TWI651496B - Temperature-based adaptive dehumidification sysyem - Google Patents

Abstract

A temperature-type dehumidification device is disposed in an air-conditioning environment, and the temperature-sensing dehumidification device comprises: a temperature sensing mechanism, a humidity sensing mechanism and a dehumidification mechanism. The temperature sensing mechanism senses the temperature of the air conditioning environment to obtain an ambient temperature information; the humidity sensing mechanism senses the humidity of the air conditioning environment to obtain an environmental humidity information; the dehumidification mechanism presets a temperature and humidity related temperature and humidity reference relationship, And obtaining a humidity reference range according to the temperature and humidity reference relationship corresponding to the ambient temperature information, and comparing the ambient humidity information to the humidity reference range, and performing a dehumidification process when the comparison result does not meet the humidity reference range . Thereby adapting to the ambient temperature and automatically adjusting its humidity target value to achieve the most appropriate humidity for the human body.

Description

Suitable temperature dehumidification device

The present invention relates to a dehumidifier, and more particularly to a temperature-dependent dehumidification apparatus that adjusts a humidity target range according to temperature.

The higher the temperature of the air, the higher the saturation humidity. In medicine, the relationship between air humidity and breathing is very close. At a relative humidity of 40 to 60%, oxygen is more likely to enter the bloodstream through the alveoli, and the human body feels most comfortable. When the temperature and humidity in the environment are high, the perspiration function of the body to regulate body temperature is easily affected and feels hot and uncomfortable. Therefore, dehumidifiers are commonly used to improve the problem of excessive humidity.

The conventional dehumidifier dehumidifies the environment according to a preset humidity target value, and stops when the relative humidity of the environment reaches a preset humidity target value. However, the preset humidity target value of the conventional dehumidifier is a constant value, which cannot be automatically adjusted according to the current ambient temperature, so that the conventional dehumidifier is still difficult to achieve the most suitable humidity for the human body in use. .

Accordingly, it is an object of the present invention to provide a temperature-sensitive dehumidification apparatus that automatically adjusts its humidity target value to suit the ambient temperature to achieve the most appropriate humidity for the human body.

The technical means for solving the problems of the prior art is to provide a temperature-sensing dehumidifying device, which is disposed in an air conditioning environment, comprising: a temperature sensing mechanism that senses the temperature of the air conditioning environment to obtain an ambient temperature information; a humidity sensing mechanism that senses the humidity of the air conditioning environment to obtain an environmental humidity information; and a dehumidification mechanism including a moisture absorbing wheel, a heater, and a control member, the moisture absorbing wheel being connected to the air conditioning environment to adsorb the air conditioner a moisture in the ambient airflow, the heater is thermally coupled to the moisture absorbing wheel to heat and evaporate the moisture adsorbed by the moisture absorbing wheel to remove moisture adsorbed by the moisture absorbing wheel, and the control member is electrically connected to the temperature The sensing mechanism, the humidity sensing mechanism and the heater, the control component obtains a humidity reference range corresponding to the ambient temperature information according to a preset temperature and humidity related temperature and humidity reference relationship, and compares the ambient humidity information For the humidity reference range, when the ambient humidity information is not below the highest value within the humidity reference range, the dehumidification mechanism is A dehumidifying air-conditioned environment.

In an embodiment of the invention, a temperature-selective dehumidification device is provided. When the temperature of the air-conditioning environment is 15.5 ° C to 24 ° C, the temperature-humidity reference relationship is: Y≦-20/8.5X+1640/17± 5, wherein X represents the temperature (°C) of the air conditioning environment, Y represents the humidity (%) of the air conditioning environment, and the control component substitutes the ambient temperature information as the temperature X of the air conditioning environment into the temperature and humidity reference relationship, and the environment is The humidity information is substituted into the temperature and humidity reference relationship as the humidity Y of the air conditioning environment, and the dehumidification process is performed on the air conditioning environment by the dehumidification mechanism when the environmental humidity information is not within the humidity reference range.

In an embodiment of the invention, a temperature-selective dehumidification device is provided, and the control member does not perform the dehumidification process when the ambient humidity information is within the humidity reference range.

