 by a duct 24, and the hot air discharge port is connected to the front side of the water tank 2 by a duct 25 through a drying device 20. . The heater 8 is housed in a heater case 30 and is fixed above the water tank 2, and is connected to the blower 9 and the duct 25. In addition, 26 is a connection ring which connects the heater 8 side and the air blower 9 side. Reference numeral 16 denotes a drain valve provided at the lower part of the water tank 2.
[0020]
The heat exchanger 10 has a substantially L shape, and includes a heat exchanging portion 10 a extending vertically upward from the vicinity of the lower portion of the water tank 2. And it has the pipe connection part 10b which supplies cooling water in the upper part, and has the structure where the suction inlet of the air blower 9 is connected. Further, the cooling water supplied to the heat exchanging unit 10 a and the water condensed here are guided from the lower part of the heat exchanger 10 to the water tank 2 and discharged outside the apparatus by the drainage device 7.
[0021]
FIG. 3 is a view showing the structure of the heat exchanger in the present embodiment, where FIG. 3A is a side sectional view, and FIG. 3B is an aa sectional view. As shown in FIG. 2A, the heat exchanger 10 is cylindrical and is hollow-molded into a substantially L shape, and the lower portion extends substantially horizontally and is connected to the water tank 2 by a duct 24. It has become. Moreover, the heat exchange part 10a extended perpendicularly | vertically toward this upward is provided, and this has a trunk | drum with a rectangular cross section, as shown in the figure (b).
[0022]
Returning to FIG. 2A, above the heat exchanging portion 10a, there is a pipe connecting portion 10b for guiding the water supplied from the water supply valve 5 into the heat exchanger 10, and is connected to the water supply valve 5 by a hose. Similarly, an opening 10c connected to the suction port of the blower 9 is formed above the heat exchange unit 10a. Furthermore, below the center (indicated by the center line CL) of the heat exchange part 10a arranged vertically, a groove-shaped ring 50 formed in a groove shape on the inner peripheral wall surface of the heat exchange part 10a is, for example, 4 There are steps.
[0023]
FIG. 4 is a side sectional view showing the grooved ring and the vicinity thereof. In the drawing, the cross section B of the grooved ring 50 has a larger cross sectional area than the cross section A of the body portion. Further, the cross section C of the portion connecting the grooved rings 50 has a cross sectional area smaller than that of the cross section A. FIG. 5 is a side sectional view showing another example of the grooved ring. The groove-like ring 50 here has a larger cross-sectional area than the cross-section of the body portion and is formed in a spiral shape in the same manner as described above.
[0024]
FIG. 6 is a perspective view showing another example of the grooved ring. As shown in the figure, the cross section of the body portion of the heat exchanging portion 10a is rectangular here, whereas the arrangement part of the grooved ring 50 is substantially circular in cross section, and both shapes are gradually changed. The connecting portion 10d is smoothly connected while being changed.
[0025]
FIG. 7 is a side cross-sectional view showing another example of the method for arranging the groove ring. Up to now, the groove-shaped ring 50 has been illustrated by being directly processed on the heat exchanging portion 10a. However, the present invention is not limited to this. For example, as shown in FIG. It is good also as a structure which connects and fits the formed cylindrical part to the heat exchange part 10a. Or it is good also as a structure which insert-molds the grooved ring 50 with a metal material in the heat exchange part 10a.
[0026]
Hereinafter, the operation of the drum type washing and drying machine according to the present embodiment will be described. However, since the washing process to the drying process are the same as those in the prior art, the description thereof is omitted. FIG. 8 is a side sectional view showing a state of a drying process by the drying system in the present embodiment. The arrows in the figure indicate the air flow in the drying process.
[0027]
In the figure, after completion of the dehydration process, the air heated by the heater 8 and heated to high temperature is blown into the interior of the water tank 2 through the duct 25 as warm air. Then, after entering the drum 3 from the front opening of the drum 3 and heating the laundry to evaporate the moisture, it is discharged out of the drum 3 through the surrounding small holes 3a. Thereafter, the heat exchanger 10 is reached from the gap between the drum 3 and the water tank 2 through the duct 24.
