JP3660957B2 - Relative humidity detection device and air conditioning indoor unit provided with the same - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to a relative humidity detection device capable of detecting the relative humidity in a room where air conditioning is performed by an air-conditioning indoor unit, and more precisely, the relative humidity of a living space where a person is present. The present invention relates to an air conditioning indoor unit that performs an air conditioning operation based on relative humidity.
[0002]
[Prior art]
The air conditioner indoor unit detects the air condition in the room to be air-conditioned using the built-in temperature detecting means and relative humidity detecting means so that the air condition is maintained within a certain range. Controls the operating state of heat exchangers. And in order to alert | report a state of indoor air to a user, there exist some comprised so that the detected temperature might be displayed on the display part with which an operation panel or a wireless remote control is provided. Furthermore, recently, an attempt has been made to display the detected relative humidity together from the viewpoint of more accurately reporting the state of indoor air.
[0003]
[Problems to be solved by the invention]
The relative humidity changes with a change in temperature even if the absolute humidity (the amount of water vapor in the air) is constant. This is because the amount of saturated water vapor in the air varies greatly depending on the ambient temperature, as shown in FIG. Therefore, the relative humidity detected by the relative humidity detection means built in the air conditioning indoor unit may not match the relative humidity of the living space. This is because there is a difference between the temperature in the vicinity of the relative humidity detecting means and the temperature in the living space.
[0004]
One cause of such a temperature difference is that the installation location of the air conditioning indoor unit and the living space are separated. That is, in general, the air conditioning indoor unit is installed on a wall surface near the ceiling of the room, but the living space is located in the vicinity of the floor at the center of the room, which causes a temperature difference. Relative humidity detection means is installed under the electrical component box, at the side of the room air thermistor, etc., but it is generated from electrical components and heat exchangers at any installation location. This is one of the causes of the temperature difference.
[0005]
Furthermore, in an air-conditioning indoor unit, when the operating state is changed, such as when the thermo-off or defrosting operation is started, the temperature inside the device is likely to change greatly, so that the relative humidity varies with the change of the operating state. There is also.
[0006]
And when air-conditioning operation control is performed based on such inaccurate relative humidity, the air state of the living space cannot be controlled to an optimum state, and there is a possibility that people may feel uncomfortable. is there. Also, the inaccurate relative humidity display is completely meaningless for the user.
[0007]
The present invention has been made to solve the above-mentioned conventional drawbacks, and an object of the present invention is to provide a relative humidity detector capable of accurately detecting the relative humidity of the living space and to air-condition the detected relative humidity. An object of the present invention is to provide an air conditioning indoor unit that can be used for driving control and display to realize a comfortable living space.
[0008]
[Means for Solving the Problems]
The relative humidity detection device according to claim 1 includes a relative humidity detection means 7 for detecting the relative humidity, and a correction coefficient preset for the detected relative humidity of the relative humidity detection means 7 according to the operating state of the air conditioning indoor unit 1. Or the correction means 2 which correct | amends and outputs based on a correction amount, The said correction means 2 performs the correction | amendment based on the correction coefficient or the correction amount according to the operation state currently selected of the air-conditioning indoor unit 1. It is characterized by.
[0009]
In the relative humidity display device according to the first aspect, the detected relative humidity is corrected and output based on the correction coefficient or the correction amount set according to the currently selected operation state of the air conditioning indoor unit 1. . This correction basically takes into account the temperature difference between the space near the relative humidity detection means 7 and the living space and the temperature in the space near the relative humidity detection means 7. The correction is not directly obtained and corrected, but is corrected with a correction coefficient or correction amount for each operating state of the air conditioning indoor unit 1 set in advance. Although it is a rough correction, the correction process is performed with a simple configuration. It can be carried out. Accordingly, it is possible to detect the accurate relative humidity of the living space in which the error due to the difference in the driving state is corrected. Here, the operation state includes not only the type of operation such as cooling, heating, air blowing, humidification, dehumidification, ventilation, and defrosting but also the air volume. In addition, if it sets so that a correction coefficient or a correction amount may be changed according to the level of the detected relative humidity, the relative humidity of a living space can be calculated | required more correctly.