In an embodiment of the present invention, a temperature-selective dehumidification device is provided. The temperature-humidity reference relationship is that when the temperature of the air-conditioning environment is greater than 24° C., the highest value of the humidity reference range is less than And 40%, and the control component is configured to perform the dehumidification process on the air conditioning environment by the dehumidification mechanism when the environmental humidity information is not within the humidity reference range.

In an embodiment of the present invention, a temperature-dependent dehumidification device is provided. The temperature-humidity reference relationship is that when the temperature of the air-conditioning environment is less than 15.5 ° C, the highest value of the humidity reference range is 60% or less, and the control is The component is subjected to the dehumidification process to the air conditioning environment by the dehumidification mechanism when the environmental humidity information is not within the humidity reference range.

In an embodiment of the invention, a temperature-selective dehumidification device is provided, and the control member is not subjected to the dehumidification process when the ambient humidity information is within the humidity reference range.

In an embodiment of the invention, a temperature-dependent dehumidification device is provided, the control member being configured to rotate the moisture absorption wheel when the heater is heated.

In an embodiment of the invention, a temperature-dependent dehumidification device is provided which is disposed at a position corresponding to an air outlet surface of the moisture absorption wheel.

In an embodiment of the present invention, a temperature-selective dehumidification device is provided, further comprising a filter mechanism and a wind speed sensing mechanism, the filter mechanism being disposed on one side of an air inlet surface of the moisture absorption wheel, and located at the suction side Between the wet wheel and the air conditioning environment, the airflow from the air conditioning environment flows through the filtering mechanism to the moisture absorbing wheel, and the wind speed sensing mechanism is disposed between the filtering mechanism and the moisture absorbing wheel for sensing The wind speed after the airflow from the air conditioning environment flows through the filtering mechanism is measured.

In an embodiment of the invention, a temperature-selective dehumidification device is provided, further comprising a condensing mechanism, the condensing mechanism and the heater system being respectively disposed on opposite sides of the moisture absorbing wheel, so as to pass through the heater The water vapor evaporated by heating flows into the condensing mechanism from the condensate inlet through the moisture absorbing wheel and condenses into water in the condensing mechanism.

In an embodiment of the present invention, a temperature-sensing dehumidification device is provided. The condensing mechanism is formed with an airflow cooling passage connected to a space disposed between the moisture absorbing wheel and the air conditioning environment. tuyere.

In an embodiment of the invention, a temperature-selective dehumidification device is provided. The condensing mechanism includes a vapor guiding cover, a heat exchange member and a drainage member, and the vapor guiding cover defines a vapor guiding channel. The vapor guiding cover is connected to the moisture absorbing wheel, and an upper side position of the vapor guiding passage is connected to the heat exchange member, and water vapor evaporated by heating by the heater is guided to the heat exchange member, the steam The lower side of one of the guide passages communicates with the drain member to discharge water condensed by the vapor guide cover.

In an embodiment of the present invention, a temperature-sensing dehumidification device is provided. The condensing mechanism has a gas moisture flow member connected to a lower side of the heat exchange member, the gas moisture flow member having a drain port and a wind return flow. The level of the air return port is higher than the drain port.

In an embodiment of the invention, a temperature-type dehumidification device is provided, further comprising a water tank connected to a drain end of the condensing mechanism.

In an embodiment of the present invention, a temperature-type dehumidification device is provided. The gas moisture flow member further includes a return passage member and a return air fan. The return passage member is connected to the wind return port and connected to the heater. The return air fan is disposed on the return passage member for drawing airflow from the air return port to the heater.

An embodiment of the present invention provides a temperature-sensing dehumidification device, further comprising a water level sensing mechanism, the water level sensing mechanism comprising two electrode members and a judging unit, wherein the two electrode members are disposed in the water tank. Each of the electrodes has a dielectric constant sensing surface, and the dielectric constant sensing surface of each electrode faces the dielectric constant sensing surface of the other electrode, and the two dielectric constants There is a water level measuring space between the measuring surfaces, and the determining unit is connected to the two electrode members, and the water level of the water tank is judged according to the change of the dielectric constant sensed in the water level measuring space.

In an embodiment of the invention, a temperature-type dehumidification device is provided, further comprising a pumping motor, the pumping motor is electrically connected to the judging unit, and the water tank is in the water tank when the water level in the water tank reaches a preset water level value. The water is pumped out.