[0028]
The air immediately after being discharged from the water tank 2 is in a high temperature and high humidity state. This hot and humid air comes into contact with the cooling water 40 supplied from the upper pipe connection part 10b when passing through the part arranged vertically from the substantially horizontal part of the heat exchanger 10, that is, the heat exchange part 10a. Thus, moisture is condensed and dehumidified. At this time, the cooling water descends along the inner surface of the heat exchanging part 10 a and collects in the grooved ring 50.
[0029]
In this groove-shaped ring 50, first, cooling water is accumulated in the ring at the upper end, and the surface is filled and overflowed while utilizing the surface tension, and this is accumulated in the ring immediately below. In this way, cooling water accumulates in each ring one after another. When the grooved ring 50 has a spiral shape, the cooling water descends while swirling along this, and fills up as a whole. In this manner, the cooling water is temporarily held in the grooved ring 50 by the surface tension.
[0030]
Here, when the above-described high-temperature and high-humidity air ascends the heat exchanging portion 10a, the cooling water accumulated in the groove-shaped ring 50 is wound up and becomes mist-like. Then, the cooling water and the air are further brought into contact with each other, and heat exchange is performed in a vortex in the heat exchanging portion 10a, thereby improving the dehumidifying efficiency.
[0031]
Further, since a plurality of the groove-like rings 50 are installed, sufficient cooling water can be easily secured. Further, as described above, the cross-sectional area of the heat exchanging portion 10a is reduced because the cross-section of the grooved ring 50 (the cross-section B) has a larger cross-sectional area than the cross-section of the trunk portion (the cross-section A). The resistance of the air passage can be reduced.
[0032]
Moreover, since the cross section (the above-mentioned cross section C) of the portion connecting the grooved rings 50 has a smaller cross sectional area than the cross section of the body portion, the wind speed of the air passing through the portion is instantaneously increased. Since the amount of cooling water involved is increased to promote contact with air, the dehumidifying effect can be improved.
[0033]
In addition, since the groove-shaped ring 50 is formed in a spiral shape, the cooling water descending along the wall surface of the heat exchanging portion 10a is guided to the spiral groove-shaped ring 50, and the heat exchanger It flows evenly distributed around the body as if it were rolled up. For this reason, since cooling water can be made to contact the air which passes the inner periphery vicinity of the heat exchanger 10 comparatively equally, the stable dehumidification effect can be acquired.
[0034]
In addition, the cross section of the body portion of the heat exchanging portion 10a is rectangular, whereas the arrangement portion of the grooved ring 50 has a substantially circular cross section, and smoothly connects while gradually changing both shapes. By adopting such a configuration, it is possible to increase the wind speed of the air passing through the groove-shaped ring portion, to improve the contact with the cooling water, and to obtain a stable dehumidifying effect.
[0035]
Moreover, since the heat dissipation effect can be enhanced by using a metal material for the portion where the groove-shaped ring 50 is formed, that is, the cooling effect can be enhanced, the dehumidifying effect can thereby be improved.
[0036]
Further, the grooved ring 50 is discharged from the water tank 2 by setting the position of the groove ring 50 below the center of the heat exchange part 10a arranged vertically, and further below as much as possible, that is, on the side close to the connection part with the water tank 2. In addition, since the high-temperature and high-humidity air can be brought into contact with the cooling water while the temperature is high, a large condensation effect is obtained, and heat exchange is performed efficiently.
[0037]
【The invention's effect】
As described above, according to the present invention, it is possible to provide a drum-type washing / drying machine having a simple configuration, a high dehumidifying capacity, a low-cost and a compact heat exchanger.
