KR20180117243A - Negative-pressure, Air-jet Clothes Dryer Control Method - Google Patents

Abstract

The present invention relates to a method for controlling a sound pressure type air jet clothes dryer,
In order to enable clothes to be dried in a relatively short time with a low power consumption, air of room temperature, which is inevitably leaking into the tumbler sealing portion, passes through the heater of the heater type drier, The hybrid heat pump dryer controls the duty of the heater to be higher than the wetted wet bulb temperature, and the hybrid heat pump drier controls the temperature of the wetted clothes wet bulb entering the jet form through the hybrid heat pump condenser and the heater, (Heater type) of 0% (OFF) of the capacity of the heater and 100% (ON) of the capacity of the heater according to the clothes drying degree by controlling the duty of the heater so that the temperature difference of the air of the heater Air jet (Hybrid method) The ON-OFF time ratio is changed and finally the last step The temperature of the garment and the tumbler outlet are increased at the same time so that the wet bulb temperature of the hot jet air is controlled to be much higher than the temperature of the ambient temperature at which the wet bulb is fed in order to overcome the low drying rate.

Description

{Negative-pressure, Air-jet Clothes Dryer Control Method}

The present invention relates to a clothes dryer control method, and more particularly, to a method for controlling a clothes dryer such that air at room temperature unavoidably leaking through a tumbler sealing portion is heated to a temperature higher than a wet clothing wet bulb temperature of heated air introduced into a tumbler- In the case of a hybrid heat pump dryer, the temperature of the wet air introduced into the jets through the hybrid heat pump condenser and heater is controlled by the temperature of the clothes wet bulb and the temperature of the ambient air which inevitably gets into the tumbler sealing portion And controlling the duty of the heater so that the temperature difference of the air becomes as small as possible, so that the clothes can be dried in a relatively short time by consuming a low power amount.

As shown in FIG. 1, when heat energy is supplied by using a heater or the like to dry the wet clothes in the dryer, heat transfer occurs on the surface of the wet clothes to overcome the latent heat of water (h _fg = 2,444.3 kJ / kg) Evaporation occurs. Here, the outside air is heated to high temperature air (T _in , RH _in ) through the heater or heat exchanger at room temperature condition (about T = 24 ^o C, RH _o = 50% in the DOE specification) After containing the moisture to be evaporated, it passes through the clothes filter net and passes through the external connecting duct to the hot and humid air (T _out , RH _out ). However, in the tumbler inside the dryer, the air quantity Q _l of room temperature condition (about T = 24 ^o C, RH _o = 50%) is leaked through the Felt room, Therefore, the incoming air amount Q _in and the entrained air amount Q ₁ are introduced into the tumbler and discharged to Q _{f (=} Q _in + Q ₁ ) including the moisture (Δm (g) / min.) Evaporated in the wet clothes. The equilibrium equation of the amount of water introduced into the tumbler and discharged together with the increase of the water is represented by the following equation (1).

Here, the air heated by the heater is lowered in relative humidity as the temperature rises, but χ _in , the mass of water per unit air volume, is equal to χ _o of the outside air. In general heater type clothes dryer, as shown in Fig. 1, the motor shaft for belt driving for tubular rotation is directly connected to the humidifier exhaust fan, so that the air flow rate is usually fixed. In FIG. 2, a vent type jet dryer is shown, and a ventilation fan is not directly connected to a belt driving motor, so that the exhaust air flow rate can be controlled.

The hybrid heat pump type drier absorbs the sensible heat of the high temperature tumbler discharge air exhausted through the recuperator as shown in FIG. 3, heats the condenser which is the high temperature part of the heat pump cycle, After entering or passing through a small heater, it flows into the tumbler. At this point air amount Q _l is also nuip the incoming air quantity Q _in the same manner as the dryer of the first or second Figure is again Q _{f (=} Q, inclusive of the water (Δm (g) / min. ) Evaporated in flows into the tumbler wet clothing _in + Q _l ) and then discharged into the duct.