The temperature-sensitive dehumidification device of the present invention has the following effects. The control component of the temperature-sensing dehumidification device of the present invention presets a temperature-humidity-related temperature-humidity reference relationship according to a relative humidity value that is most comfortable to the human body at a specific temperature, by comparing the temperature of the sensed air-conditioning environment to the temperature and humidity. The reference relationship is obtained to obtain a humidity reference range, and dehumidification is performed when the humidity of the sensed air conditioning environment is higher than the humidity reference range, thereby achieving the most appropriate humidity for the human body.

Further, in view of the conventional filtering mechanism, the timing of the replacement of the filtering mechanism is generally observed by the naked eye, and the degree of contamination of the filtering mechanism is often different from person to person, and the judgment of the timing of replacement is not standard. The temperature-sensing dehumidification device of the present invention is provided with a wind speed sensing mechanism for sensing the air volume passing through the filtering mechanism, thereby quantifying the degree of dirtiness of the filtering mechanism, so as to judge the timing of replacement.

The conventional water level sensor includes a buoyancy member pivoted to the water tank and a magnetic member disposed on the upper surface of the buoyancy member. When the water level in the water tank reaches a certain height value, the buoyancy member pivots to float the bottom portion thereof. The position of the magnetic member is changed. However, the buoyancy member of the conventional water level sensor has the risk of failing to cause water level sensing failure due to the water level being high and low. Therefore, the water level sensing mechanism used in the temperature-type dehumidifying apparatus of the present invention is to induce two electrode members by sensing The dielectric constant between the water determines the level of the water in the tank, eliminating the risk of water level sensing failure.

100, 100a‧‧‧wellable dehumidifier

1‧‧‧Temperature sensing mechanism

2‧‧‧Humidity sensing mechanism

3‧‧‧Dehumidification mechanism

31‧‧‧Hydraulic wheel

311‧‧‧ into the wind

312‧‧‧Out of the wind

32‧‧‧heater

33‧‧‧Control components

34‧‧‧Motor

4, 4a‧‧‧ shell

41, 41a‧‧‧ air inlet

42, 42a‧‧ vents

43‧‧‧Guide windshield

5‧‧‧Intake fan

6‧‧‧Filter mechanism

7‧‧‧Wind speed sensing mechanism

8‧‧‧Condensate

81‧‧‧Vapor guide

811‧‧‧Vapor Guide Channel

812‧‧‧Upper position

813‧‧‧lower position

82‧‧‧Heat exchange components

821‧‧‧hollow laminate

83‧‧‧Drainage parts

84‧‧‧ gas and water flow components

841‧‧‧Drainage

842‧‧‧Wind return

843‧‧‧Return channel parts

844‧‧‧Return fan

85‧‧‧Airflow cooling channel

9‧‧‧Water tank

10‧‧‧Water level sensing mechanism

101‧‧‧Electrode components

102‧‧‧judging unit

103‧‧‧ dielectric constant sensing surface

11‧‧‧ pumping motor

S‧‧‧ water level measurement space

S1‧‧‧Environmental Temperature Information

S2‧‧‧Environmental Humidity Information

T‧‧‧Drainage pipe

Fig. 1 is a perspective view showing a temperature-sensitive dehumidifying apparatus according to an embodiment of the present invention.

Fig. 2 is a block diagram showing the temperature-sensitive dehumidification apparatus according to this embodiment of the present invention.

Fig. 3 is a view showing the reference relationship of the temperature-humidity dehumidifying apparatus in the temperature and humidity according to the embodiment of the present invention.

Fig. 4 is a schematic cross-sectional view showing the temperature-sensing dehumidifying apparatus according to the embodiment of the present invention.

Fig. 5 is a cross-sectional view showing the second embodiment of the temperature-sensing dehumidifying apparatus according to the embodiment of the present invention.

Fig. 6 is a schematic plan view showing the temperature-sensing dehumidifying apparatus according to the embodiment of the present invention.

Fig. 7 is a cross-sectional view showing the third embodiment of the temperature-sensing dehumidifying apparatus according to the embodiment of the present invention.

Fig. 8 is a perspective view showing a condensing mechanism of the temperature-sensing dehumidifying apparatus according to the embodiment of the present invention.

Fig. 9 is a cross-sectional view showing the fourth embodiment of the temperature-sensing dehumidifying apparatus according to the embodiment of the present invention.

Figure 10 is a perspective view showing a temperature-sensitive dehumidification apparatus according to another embodiment of the present invention.