[0038]
In this case, heat exchange for dehumidification is performed by sprinkling cooling water from above the heat exchanger and bringing it into contact with high-humidity air at a high temperature from below the water tank. Here, by providing the groove-shaped ring on the wall of the heat exchanger in multiple or spiral, it can be held temporarily in the surface tension of the cooling water from above in the area. The retained cooling water is wound up in a mist shape by the air that blows up, whereby heat exchange is performed efficiently.
[0039]
According to such a configuration of the heat exchanger, a shape capable of temporarily holding the cooling water in the heat exchanger can be easily formed integrally, and the cross-sectional area of the air passage and the like is not reduced. Therefore, it is not necessary to enlarge the blower or to increase the size of the heat exchanger in order to maintain the air flow rate, and it is possible to realize a heat exchanger that is inexpensive, compact, and has good performance.
[Brief description of the drawings]
FIG. 1 is a side sectional view showing an overall configuration of a drum-type washing and drying machine according to an embodiment of the present invention.
FIG. 2 is a side sectional view showing the structure of a drying system in the present embodiment.
FIG. 3 is a view showing a structure of a heat exchanger in the present embodiment.
FIG. 4 is a side sectional view showing a grooved ring and the vicinity thereof.
FIG. 5 is a side sectional view showing another example of a grooved ring.
FIG. 6 is a perspective view showing another example of a grooved ring.
FIG. 7 is a side cross-sectional view showing another example of the method for arranging the groove ring.
FIG. 8 is a side sectional view showing a state of a drying process by the drying system in the present embodiment.
FIG. 9 is a side sectional view showing the overall configuration of a conventional drum-type washing and drying machine.
[Explanation of symbols]
DESCRIPTION OF SYMBOLS 1 Outer tank 2 Water tank 3 Drum 3a Small hole 4 Spring 5 Water supply valve 6 Water supply port 7 Drainage device 8 Heater 9 Blower 10 Heat exchanger 10a Heat exchange part 10b Pipe connection part 10c Opening part 16 Drain valve 20 Drying devices 24, 25 Duct 26 Connecting ring 30 Heater case 40 Cooling water 50 Grooved ring

Claims (2)

An outer tub, a water tub elastically suspended in the outer tub, and a drum that is rotatably supported in the water tub and has a small hole for water flow and ventilation in its peripheral wall to store laundry A drum-type laundry dryer comprising a drying device for drying laundry in the drum,
The drying device includes a heater that heats the laundry in the drum to evaporate water, a blower that blows warm air from the heater into the drum, and the laundry discharged from the small hole to the outside of the drum. In the drum type washing and drying machine equipped with a heat exchanger for dehumidification that cools the water vapor and condenses the water,
The heat exchanger has a hollow cylindrical shape, and a groove-shaped ring portion having a larger cross-sectional area than the body portion of the heat exchanger is formed in a spiral shape on the inner peripheral wall surface thereof .
The section of the ring portion is substantially circular in cross section,
The drum-type washing and drying machine , wherein the cooling water supplied to the heat exchanger descends while swirling along the ring part and is temporarily held by the ring part. An outer tub, a water tub elastically suspended in the outer tub, and a drum that is rotatably supported in the water tub and has a small hole for water flow and ventilation in its peripheral wall to store laundry A drum-type laundry dryer comprising a drying device for drying laundry in the drum,
The drying device includes a heater that heats the laundry in the drum to evaporate water, a blower that blows warm air from the heater into the drum, and the laundry discharged from the small hole to the outside of the drum. In the drum type washing and drying machine equipped with a heat exchanger for dehumidification that cools the water vapor and condenses the water,
The heat exchanger has a hollow cylindrical shape, and a plurality of groove-shaped ring portions are provided on the inner peripheral wall surface thereof.
The section of the ring portion is substantially circular in cross section,
The connecting portion between the ring portions has a smaller cross-sectional area than the body portion having a substantially rectangular cross section of the heat exchanger,
Drum type washing and drying machine characterized by being smoothly connected while gradually changing the cross-sectional shape of the arrangement portion of the ring portion and the cross-sectional shape of the barrel.

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