      As shown in FIG. 4, for example, when the exhaust air flow rate is fixed at 3.28CMM, the air temperature passing through the heater or the heat pump device increases in proportion to the heat amount of the heater or the heat pump condenser. Increase together. However, when the heater or the heat exchanger having the heat transfer capacity higher than 2 kW is used, the temperature of the wetted clothes is higher than the surface wet bulb temperature, and the evaporation energy is not supplied to the tumbler. And eventually abandoned at room temperature with unused energy.

In order to overcome this problem, there is a first problem that an inverter for heater voltage control must be applied because the heater capacity is controlled to be lower than the normal temperature according to the exhaust air flow rate.

In order to reduce the power consumption while avoiding the increase of the material cost, the heater is controlled to ON-OFF to control the heater of a relatively large capacity by the duty according to the change of the drying state. When the heater is turned off, The second problem is that the surface temperature of the wet clothes is higher than the air temperature of the normal temperature by the heater ON operation, rather, the heat transfer from the wet clothes to the air at room temperature and the drying efficiency is decreased.

In the case of a hybrid heat pump type drier having the same exhaust air amount as above, when the compressor capacity is about 1 kW, the surface wet bulb temperature of the already wetted clothes is higher than the normal temperature 24 ^o C As a result, when the heater is heated by the additional heater, as shown in FIG. 5, it increases proportionally with the increase in the heater capacity. Therefore, in the case of the room air leaking, the loss energy increases in proportion to the heat amount of the heater as shown in FIG. However, in the case of heat pumps, the use of additional heaters is due to the need for rapid drying, and if the heater capacity is fixed at the rated value without using an inverter, the wet bulb temperature of the garments in the tumbler will also increase. There is a third problem in that the temperature increases continuously and increases.

In order to solve the above-described first and second problems, the present invention provides an air conditioner in which air having a room temperature of about 30% of a total exhaust airflow entering through a sealing portion of a tumbler in a vacuum type dryer passes through a heater (heat exchanger) (Heat exchanger) duty is set so that the wet bulb temperature of the air passing through the heater (heat exchanger) is lower than the room temperature so that heat transfer from the wet clothes to the normal temperature air does not occur. Change the ratio of ON-OFF time of air jet at room temperature of 0% (OFF) capacity of high-temperature jet air of heater (heat exchanger) capacity of 100% (ON) and heater (heat exchanger) .

In addition, the use of the heater of the hybrid heat pump dryer is made by the necessity of rapid drying. If the heater capacity is fixed without using the inverter, the wet bulb temperature of the clothes in the tumbler is also increased continuously. (KWh) is maintained, and the high-temperature jet air of the heater capacity of 100% (ON) according to the degree of clothes drying and the intermediate air jet having the capacity of 0% (OFF) of the heat pump condenser passing heater Off time ratio of the clothes in the tumbler so that the wet wet bulb temperature of the clothes in the tumbler can be maintained as much as possible so as to minimize the loss due to the inflow of the room temperature air to overcome the third problem, The purpose is to provide.

It is another object of the present invention to provide a method and apparatus for controlling the temperature of a hot jet air stream in order to overcome a low drying rate because the wet clothes and tumbler outlet temperatures start to rise together at the final stage (moisture weight ratio to dry weight is at least 10% So that the temperature of the air dryer is controlled to be much higher than the air temperature of room temperature.

In other words, the hot jet passing through the heater, the heater (heat exchanger), the cold jet (electric dryer) (or the condenser temperature jet) of duty 0%, and the duty amount Control.

Also, as shown in FIG. 6, a hot jet velocity vector (an arrow in FIG. 6) flowing through an air jet hole including a small circular nozzle in the circumferential direction on the back wall of the tumbler and a velocity vector 6) has a rotational motion component due to the rotational movement of the tumbler and the rotation of the blades in the tumbler and moves toward the lint mesh in front of the tumbler. Since the speed and flow rate of the hot jet are much larger than the leakage speed and flow rate, The hot jet ring jet mixes with the hot air jet by the centrifugal force and touches the wet clothes. Especially when the heater (heat exchanger) is mixed with cold jet at room temperature at 0% duty and wet clothes, At least the residual heat causes the air temperature to be higher than the wetting temperature of the wet clothing to ensure continuous water evaporation.