Embodiments of the present invention will be described below with reference to Figs. 1 to 10 . This description is not intended to limit the embodiments of the invention, but is an embodiment of the invention.

As shown in FIGS. 1 to 3, an appropriate temperature dehumidification apparatus 100 according to an embodiment of the present invention is disposed in an air conditioning environment (not shown). For example, the air conditioning environment is a bedroom, a bathroom, a living room, an office or other environment. The temperature-sensing dehumidifying device 100 includes a temperature sensing mechanism 1, a humidity sensing mechanism 2, and a dehumidifying mechanism 3.

The temperature sensing mechanism 1 senses the temperature of the air conditioning environment to obtain an ambient temperature information S1. The humidity sensing mechanism 2 senses the humidity of the air conditioning environment to obtain an environmental humidity information S2. Dehumidification The mechanism 3 includes a moisture absorbing wheel 31, a heater 32, and a control member 33. The moisture absorbing wheel 31 is in communication with the air conditioning environment to adsorb moisture in the airflow from the air conditioning environment. The heater 32 is thermally connected to the moisture absorbing wheel 31 to heat and evaporate the moisture adsorbed by the moisture absorbing wheel 31 to remove the moisture adsorbed by the moisture absorbing wheel 31. The control member 33 is electrically connected to the temperature sensing mechanism 1, the humidity sensing mechanism 2, and the heater 32. The control component 33 obtains a humidity reference range corresponding to the ambient temperature information according to a preset temperature-humidity-related temperature-humidity reference relationship (as shown in FIG. 3), and compares the ambient humidity information to the humidity. The dehumidification process is performed on the air conditioning environment by the dehumidification mechanism 3 when the ambient humidity information is not within the humidity reference range. Preferably, the moisture absorbing wheel 31 has a plurality of micropores to achieve a good moisture absorption effect. For example, the moisture absorbing wheel 1 is made of a moisture absorbing material such as zeolite, Silica Gel, Activated Alumina, Activated Carbons or the like. In detail, the dehumidification mechanism 3 further includes a motor 34 electrically connected to the control member 33. The motor 34 drives the moisture absorbing wheel 31 to rotate when the heater 32 is heated. Preferably, the dehumidification mechanism 3 includes a heating temperature sensing unit (not shown) electrically connected to the heater 32 for sensing the heating temperature of the heater, and the heating temperature of the heater 32 is higher than a standard. When the value is set, the operation of the heater 32 is turned off. Optionally, the dehumidification mechanism 3 includes a fuse (not shown) electrically connected to the heater 32, and is disconnected when the heating temperature of the heater 32 is higher than a standard value to prevent the heater 32 from heating. Temperature is too high. The present invention provides a dual safety protection mechanism by the heating temperature sensing unit and the fuse to avoid accidents due to excessive heating temperature of the heater 32.

As shown in FIG. 3, in the temperature-sensing dehumidifying apparatus 100 according to the embodiment of the present invention, when the temperature of the air-conditioning environment is 15.5 ° C to 24 ° C, the reference relationship of the temperature and humidity is: Y ≦ -20 / 8.5 X+1640/17±5, where X represents the temperature (°C) of the air conditioning environment, Y represents the humidity (%) of the air conditioning environment, and the control member 33 substitutes the ambient temperature information as the temperature X of the air conditioning environment into the temperature. a humidity reference relationship, the ambient humidity information is substituted into the temperature and humidity reference relationship as the humidity Y of the air conditioning environment, and the dehumidification mechanism 3 performs the dehumidification treatment on the air conditioning environment when the ambient humidity information is not within the humidity reference range . When the temperature of the air conditioning environment is 15.5 ° C to 24 ° C and the environmental humidity information is not within the humidity reference range, for example, when the temperature of the air conditioning environment is 21 ° C and the humidity of the air conditioning environment is 60%, the control member According to the temperature and humidity reference relationship, the humidity reference range is 0% to 47%, and the heater 32 is activated to heat the moisture absorbing wheel 31 to evaporate the moisture adsorbed by the moisture absorbing wheel 31 into water. The vapor is caused to be wicked by the moisture absorbing wheel 31 when passing through the moisture absorbing wheel 31 to discharge the moisture absorbing air stream to the air conditioning environment, thereby performing the dehumidification treatment on the air conditioning environment.