[0010]
The relative humidity detection apparatus according to claim 2 includes a display means 5 for displaying the output relative humidity.
[0011]
In the relative humidity detecting apparatus according to the second aspect, the finally outputted relative humidity is displayed on the display means 5. Thus, the user can know the accurate relative humidity of the living space.
[0012]
An air conditioning indoor unit according to a third aspect includes the relative humidity detection device according to the first or second aspect, and an operation control unit 2 that performs an air conditioning operation based on the relative humidity detected by the relative humidity detection device. It is characterized by.
[0013]
In the air conditioning indoor unit according to the third aspect, the air conditioning operation is controlled based on the finally outputted relative humidity. Here, the air conditioning operation means three types of humidity control operation, temperature control operation, and humidity control / temperature control operation. The humidity adjustment operation refers to a humidification operation, a dehumidification operation, and a ventilation operation, and the temperature adjustment operation refers to a heating operation and a cooling operation. The humidity control / temperature control operation refers to an operation performed by appropriately combining the humidity control operation and the temperature control operation. A comfortable living space can be realized by performing an air conditioning operation based on the relative humidity thus obtained. In addition, since the user can start / stop the operation of the air-conditioning indoor unit 1 and select the operation state based on the displayed relative humidity, the usability of the air-conditioning indoor unit 1 is improved.
[0014]
DETAILED DESCRIPTION OF THE INVENTION
Next, specific embodiments of the relative humidity detection device of the present invention and an air conditioning indoor unit including the same will be described in detail with reference to the drawings. FIG. 1 is a block diagram illustrating an outline of an electrical configuration of an air-conditioning indoor unit 1 including a relative humidity detection device.
[0015]
The air conditioning indoor unit 1 includes a control unit 2 realized by a microcomputer, and performs a desired air conditioning operation according to an operation signal from an operation unit 4 of a remote control (remote control device) 3. The user operates the operation means 4 to select a set temperature, an air volume, and the like as types of operation such as cooling, heating, air blowing, humidification, dehumidification, and ventilation. The selected operating state is displayed on the display means 5 of the remote controller 3. The control means 2 executes the operation control in order to realize the operation state selected by the user according to the control program stored in the memory 6. The operation control is to control a heat exchanger, a fan, a humidifier, an outdoor unit compressor, and the like (not shown).
[0016]
The control unit 2 is connected to a relative humidity detection unit 7 and a temperature detection unit 8, and is also connected to a room temperature detection unit 9 provided in the remote controller 3. The relative humidity detection means 7 is disposed below the electrical component box that houses electrical components such as the control means 2, the indoor air inlet, and the like. Further, the temperature detection means 8 is disposed in the vicinity of the relative humidity detection means 7. In the case of the wired type, the remote controller 3 can be freely installed on the wall where the air conditioning indoor unit 1 is installed and can be easily used by the user, and in the case of the wireless type, the user can freely carry it. it can.
[0017]
An object of the present invention is to more accurately detect the relative humidity of a living space where a person is present in a room. Specific reference examples and embodiments will be described below.
[0018]
[First Reference Example]
In the first reference example, the control unit 2 as a correction unit corrects and outputs the relative humidity detected by the relative humidity detection unit 7 based on the temperature difference between the living space and the space near the relative humidity detection unit 7. It is something to try. This takes into account the temperature difference dependency that the relative humidity changes by about 6% when the temperature changes by 1 ° C. even if the amount of water vapor in the air is constant near room temperature.
[0019]
The temperature difference is obtained by directly measuring using a temperature detecting means 8 arranged in the vicinity of the relative humidity detecting means 7 and a room temperature detecting means 9 arranged in the remote controller 3. As a result, the temperature difference can be accurately detected. In particular, when the remote control 3 is a wireless type, the remote control 3 is generally placed in the vicinity of the user, so that the temperature difference can be detected more accurately.