To achieve the object of the present invention, a sound pressure type air jet clothes dryer includes a rotary drum to which laundry is charged; A heater for supplying high temperature air to the rotary drum; And a small circular nozzle (hole) on the rear plate of the rotary drum to be sucked into the rotary drum through the heater is alternately supplied to the hot jet which enters the tumbler through the air jet nozzle part and the cold jet which is the room temperature at the duty 0% And a dryer control unit for controlling the dryer and the air conditioner, wherein the air flow rate and the heater (heat exchanger) capacity are determined so that the wet bulb temperature of the hot jet of 100% duty is lower than the outside air temperature of the leakage to the inside of the tumbler If the ON / OFF control of the set air volume and heater capacity is only possible, the air discharge temperature does not change significantly until the moisture weight weight reaches about 10% even if the weight of the clothes decreases. Adjust the duty to accelerate, and finally achieve a low drying rate of the last step (moisture weight ratio to dry weight of at least 10%) The control is performed such that the wet bulb temperature of the high-temperature jet air having a capacity of 100% (ON) of two or more heaters (heat exchangers) is much higher than the air temperature of the room temperature at which it is fed.

According to another aspect of the present invention, there is provided a sound pressure type air jet clothes dryer comprising: a rotary drum to which laundry is charged; A regenerator for preheating the air of room temperature to the drum with sensible heat of the drum exhaust; A heat pump condenser and a heater for supplying high temperature air from the regenerator to the rotary drum; The hot jet, in which the small circular nozzles (holes) come into the tumbler through the air jet nozzle part, and the jet of the condenser passing air temperature at the heater duty 0% are alternately supplied to the rear drum of the rotary drum so as to be sucked into the rotary drum through the heater, To the heat pump evaporator so that heat exchange occurs before duct exhaustion; A compressor for compressing the refrigerant of the heat pump and an expansion valve for regulating the refrigerant pressure; And the ON / OFF control of the exhaust air flow rate, the heater capacity, and the refrigerant compressor, the heat pump compressor is ON throughout the entire drying period, while the heaters achieve the set drying time, while the regenerator and the heat pump, To maintain the same heating power (kWh) so as to reduce the loss due to the inflow of room temperature air, which continues to rise in the temperature of the wet bulb of my clothes, the high temperature jet air and heat pump The duty to change the ratio of the ON-OFF time of the intermediate air jet at the capacity 0% (OFF) of the condenser passing heater is adjusted, and finally, the low drying speed of the last step (the weight weight ratio of the dry weight to the dry weight is at least 10% The temperature of the high-temperature jet air wet bulb having the heater capacity of 100% (ON) passing through the condenser and the heater is controlled so as to be much higher than the air temperature of the room temperature in which the air is introduced, Pressure jet type air clothes dryer, characterized in that consisting of; a dry dryer control with a cooldown (Cool Down) mode, an air jet supplied through the regenerator OFF and both the compressor and the heater.

In order to achieve the object of the present invention, the control method of the air pressure type air jet clothes dryer selects the drying time, the final drying degree of the clothes or the maximum temperature according to the type of clothes by the dryer user, (Or duct discharge air temperature) of the air passing through the heater is determined according to the temperature and the relative humidity of the room air, When the air volume is higher than the indoor air temperature, the air volume of the dryer is increased or the heater capacity is decreased. When the air volume and the heater capacity are fixed, the duty is minimized and the time average wet bulb temperature The discharge air temperature) is lower than the temperature of the room air to be sucked; And the duty of each step is increased from D_low to D_high, and when drying is proceeding, when the DT_3 corresponding to the moisture content of the wet clothes is about 10% or when a value near 10% is detected by the moisture sensor, the capacity of the heater is increased, The wet bulb temperature (or the duct discharge air temperature) of the passing air is set to be higher than the temperature of the room air to be inhaled, and when the predetermined percentage value between DT_4 and the final moisture weight reaches 10%, the air volume is decreased And a control step of increasing the duty ratio and drying until the final moisture content is reached, and then ending the drying operation.