As shown in FIG. 3, according to the temperature-sensing dehumidifying apparatus 100 of the embodiment of the present invention, the temperature-humidity reference relationship is that when the temperature of the air-conditioning environment is greater than 24 ° C, the humidity reference range is 40% or less. And the control member 33 is configured to perform the dehumidification process on the air conditioning environment by the dehumidification mechanism 3 when the ambient humidity information is not within the humidity reference range. When the temperature of the air conditioning environment is greater than 24 ° C and the ambient humidity information is not within the humidity reference range, for example, when the temperature of the air conditioning environment is 24.5 ° C and the humidity of the air conditioning environment is 60%, the control member 33 is configured according to the The temperature and humidity reference relationship takes the humidity reference range from 0% to 40%, and the heater 32 is activated to heat the moisture absorbing wheel 31 to evaporate the moisture adsorbed by the moisture absorbing wheel 31 into water vapor. The airflow from the air conditioning environment is wicked by the moisture absorbing wheel 31 when passing through the moisture absorbing wheel 31 to discharge the moisture absorbing airflow back to the air conditioning environment, thereby performing the dehumidification treatment on the air conditioning environment.

As shown in FIG. 3, according to the temperature-sensing dehumidifying apparatus 100 of the embodiment of the present invention, the temperature-humidity reference relationship is that when the temperature of the air-conditioning environment is less than 15.5 ° C, the humidity reference range is 60% or less. And the control member 33 is used when the environmental humidity information is not within the humidity reference range. The dehumidification process is performed by the dehumidification mechanism 3 on the air conditioning environment. When the temperature of the air conditioning environment is less than 15.5 ° C and the ambient humidity information is not within the humidity reference range, for example, when the temperature of the air conditioning environment is 15 ° C and the humidity of the air conditioning environment is 70%, the control member 33 is configured according to the The temperature and humidity reference relationship takes the humidity reference range from 0% to 60%, and the heater 32 is activated to heat the moisture absorbing wheel 31 to evaporate the moisture adsorbed by the moisture absorbing wheel 31 into water vapor. The airflow from the air conditioning environment is wicked by the moisture absorbing wheel 31 when passing through the moisture absorbing wheel 31 to discharge the moisture absorbing airflow back to the air conditioning environment, thereby performing the dehumidification treatment on the air conditioning environment.

As shown in FIG. 3, according to the temperature-sensing dehumidifying apparatus 100 of the embodiment of the present invention, the control member 33 does not perform the dehumidifying process when the ambient humidity information is within the humidity reference range. For example, when the temperature of the air conditioning environment is 21 ° C and the humidity of the air conditioning environment is 45%, the control member 33 obtains the humidity reference range from 0% to 47% according to the temperature and humidity reference relationship, and determines the environment. The humidity information is within the humidity reference range, and at the same time, the motor 34 is not activated to stop the rotation of the moisture absorbing wheel 31, and the heater 32 is not activated to heat the moisture absorbing wheel 31.

As shown in Fig. 3, the control member 33 does not perform the dehumidification process when the ambient humidity information is within the humidity reference range. For example, when the temperature of the air conditioning environment is 24.5 ° C and the humidity of the air conditioning environment is 35%, the control member 33 obtains the humidity reference range from 0% to 40% according to the temperature and humidity reference relationship, and determines the environment. The humidity information is within the humidity reference range, and at the same time, the motor 34 is not activated to stop the rotation of the moisture absorbing wheel 31, and the heater 32 is not activated to heat the moisture absorbing wheel 31. When the temperature of the air conditioning environment is 15 ° C and the humidity of the air conditioning environment is 55%, the control component 33 obtains the humidity reference range from 0% to 60% according to the temperature and humidity reference relationship, and determines that the environmental humidity information is in the At the same time as the humidity reference range, the motor 34 is not activated to stop the rotation of the moisture absorbing wheel 31, and the heater 32 is not activated to heat the moisture absorbing wheel 31.

As shown in FIGS. 1 , 2 , and 4 , in detail, the temperature-sensitive dehumidifying apparatus 100 includes a casing 4 and an intake fan 5 . The temperature sensing mechanism 1, the humidity sensing mechanism 2, the dehumidifying mechanism 3, and the intake fan 5 are disposed in the casing 4. The housing 4 has an air inlet 41 and an air outlet 42. The air intake fan 5 is disposed between the air inlet 41 and the moisture absorbing wheel 31, and the airflow for the air conditioning environment is from the air inlet 41. It is drawn to the air outlet 42.

