JPH03207399A - clothes dryer - Google Patents

Abstract

(57) [Summary] This bulletin contains application data before electronic filing, so abstract data is not recorded.

Description

[Detailed Description of the Invention] Industrial Application Field The present invention relates to a clothes dryer for domestic use. Normally, hot air is blown in to dry the clothes, and the moisture-laden exhaust air is discharged outside the cabinet into the room.9 Problems to be Solved by the Invention Conventionally, cabinet-type clothes dryers have been used as described above. The present invention aims to solve the conventional problems by exhausting humid warm air that deteriorates the indoor living environment. It appears that the clothes dryer was dehumidified using a water-cooled heat exchanger inside the machine without discharging it outside the machine.The heater once again heats the air and blows warm air into the machine, which is then circulated to dry the clothes. A heat exchanger with an air intake opening at the top is installed at the bottom of a clothes storage cabinet with internal hangers for hanging damp clothes. Cooling water such as tap water is passed through the pipe, the intake port of a blower fan is connected in series to the exhaust port side of the heat exchanger, and a heating heater such as a ceramic heater is installed on the discharge side of this blower fan. Clothes dryers are designed to blow warm air (through the inner wall of the clothes storage cabinet and towards the clothes from the hot air outlet located above the interior of the cabinet).Therefore, the hot and humid air should not be discharged into the room. An electromagnetic water supply valve is provided on the cooling water inlet side of the cooling water pipe of the heat exchanger, and a temperature detection sensor such as a thermostat is provided on the cooling water outlet side to control the opening and closing of the electromagnetic water supply valve. It does not waste water and has a water-saving function.Furthermore, a temperature detection sensor such as a thermostat is installed on the inner wall of the clothes storage cabinet, and when the temperature inside the cabinet rises near the end of drying, the power is turned off and the drying operation is automatically started. The present invention has the above-mentioned structure, and when you hang damp clothes after washing on a hanger in the cabinet and turn on the power switch, the electromagnetic flow of the cooling water pipe The water supply valve opens, the blower fan rotates, and electricity is applied to the heater.The air inside the clothes storage cabinet enters through the intake port of the heat exchanger, is cooled and dehumidified, and is blown according to the flow shown in (a) in Figure 1. The heated dry air (b) is sucked in by the fan, discharged, and heated by the heater.The heated dry air (b) passes through the inner wall of the clothes storage cabinet, and is discharged toward the clothes from the hot air outlet at the top of the interior to dry the clothes. Sumo The air that dries the clothes becomes humid warm air (C), which is sucked into the heat exchanger, cooled and dehumidified, and sucked into the blower fan again.

Clothes are dried by repeating this process.

Embodiment FIG. 1 is a cross-sectional view of a clothes dryer according to an embodiment of the present invention. FIG. 2 is an electric circuit diagram. FIG. 3 is a diagram showing changes in cabinet internal temperature and cooling water temperature.

In Figures 1 and 2, (1) is a clothes storage cabinet (hereinafter referred to as the cabinet), (2) is a cabinet door, (3) is a hanger for hanging clothes, and (4) is a clothes storage cabinet.
The clothes to be dried (5) are connected to the cooling water pipe (6) by the heat exchanger.
) is cooled by passing tap water etc. (7) is a cooling fin,
The water droplets that have condensed on this surface drip down to the drain plate (8
) is discharged to the outside of the machine, and (9) is the drain outlet & (10) is the blower fan, which sucks the cooled and dehumidified air (9) through the heat exchanger (5>) and heats it. Air is blown to the heater (1l) side The heated dry air (b) that has passed through the heating heater (11) passes through the inner wall of the cabinet (1) to the hot air outlet (12 ), the hot air blown out from the hot air outlet (12) dries the clothes (4) and becomes moist air (C), which is then blown out from the air inlet of the heat exchanger (5). (13), the dehumidified air (a) touches the cooling fins (7) and is cooled and dehumidified.
The dry air (b) is blown to the heating heater (11) side by the hot air outlet (12), and is again discharged from the hot air outlet (12) to dry the clothes (4).This process is repeated to perform the drying process. (17) is the power switch, L (14)
is a sensor for detecting the temperature inside the cabinet. When the clothes dry and the temperature inside the cabinet (1) rises, the temperature at point (P) (e.g., about 80°C) on the cabinet inside temperature curve (A) in Figure 3 increases. This sensor (14) works, turns off the power supply circuit shown in Figure 2, and automatically ends the drying operation.
(15) is a temperature detection sensor attached to the cooling water outlet side of the heat exchanger (5), and as shown in the cooling water outlet side temperature curve (B) in Figure 3, the electromagnetic water supply valve (16 )
By opening the valve and closing the electromagnetic water supply valve (16) at 40°C, cooling water is not wasted and water can be saved.

Effects of the Invention As described above, according to the present invention, a cabinet-type clothes dryer has a dehumidifying mechanism using cooling water and a heat exchanger inside the machine. There is no need to worry about deteriorating the indoor living environment.1 Also, an electromagnetic water supply valve is installed on the inlet side of the cooling water (na, a temperature detection sensor is installed on the outlet side of the cooling water to control the opening and closing of the electromagnetic water supply valve). In addition, when the temperature inside the cabinet rises near the end of drying, the temperature sensor inside the cabinet automatically turns off the power and ends the drying operation, which is useful. We can provide a cabinet type clothes dryer.

[Brief explanation of drawings]

Fig. 1 is a cross section of a clothes dryer according to an embodiment of the present invention, Fig. 2 is an electric circuit, and Fig. 3 is a diagram showing changes in cabinet internal temperature and cooling water temperature (1)... Clothes storage cabinet, (2)...Cabinet door, (3)...Hanger, (4)...Clothing (5
)... Heat exchanger (6)... Cooling water vise (7
)...Cooling fins, (8)...Drain plate (9
)...Exhaust port (lO)...Blower fan, (1l
)...Heater, (12)...Hot air outlet (l3)...(Heat exchanger) intake [1 (14)
)...(Inside the cabinet) Sensor, (15>...
...(cooling water outlet side) sensor, (16)...electromagnetic water supply valve, (17)...power switch.

Claims (3)

[Claims] (1) A heat exchanger with an air intake opening at the top is installed at the bottom of a clothes storage cabinet that has a hanger inside to hang damp clothes after washing, and a cooling water pipe that passes through the heat exchanger Cooling water such as tap water is passed through, the intake port of a blower fan is connected in series to the exhaust port side of the heat exchanger, and a heating heater such as a ceramic heater is installed on the discharge side of this blower fan. A clothes dryer in which air passes through an inner wall of a clothes storage cabinet and is blown toward the clothes from a warm air outlet located above the interior of the cabinet. (2) An electromagnetic water supply valve is provided on the cooling water inlet side of the cooling water pipe of the heat exchanger, and a temperature detection sensor such as a thermostat is provided on the cooling water outlet side to control opening and closing of the electromagnetic water supply valve. Clothes dryer listed in ). (3) A temperature detection sensor such as a thermostat is provided on the inner wall surface of the clothes storage cabinet, and when the temperature inside the cabinet rises near the end of drying, the power is turned off and the drying operation is ended. , or the clothes dryer described in paragraph (2).