As described above, according to the present invention, in order to dry both the hot jet coming into the tumbler and the cold jet having the duty (heat exchanger) 0% %, The exhaust air temperature is lower than room temperature. Therefore, the air flow rate and the heater (heat exchanger) capacity are determined so that the wet bulb temperature of the hot air of 100% duty and the wet bulb temperature are lower than the outside temperature. As shown in Fig. 5, even if the weight of the clothes is reduced, since the air discharge temperature does not greatly change until the moisture weight reaches about 10%, the duty is adjusted to accelerate the drying amount in that interval , And finally, to overcome the low drying rate of the last stage (moisture weight ratio to dry weight of at least 10%), use of two or more heaters (heat exchangers) The present invention overcomes the first problem of using a heater voltage control inverter to control the power consumption amount of each section by controlling the wet bulb temperature of the high temperature jet air of 100% (Heat exchanger) capacity is determined so that the hot jet and the wetting temperature of the air are lower than the outside air temperature, and the duty ratio is adjusted to control the drying speed, so that the final step %), The wet clothes surface temperature is higher than the air temperature of room temperature.

FIG. 1 is a schematic view showing an equilibrium of clothes moisture from an amount of air entering through a heater, an amount Q ₁ of air to be sucked and a quantity Q _{f (=} Q _in + Q ₁ ) discharged from a duct in a conventional ventilator type clothes dryer,
2 is in a vent-type jet clothes dryer according to the prior art psychrometric outlet fans in air amount Q _l and a duct which is driven by a tumbler drive motor and a separate motor is possible to control the incoming air quantity (Q _out) through the heater, nuip A schematic diagram showing an equilibrium of the water content of the clothes from the air amount Q _{f (=} Q _in + Q ₁ ) to be discharged,
Air amount Q _out 3 is discharged to a conventional vent hybrid heat pump system coming in from the clothes dryer through the regenerator and a heat pump condenser and a heater heseo air amount, air amount Q _l is nuip and the duct passing through the heat pump evaporator according to the prior art _{( =} Q _in + Q ₁ ), and FIG.
FIG. 4 is a graph showing the relationship between the heater heating air temperature in proportion to the heater capacity in a conventional vent heater type clothes dryer (exhaust air flow rate of 3.28 CMM), the wettable temperature similar to that of the wet clothes surface temperature, A graph showing that when the wet clothes are used, the wet air temperature is higher than the surface wet bulb temperature,
FIG. 5 is a graph showing that in a conventional hybrid heat pump type clothes dryer, the surface temperature of the wet clothes increases proportionally with the capacity of the additional heater, and the loss energy increases with the capacity of the heater due to the flow rate through the sealing of the tumbler graph,
FIG. 6 is a schematic diagram showing a Hot Jet velocity vector flowing through an air jet hole including a small circular nozzle or a plurality of small circular nozzles in the circumferential direction of the rear wall of the tumbler according to the present invention,
FIG. 7 is a graph showing outlet air temperature, outlet air relative humidity, and remaining moisture content of the clothes according to the drying time in the control of the clothes dryer according to the present invention,
8 is a graph showing the water removal amount per unit time and the water removal amount per unit heater (heat exchanger) capacity in the control of the sound pressure ring clothes dryer according to the present invention,
9 is a graph showing the distribution of the wet bulb temperature of the air passing through the heater (heat exchanger) by the drying time interval and the average air wet bulb temperature mixed with the leakage during the control of the sound pressure ring clothes dryer according to the present invention,
10 is a graph showing a duty control graph showing a wet bulb temperature of a heater passing air when a duty of a reference weight is varied for each interval according to an embodiment of the present invention,
FIG. 11 is a graph showing a duty control graph showing a wet bulb temperature of an air mixture of a heater-passing air and a leaking air when a duty of a reference weight is changed for each interval according to an embodiment of the present invention,
12 is a flowchart showing the heater capacity, the air volume, the time for each step, and the individual duty control procedure according to the user's input according to the time of the wet clothes drying step according to the embodiment of the present invention.

The present invention will become more apparent by describing in detail preferred embodiments of the present invention with reference to the accompanying drawings. Also, for ease of understanding of the invention, the appended drawings are not drawn to scale, but the dimensions of some of the components may be exaggerated.

Hereinafter, the control of the air pressure type air jet clothes dryer according to the embodiment of the present invention will be described in detail with reference to FIGS. 1 to 3 and 10, 11, and 12. FIG.