As shown in FIG. 2, FIG. 4, and FIG. 5, the temperature-sensing dehumidifying apparatus 100 further includes a filtering mechanism 6 and a wind speed sensing mechanism 7, and the filtering mechanism 6 is disposed on the moisture absorbing wheel 31. One side of the wind inlet surface 311 is located between the moisture absorbing wheel 31 and the air conditioning environment, and the airflow from the air conditioning environment flows through the filter mechanism 6 to the moisture absorbing wheel 31. In this embodiment, the filtering mechanism 6 is disposed at the air inlet 41 to filter air pollution sources such as pollen, dust, and dust mites. Specifically, the filter mechanism 6 is a particulate filter. The wind speed sensing mechanism 7 is disposed on a side of the filtering mechanism 6 opposite to the air conditioning environment, and is configured to sense a wind speed after the airflow from the air conditioning environment flows through the filtering mechanism 6. In this embodiment, the wind speed sensing mechanism 7 further includes a cleaning/replacement screen prompting member (not shown), and the cleaning/replacement screen prompting member presets a minimum wind speed warning value, and flows through the filtering mechanism 6 When the wind speed of the rear airflow is lower than the minimum wind speed prompt value, a prompt is issued to remind the cleaning or replacement of the filter mechanism 6.

As shown in FIG. 2 and FIG. 6 to FIG. 8 , the temperature-type dehumidifying device further includes a condensing mechanism 8 , and the condensing mechanism 8 and the heater 32 are respectively disposed on the opposite side of the moisture absorbing wheel 31 . The side, that is, the condensing mechanism 8 is disposed at a position corresponding to the air inlet surface 311 of the moisture absorbing wheel 31, and the heater 32 is disposed at a position corresponding to an air outlet surface 312 of the moisture absorbing wheel 31, The water vapor heated and evaporated by the heater 32 passes through the moisture absorbing wheel 31, flows into the condensing mechanism 8, and condenses into water in the condensing mechanism 8.

As shown in FIG. 2 and FIG. 6 to FIG. 8 , according to the temperature-type dehumidifying apparatus 100 of the embodiment of the present invention, the condensing mechanism 8 includes a vapor guiding cover 81, a heat exchange member 82, and One Drain member 83. The vapor guiding cover 81 defines a vapor guiding passage 811 which is connected to the air inlet surface 311 of the moisture absorbing wheel 31 and is located at a position opposite to the heater 32 so as to be heated. The water vapor evaporated by the device 32 passes through the moisture absorbing wheel 31 and flows into the vapor guiding cover 81. An upper side position 812 of the vapor guiding passage is connected to the heat exchange member 82, and water vapor evaporated by heating by the heater 32 is guided to the heat exchange member 82, and a lower side position 813 of the vapor guiding passage. The water that is condensed by the steam guiding cover 81 is discharged in communication with the drain member 83. Specifically, the heat exchange member 82 includes a plurality of hollow laminates 821, one end of each of the hollow laminates is in communication with the vapor guide cover 81, and is used to vaporize water vaporized by the heater 32. The hollow layer is plated and condensed in the hollow layer.

As shown in FIG. 2 and FIG. 6 to FIG. 9, according to the temperature-type dehumidifying apparatus 100 of the embodiment of the present invention, the condensing mechanism 8 has a gas moisture flow member 84 connected to the heat exchange member 82. Below the side. The gas moisture flow member 84 has a drain port 841 and a wind return port 842, and the level of the wind return port 842 is higher than the drain port 841. Preferably, the gas moisture flow member 84 further includes a return passage member 843 and a return air fan 844. The return passage member 843 is connected to the air return port 842 and connected to the heater 32. The return air fan 844 is disposed. The return channel member 843 is used to draw airflow from the wind return port 842 to the heater 32.

As shown in FIG. 8, the heat exchange member 82 of the condensing mechanism 8 is formed with an air flow cooling passage 85 that communicates with the air between the moisture absorbing wheel 31 and the air conditioning environment. Between the tuyere 41 and the air outlet 42 , the airflow flowing into the casing 4 from the air conditioning environment is such that the water vapor in the heat exchange member 82 is condensed into water through the airflow cooling passage 85, and is discharged therefrom. The tuyere 42 flows back to the air conditioning environment.