[0020]
As another method for detecting the temperature difference, the temperature difference for each operating state of the air conditioning indoor unit 1 measured in advance is stored in the memory 6, and the temperature difference corresponding to the currently selected operating state is read out. There is also a method. For example, it is + 3 ° C. for heating operation and + 1.5 ° C. for cooling operation. Although this method is inferior to the direct measurement in terms of accuracy, the two detection means 8 and 9 are not required, and can be realized with a simple configuration.
[0021]
Next, correction of the detected relative humidity is performed according to the following correction formula using a temperature difference ΔT (= detection temperature of the temperature detection means 8−detection temperature of the room temperature detection means 9) as a function. That is, as described above, when the temperature changes by 1 ° C. near normal temperature, the relative humidity changes by about 6%. Therefore, if the temperature difference ΔT can be detected, the relative humidity can be calculated by the following equation.
Relative temperature (%) of living space = detected relative humidity (%) of relative humidity detecting means 7 × (1−0.06 × ΔT)
[0022]
As another correction method, a table created by calculating the correspondence relationship between the detected relative humidity, the temperature difference, and the relative humidity of the living space is stored in the memory 6, and this table is referred to. There is also a method of reading the relative humidity of the living space. FIG. 2 is a graph showing the relationship between the detected relative humidity and the relative humidity of the living space created assuming that the detected relative humidity increases by 6% for each temperature difference of 1 ° C. Based on this graph, the above table is created.
[0023]
As described above, according to the first reference example, the accurate relative humidity of the living space in which the error due to the temperature difference is corrected can be obtained regardless of the operating state of the air conditioning indoor unit 1.
[0024]
[Second Reference Example]
In the second reference example, the relative temperature detected by the relative humidity detection means 7 in the control means 2 that is a correction means is calculated based on the temperature difference between the living space and the space near the relative humidity detection means 7 and the relative humidity detection means 7. Is to be corrected and output based on the temperature in the vicinity space. Basically, as in the first embodiment, even if the amount of water vapor in the air is constant near normal temperature, the relative humidity changes by about 6% when the temperature changes by 1 ° C. In consideration of this, the temperature dependency that the rate of change of the relative humidity accompanying the temperature change changes according to the temperature of the space near the relative humidity detecting means 7 is also taken into consideration.
[0025]
That is, as shown in FIG. 3, the rate of change in relative humidity has a temperature dependency that even if the temperature difference is 1 ° C., it is smaller than 6% at high temperature and larger than 6% at low temperature. f (t), and this temperature dependency is also taken into consideration in the second embodiment. Here, t is the temperature of the space near the relative humidity detecting means 7.
[0026]
The method for detecting the temperature difference ΔT is the same as in the first embodiment. Further, the temperature is detected using the temperature detecting means 8 arranged in the vicinity of the relative humidity detecting means 7. The detected relative humidity is corrected according to the following correction formula.
Relative humidity (%) of living space = detected relative humidity (%) of relative humidity detecting means 7 × (1−f (t) × ΔT)
[0027]
Further, it may be performed according to the following correction formula.
Relative humidity (%) of living space = detected relative humidity (%) of relative humidity detecting means 7 × (1−0.06 × ΔT × g (t))
Here, g (t) indicates the temperature dependency of the relative humidity change rate when the relative humidity change rate 0.06 at a temperature of 20 ° C. is set as a reference (= 1) as shown in FIG. Note that f (t) and 0.06 × g (t) are substantially equivalent.
[0028]
As another correction method, a table created by calculating in advance the correspondence relationship between the detected relative humidity, the temperature difference, the temperature, and the relative humidity of the living space is stored in the memory 6, and this table is stored. There is also a method of reading out the relative humidity of the living space by referring to it.