FIG. 8 shows the amount of moisture removed per unit time and the amount of water removed per unit heater (heat exchanger) capacity at the time of controlling the sound pressure ring clothes dryer according to the present invention. As shown in the figure, it can be seen that the amount of water removal per unit heater (heat exchanger) capacity is very large at the early stage of drying, and the duty is gradually increased except for the period where the duty is low and the moisture weight is less than 10% It can be seen that a certain amount of moisture is removed per unit time.

9 shows the distribution of the wet bulb temperature of the air passing through the heater (heat exchanger) and the average air wet bulb temperature mixed with the leak according to the drying time interval in the control of the sound pressure ring clothes dryer according to the present invention. From the data, it is found that the heater passing air wet bulb temperature is lower than the outside temperature of the dryer except for the last drying section and the measured average exhaust temperature is lower than the outside temperature of the dryer, so that the heat loss due to the air leaking into the tumbler is very low .

FIGS. 10 and 11 show changes in duty per section for a garment having a reference weight corresponding to a drying time of 70 minutes according to the present invention. It shows the wet bulb temperature of the air passing through the heater and the air mixed with the recirculating air, and it is controlled below the normal temperature except the final drying period in which the moisture weight is less than 10%.

12 shows an air jet dryer control algorithm of the present invention.

When the dryer user selects the maximum temperature depending on the drying time, the final drying degree of the clothes, or the type of the clothes, the time for each drying section, the duty value for each section, or the maximum heater capacity is determined.

That is, as the drying time increase is increased, the DT_4 values are increased in proportion to DT_1, and when the high temperature air temperature maximum value T_max is decreased, the heater capacity of the final drying section of less than 10% by weight is decreased. When the set heater capacity and air flow rate are supplied, the wet bulb temperature of the air passing through the heater varies depending on the temperature and the relative humidity of the room air.

If the wet bulb temperature (or duct discharge air temperature) of the air passing through the heater is higher than that of the room air to be inhaled, increase the air volume of the dryer or decrease the heater capacity. If the air flow rate and the heater capacity are fixed, the duty is adjusted to a minimum so that the time-averaged wet bulb temperature (or time-averaged duct discharge air temperature) of the heater passing air is adjusted to be lower than the temperature of the room air to be inhaled.

The duty cycle of each step is increased from D_low to D_high, and when drying is proceeding, if the DT_3 corresponding to the moisture content of the wet clothes is about 10% or if a value near 10% is detected by the moisture sensor, If the wet bulb temperature (or the duct discharge air temperature) of the air is higher than the temperature of the room air to be inhaled and reaches a predetermined value of% between DT_4 and the final moisture weight and 10%, the air volume is decreased The duty is increased to dryness until the final moisture weight percentage is reached, and then the dryer operation is terminated.

As described above, the present invention has been described by reference to the preferred embodiments and drawings, but it should be understood that the present invention is not limited to these embodiments, and various changes and modifications may be made without departing from the spirit and scope of the present invention by those skilled in the art. It will be understood by those skilled in the art that various changes and modifications may be made without departing from the scope of the appended claims.

10, 100: dryer control unit
20: heater (or ring heater) 30: tumbler
33: Tumbler back plate (drum bag) 40: Filter
50: fan unit 60: motor
70: Fan motor unit 110: Regenerator
120: condenser 130: heater (or ring heater)
133: ring-shaped jet outlet hole 140: fan
150: evaporator 160: compressor
170: Valve

Claims (5)