As shown in FIG. 2 and FIG. 6 to FIG. 8 , the temperature-type dehumidifying device 100 further includes a water tank 9 connected to a drain end of the water condensing mechanism 8 for collecting in the water condensing mechanism 8 . Condensed water. Specifically, the drain end of the condensing mechanism 8 includes the drain member 83, the drain port 841, and the return passage member 843.

As shown in FIG. 2 and FIG. 7 , the temperature-sensing dehumidifying apparatus 100 further includes a water level sensing mechanism 10 including two electrode members 101 and a determining unit 102. The electrode member 101 is disposed in the water tank 9, and each of the electrode members 101 has a dielectric constant sensing surface 103, and the dielectric constant sensing surface 103 of each of the electrode members 101 faces the other electrode 101. The dielectric constant sensing surface 103 has a water level measuring space S between the two dielectric constant sensing surfaces 103. The determining unit 102 is connected to the two electrode members 101, and according to the water level measuring space S The water level of the water tank 9 is judged by the change in the induced dielectric constant.

As shown in FIG. 2, the temperature-sensing dehumidifying apparatus 100 further includes a pumping motor 11 electrically connected to the judging unit 102, and the water tank is when the water level in the water tank 9 reaches a preset water level value. The water in 9 is pumped out through a drain pipe T.

Optionally, the temperature-sensing dehumidifying device 100 further includes an operating state prompting mechanism (not shown). The operating state prompting mechanism includes a sensing unit, a transmitting unit and a prompting unit. The sensing unit is electrically connected to the motor. The intake fan 5, the return air fan 844, and/or the pumping motor 11 are configured to sense the operating state of the motor 34, the intake fan 5, the return air fan 844, and/or the pumping motor 11. And generate a working state sensing signal. The transmitting unit is electrically connected to the sensing unit and the prompting unit, and the transmitting unit receives the operating state sensing signal generated by the sensing unit and sends a prompt message by the prompting unit according to the operating state sensing signal. It is worth mentioning that the prompting unit is disposed in a remote controller, and the network is connected to the transmission unit, and the operation can be wirelessly received. State sensing signal. Incidentally, those having ordinary skill in the art to which the present invention pertains may apply the temperature-sensing dehumidifying apparatus of the present invention to the remote controller in various manners according to the conventional means to perform dehumidifying function or the like for the warm-type dehumidifying apparatus. Functional control.

In this embodiment, the air inlet 41 and the air outlet 42 are located on the same side of the casing 4, and the casing 4 further includes a wind deflector 43 for passing the moisture absorbing wheel 31 and the The air flow of the heat exchange member 82 is guided to the air outlet 42.

A warm-type dehumidifying device 100a in another embodiment of the present invention is substantially the same as the warm-type dehumidifying device 100, and the same portions will not be described again. The difference is that the air inlet 41a and the air outlet 42a of the casing 4a are located on different sides of the casing 4. Of course, the invention is not limited thereto. Those skilled in the art to which the present invention pertains can modify the position of the air inlet and the air outlet of the housing according to the present invention to match different mounting modes.

The above description and description are only illustrative of the preferred embodiments of the present invention, and those of ordinary skill in the art can make other modifications in accordance with the scope of the invention as defined below and the description above, but such modifications should still be It is within the scope of the invention to the invention of the invention.

Claims (10)