[0029]
As described above, according to the second reference example, not only the temperature difference but also the error caused by the temperature is corrected, so that the relative humidity of the living space can be obtained more accurately than in the first reference example.
[0030]
[First Embodiment]
In the first embodiment, a correction coefficient F1 (x) or a correction amount F2 in which the relative temperature detected by the relative humidity detection means 7 is set in accordance with the operating state of the air conditioning indoor unit 1 in the control means 2 as correction means. It is intended to be corrected based on (x) and output. This is basically in consideration of the temperature difference and temperature in the same manner as in the first or second embodiment described above, but instead of directly calculating and correcting the temperature difference or temperature, it is set in advance. The correction is roughly made based on the correction coefficient F1 (x) or the correction amount F2 (x). Note that x represents an operating state.
[0031]
The correction coefficient F1 (x) or the correction amount F2 (x) is measured for each operating state of the air conditioning indoor unit 1 and stored in the memory 6. The operation state includes not only the type of operation such as cooling, heating, air blowing, humidification, dehumidification, ventilation, and defrosting but also the air volume. The detected relative humidity is corrected according to the following correction formula.
Relative humidity (%) of living space = detected relative humidity (%) of relative humidity detecting means 7 × F1 (x)
Or the relative humidity (%) of the living space = the detected relative humidity (%) of the relative humidity detecting means 7 + F2 (x)
[0032]
As described above, according to the first embodiment, it is possible to obtain an accurate relative humidity of the living space by correcting an error caused by a difference in operation state with a simple configuration. If the correction coefficient F1 (x) or the correction amount F2 (x) is set to change depending on the detected relative humidity, the relative humidity of the living space can be obtained more accurately.
[0033]
[Third Reference Example]
In the third reference example, in the control means 2 which is a relative humidity deriving means, the detected relative humidity is not corrected as in each of the above embodiments, but based on the detected absolute humidity and the temperature of the living space. It seeks to output the relative humidity of the space. This is because the absolute humidity is less biased in the indoor space (including the inside of the air-conditioning indoor unit 1) compared to the temperature and relative humidity.
[0034]
The absolute humidity is calculated by the control means 2 according to the following formula based on the detected relative humidity of the relative humidity detecting means 7 and the detected temperature of the temperature detecting means 8.
Absolute humidity (g / m ³ ) = detected relative humidity (%) × saturated water vapor amount at detected temperature (g / m ³ ) / 100 Here, the saturated water vapor amount was created based on the graph shown in FIG. Calculate according to the formula or table. Although absolute humidity detection means that can directly detect absolute humidity may be used, it is expensive. From the viewpoint of cost reduction, it is preferable to calculate from relative humidity and temperature. Is good.
[0035]
The relative humidity of the living space is calculated according to the following formula based on the calculated absolute humidity and the temperature of the living space.
Relative humidity (%) of living space = absolute humidity (g / m ³ ) ÷ saturated water vapor amount (g / m ³ ) at the temperature of the living space × 100
Here, the temperature of the living space may be directly detected using the room temperature detecting means 9 of the remote controller 3, or the temperature detected by the temperature detecting means 8 and the temperature stored in advance for each operating state as in the first embodiment. You may detect indirectly based on a difference. When it is desired to obtain an accurate relative humidity, it can be detected directly, and when it is desired to simplify the configuration, it can be detected indirectly.
[0036]
As described above, according to the third reference example, an accurate relative humidity of the living space can be obtained as compared with the case where the detected relative humidity is corrected.
[0037]
Further, the relative humidity obtained in accordance with each of the above embodiments is displayed on the display means 5 of the remote controller 3. As a result, the user can know the accurate relative humidity of the living space, and can start / stop the operation of the air-conditioning indoor unit 1 and select the operation state based on the relative humidity. The usability of the air conditioning indoor unit 1 is improved. In addition to the display unit 5, the relative humidity may be displayed on a display unit disposed on the front surface of the air conditioning indoor unit 1, for example. In addition, if the temperature of the living space detected for correcting the relative humidity is displayed on the display means 5, it can be shared with the temperature display configuration, so that the configuration can be simplified.