A rotary drum for loading the laundry; A heater for supplying high temperature air to the rotary drum; The air suction and discharge device alternately supplies the hot jet coming into the tumbler through the small circular nozzles (holes) to the back drum of the rotary drum so as to be sucked into the rotary drum through the heater, and the cold jet having the heater duty of 0% A method of controlling a sound pressure type air jet clothes dryer by a control unit,
The dryer control unit determines the air volume and the capacity of one or more heaters so that the wet bulb temperature of the hot jet of 100% duty is lower than the outside air temperature of the incoming air to the inside of the tumbler, If possible, adjust the duty to accelerate the drying rate in that section based on the phenomenon that the air discharge temperature does not change significantly until the weight of the clothes decreases to about 10% even if the weight of the clothes decreases, and finally the final stage (Heat exchanger) capacity of 100% (ON) or high temperature of high duty jet air in order to overcome the low drying rate of the water temperature Is controlled to be much higher than that of the jet dryer. A method of controlling a vacuum type air jet clothes dryer by a dryer control unit for controlling the same, the method comprising: a rotary drum to which laundry is charged; A regenerator for preheating the air of room temperature to the drum with sensible heat of the drum exhaust; A heat pump condenser and a heater for supplying high temperature air from the regenerator to the rotary drum; The small jet nozzles (holes) are alternately supplied to the back drum of the rotary drum through the heater to receive the hot jet through the air jet nozzle unit and the condenser passing air temperature Jet with a heater duty of 0%, and air in the tumbler exhaust Air intake and exhaust ducts that pass through a heat pump evaporator to allow heat exchange before duct venting; A compressor for compressing the refrigerant of the heat pump and an expansion valve for regulating the refrigerant pressure; And a control unit for controlling the control unit to control the air pressure type air jet clothes dryer,
If the control unit is capable of ON / OFF control of the exhaust air volume, the capacity of one or more heaters and the refrigerant compressor, the heat pump compressor is ON throughout the entire drying period, while the heaters, while achieving the set drying time, (KWh) so as to reduce the loss due to the inflow of the room temperature air, which is caused by the continuous rise of the wet bulb temperature of the clothes in the tumbler through the amount of heat, while maintaining the same heating power (kWh) Adjust the duty to change the ratio of the ON-OFF time of the intermediate air jet at 0% (OFF) of the capacity of the jet air and the heat pump condenser to pass through the heater, and finally, the final stage (moisture weight ratio of at least 10% In order to overcome the low drying rate, a heater capacity of 100% (ON) through the condenser and the heater or a high-temperature high-temperature jet air Controlling the temperature of the air dryer to be much higher than the predetermined temperature and finally turning off both the compressor and the heater and supplying the air jet through the regenerator to the cool down mode.
3. The method according to claim 1 or 2,
The air jets flow through the air jet holes including one or more small circular nozzles in the circumferential direction on the back plate of the tumbler;
The velocity vector of the entrained air has a rotational motion component due to the rotational motion of the tumbler and the rotational motion of the blade in the tumbler and moves toward the lint mesh in front of the tumbler. Since the velocity and flow rate of the air jet are much larger than the velocity and flow rate of the air, It is mixed with hot jet ring jet and leakage by centrifugal force. Especially, when it touches wet clothes mixed with jet of room temperature at 0% duty of heater, residual heat of heater (heat exchanger) or passing through heat pump condenser So that at least the air temperature is higher than the wet bulb temperature of the wet garment so that continuous water evaporation takes place. The method according to claim 1,
The control of the dryer unit,
When the user of the dryer selects the maximum temperature depending on the drying time, the final drying degree of the clothes, or the type of the clothes, the controller determines the time for each drying section, the duty value for each section, or the maximum capacity of each heater. The wet bulb temperature of the air passing through the heater differs according to the temperature of the room air and the relative humidity. Therefore, when the wet bulb temperature (or the duct discharge air temperature) of the heater passing air is higher than the indoor air temperature, (Or the time-averaged duct discharge air temperature) is lower than the temperature of the room air to be inhaled by minimizing the duty when the air flow rate and heater capacity are fixed step; And
The duty cycle of each step is increased from D_low to D_high, and when drying is proceeding, if the DT_3 corresponding to the moisture content of the wet clothes is about 10% or if a value near 10% is detected by the moisture sensor, If the wet bulb temperature (or the duct discharge air temperature) of the air is higher than the temperature of the room air to be inhaled and reaches a predetermined value of% between DT_4 and the final moisture weight and 10%, the air volume is decreased Further comprising a control algorithm for increasing the duty to dry until the final moisture weight percentage is reached and terminating the dryer operation. 5. The method of claim 4,
The control of the dryer unit,
Wherein each mode has a control algorithm for controlling a duty corresponding to a stepwise mode according to a clothes humidity sensor value converted from an electric signal detected through a current sensor installed in a drier bar set for each drying step, Clothes dryer control method.

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