A temperature-sensing dehumidification device is disposed in an air-conditioning environment, comprising: a temperature sensing mechanism that senses the temperature of the air-conditioning environment to obtain an ambient temperature information; and a humidity sensing mechanism that senses the humidity of the air-conditioning environment to obtain an environmental humidity information And a dehumidification mechanism comprising a moisture absorbing wheel, a heater and a control member, the moisture absorbing wheel being in communication with the air conditioning environment to adsorb moisture in the airflow from the air conditioning environment, the heater being thermally coupled to the suction The wet wheel removes moisture adsorbed by the moisture absorption wheel by heating and evaporating the moisture absorbed by the moisture absorption wheel, and the control member is electrically connected to the temperature sensing mechanism, the humidity sensing mechanism and the heater, and the control member is Presetting a temperature-humidity-related temperature-humidity reference relationship to obtain the corresponding humidity reference range from the temperature sensing mechanism, and comparing the ambient humidity information to the humidity reference range The dehumidification mechanism is used when the ambient humidity information obtained from the humidity sensing mechanism is not below the highest value within the humidity reference range The air-conditioned environment for a dehumidification process, and not to perform the dehumidification process when the ambient humidity within the humidity information reference range, wherein the relationship between the reference temperature and humidity of the humidity with reference to the temperature range of the air-conditioned environment adjusted. The temperature-sensing dehumidification device according to claim 1, wherein the temperature-humidity reference relationship is: Y≦-20/8.5X+1640/17±5, when the temperature of the air-conditioning environment is 15.5 ° C to 24 ° C, wherein X represents the temperature (°C) of the air conditioning environment, Y represents the humidity (%) of the air conditioning environment, and the control component substitutes the ambient temperature information as the temperature X of the air conditioning environment into the temperature and humidity reference relationship, and uses the environmental humidity information as The humidity Y of the air conditioning environment is substituted into the temperature and humidity reference relationship, and the dehumidification process is performed on the air conditioning environment by the dehumidification mechanism when the environmental humidity information is not within the humidity reference range. The temperature dehumidification device according to claim 1, wherein the temperature and humidity reference relationship is that when the temperature of the air conditioning environment is greater than 24 ° C, the highest value of the humidity reference range is less than or equal to 40%, or the temperature and humidity reference relationship When the temperature of the air-conditioned environment is less than 15.5 ° C, the highest value of the humidity reference range is 60% or less. A temperature-dependent dehumidification apparatus according to claim 1, wherein the control member is configured to rotate the moisture absorption wheel when the heater is heated. The temperature-sensing dehumidification device of claim 1, further comprising a filter mechanism and a wind speed sensing mechanism, the filter mechanism being disposed on one side of an air inlet surface of the moisture absorption wheel, and located at the moisture absorption wheel and the Between the air conditioning environment, the airflow from the air conditioning environment flows through the filtering mechanism to the moisture absorbing wheel, and the wind speed sensing mechanism is disposed between the filtering mechanism and the moisture absorbing wheel for sensing the air conditioner The wind speed of the ambient airflow through the filter mechanism. The warming type dehumidifying device according to claim 1, further comprising a condensing mechanism, wherein the condensing mechanism and the heater are respectively disposed on opposite sides of the moisture absorbing wheel to be heated and evaporated by the heater. The water vapor flows into the condensing mechanism from a condensate inlet through the moisture absorbing wheel and condenses into water in the condensing mechanism. The temperature-sensing dehumidification device of claim 6, wherein the condensing mechanism comprises a vapor guiding cover, a heat exchange member and a drainage member, the vapor guiding cover forming a vapor guiding channel, the vapor guiding The hood is connected to the moisture absorbing wheel, and an upper side position of the vapor guiding channel is connected to the heat exchange member, and water vapor evaporated by heating by the heater is guided to the heat exchange member, the vapor guiding channel One of the lower positions communicates with the drain member to discharge water condensed by the vapor guide cover. The temperature dehumidifying device according to claim 6, wherein the condensing mechanism has a gas moisture flow member connected to a lower side of the heat exchange member, the gas moisture flow member having a drain port and a wind return port, The level of the wind return is higher than the drain. The temperature dehumidification device of claim 8, wherein the gas moisture flow member further comprises a return passage member and a return air fan, the return passage member is connected to the wind return port and connected to the heater, the back A fan is disposed in the return passage member for drawing airflow from the wind return port to the heater. The temperature-sensing dehumidification device according to any one of claims 6 to 8, further comprising a water level sensing mechanism, a water pumping motor, and a water tank connected to a drain end of the water condensing mechanism, the water level sensing The mechanism comprises two electrode members and a judging unit, wherein the two electrode members are disposed in the water tank, wherein each of the electrode members has a dielectric constant sensing surface, and the dielectric constant sensing surface of each electrode Facing the dielectric constant sensing surface of the other electrode, the two dielectric constant sensing surfaces have a water level measuring space, and the determining unit is connected to the two electrode members, and according to the water level Determining the water level of the water tank by measuring a change in the dielectric constant sensed by the measurement space, the pumping motor is electrically connected to the judging unit, and the water in the water tank is drawn when the water level in the water tank reaches a preset water level value discharge.