[0038]
Further, the obtained relative humidity is used for control of the air conditioning operation of the air conditioning indoor unit 1 in the control means 2 which is an operation control means. There are three types of air conditioning operations: humidity control operation, temperature control operation, and humidity control / temperature control operation.
[0039]
The humidity control operation includes ventilation operation in addition to humidification / dehumidification operation. The ventilation operation is performed to reduce the indoor relative humidity when the relative humidity in the room (including the living space) is high and the outdoor relative humidity is low. By performing the humidity control operation based on the obtained relative humidity, the relative humidity of the living space can be adjusted to the optimum relative humidity set in advance or the relative humidity set by the user. As a result, a comfortable living space can be realized and condensation can be prevented.
[0040]
Temperature control operation refers to heating operation and cooling operation. The reason why temperature control is performed based on the detected relative humidity is that, for example, if the relative humidity is low, the human discomfort is small even if the temperature is high. This is because the temperature conditions are different. Thereby, a comfortable living space can be realized.
[0041]
Humidity control / temperature control operation is an operation performed by appropriately combining a humidity control operation and a temperature control operation. By performing the humidity control / temperature control operation, it is possible to realize a more comfortable living space for the user than when performing only the humidity control operation or only the temperature control operation. Moreover, since the temperature / relative humidity conditions that are good for the body differ depending on the age, sex, and physical condition of the user, such as elderly people, children, and sick people, it is possible to set temperature / relative humidity conditions that impose a small burden on the user. Furthermore, compared with the case where the humidity control operation is not performed, the temperature change width necessary for realizing a comfortable living space is reduced, so that energy saving can be achieved.
[0042]
【The invention's effect】
According to the relative humidity detection device of the first aspect, it is possible to detect an accurate relative humidity of the living space by correcting an error caused by a difference in the operation state of the air conditioning indoor unit with a simple configuration.
[0043]
According to the relative humidity detection apparatus of the second aspect, the user can know the accurate relative humidity of the living space.
[0044]
According to the air conditioning indoor unit of claim 3, a comfortable living space can be realized. Further, since the user can start / stop the operation of the air-conditioning indoor unit and select the operation state based on the displayed relative humidity, the usability of the air-conditioning indoor unit is improved.
[Brief description of the drawings]
FIG. 1 is a block diagram showing an outline of an electrical configuration of an air conditioning indoor unit provided with a relative humidity detection device.
FIG. 2 is a graph showing the relationship between the detected relative humidity and the relative humidity of the living space.
FIG. 3 is a graph showing the relationship between the ambient temperature and the rate of increase in relative humidity.
FIG. 4 is a graph showing the atmospheric temperature dependence of a correction coefficient.
FIG. 5 is a graph showing the relationship between the atmospheric temperature and the saturated water vapor amount.
[Explanation of symbols]
1 Air conditioning indoor unit
2 Control means
3 remote control
5 display means
6 memory
7 Relative humidity detection means
8 Temperature detection means
9 Room temperature detection means

Claims (3)

  Relative humidity detection means (7) for detecting the relative humidity, and the detected relative humidity of the relative humidity detection means (7) is set to a correction coefficient or correction amount set in advance according to the operating state of the air conditioning indoor unit (1). Correction means (2) for correcting and outputting based on the correction means (2), wherein the correction means (2) performs correction based on a correction coefficient or correction amount according to the currently selected operating state of the air conditioning indoor unit (1). Relative humidity detection apparatus characterized by performing.   2. The relative humidity detecting device according to claim 1, further comprising display means (5) for displaying the output relative humidity.   An air conditioning indoor unit comprising the relative humidity detection device according to claim 1 or 2, and an operation control means (2) for performing an air conditioning operation based on the relative humidity detected by the relative humidity detection device. .

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