KR101993513B1 - Closed control dehumidification method and apparatus for preventing condensation - Google Patents

Abstract

Disclosed is a closed control and dehumidifying method and apparatus for preventing condensation.
A closed control and dehumidifying method for preventing condensation according to the present invention is a closed control and dehumidifying method for preventing condensation on an indoor space of a building having an inlet and an outlet free from inflow of outside air, A first step of detecting a dew point and setting a comparison dew point within a range of ± 0% to 80% with respect to the detected indoor dew point; A second step of detecting a surface temperature of the dew point by a sensor installed at a condensation occurrence point in the indoor space; Comparing the set dew point of the comparative indoor dew point with the dew point temperature, and if the comparison indoor dew point is high, dehumidifying the dehumidifier by operating the dehumidifier until the comparison indoor dew point reaches the dew point temperature, A third step; And a fourth step of stopping the dehumidifier operation and terminating the dehumidification operation when the comparison indoor dew point is lower than the dew point temperature.
According to the present invention, there is provided a closed control and dehumidifying method for preventing condensation, comprising the steps of: closing an inlet and an outlet of a specific indoor space in which condensation has occurred and dehumidifying the indoor air, So that condensation can be prevented from occurring, and a pleasant indoor environment can be maintained.
In particular, in the case of a home, a workplace, or a warehouse, the condensation occurrence position varies depending on the presence or absence of a person entering the room and the number of articles or appliances. Therefore, By installing a dew point temperature sensor, it is possible to maintain a stable dehumidification state even when the condensation occurrence position is shifted, thereby preventing corruption and damaging the wallpaper or the home appliance caused by the growth and reproduction of mold, and a hygienic environment It is possible to prevent the electrical short-circuit due to electric short-circuit due to the condensation water and the risk of fire occurrence.

Description

[0001] The present invention relates to a closed control dehumidification method and apparatus for preventing condensation,

The present invention relates to a closed control and dehumidifying method and apparatus for preventing condensation from occurring in an indoor space of a building, and more particularly, to a method and apparatus for controlling condensation caused by dew condensation and the operation of an air conditioning and heating system Dehumidifying method for preventing condensation by using a specific space variable detection method so as to prevent a risk of dew condensation corresponding to changes in indoor environmental conditions and to create a stable and pleasant indoor environment And a device therefor.

Generally, a building has a relatively large temperature difference between indoor and outdoor areas, or a relative humidity of the room due to excessive heating in winter, a cultivation of a plant, a humidifier, a cooking activity, a living activity such as toilet use or bathing, (Dew condensation) is a phenomenon in which water droplets are generated on the indoor structure of a building when the dew point temperature rises due to the increase of the dew point temperature. The amount of water vapor varies. The lower the temperature of the air, the lower the amount. The higher the temperature, the higher the amount of water vapor. The higher the temperature, the greater the amount of water vapor.

That is, the maximum temperature at which the air can contain water vapor is determined according to the temperature. If the temperature of the air is cooled by any reason without increasing or decreasing the moisture, the relative humidity (relative humidity) The temperature at which the temperature reaches the limit is called the dew point temperature, and when it reaches the dew point, the water vapor becomes water droplets and is discharged into the air.

Referring to a graph for explaining the condensation phenomenon shown in FIG. 1, condensation is a phenomenon in which water vapor in the air changes into liquid when the humidifier is lowered below the dew point. The moisture content in the air is large when the temperature is high, The dew point of the air having a temperature of 30 ° C and a relative humidity of 65% is about 22 ° C. If the temperature of the dew point is maintained above the dew point temperature, dew condensation does not occur.

The moisture content of the air having a dew point temperature of 22 ° C is 19.43 g, and when the temperature is lowered and it is cooled to 18 ° C, the maximum moisture content at 18 ° C is 15.37 g, 19.43 g - 15.37 g = ℃, it can contain 12.83g of water, so 19.43g-12.83g = 6.6g of water is discharged as condensate water.

The dew condensation phenomenon is classified into surface condensation occurring on the outside of the building and internal condensation occurring on the inside of the building. Referring to the dew point calculation table shown in FIG. 2, when the temperature or humidity is high, For example, when the room temperature is 20 ° C, when the relative humidity of the house is 30%, condensation occurs at a surface temperature of 1.3 ° C. When the relative humidity is 90%, condensation occurs at a surface temperature of 18.3 ° C which is much higher. Even at 60% of the same relative humidity, condensation occurs at a surface temperature of 11.9 ° C at an indoor temperature of 20 ° C, and at a room temperature of 30 ° C, condensation occurs even at a higher surface temperature of 20.6 ° C.

In particular, the condensation phenomenon not only causes the generation of odor and pathogenic bacteria due to the corruption caused by the condensation water and the propagation of the mold, but also increases the risk of fire due to electric shortage due to shortage of electricity and leakage due to the number of condensation, Which causes corrosion and damage of various home appliances including wallpaper and furniture in the room.

As a method for preventing such condensation phenomenon, it is necessary to prevent the stagnation of the air having a relatively high humidity by allowing indoor ventilation or air circulation through periodic ventilation, and the source of steam emission such as a humidifier or laundry for drying The elements to be controlled include how to inhibit the humidity from rising through the local exhaust. As far as possible, it is possible to improve the heat insulation by improving the heat insulation of the building, to increase the surface temperature of the ceiling or the wall, and to reduce the damage by the control action by finishing the part where condensation is likely to occur with hygroscopicity And the most widely recommended method is to install periodic ventilation and external wall insulation.

However, in the case of conventional methods for preventing condensation, for example, a method of ventilation, the effect is obtained in a case of a drying environment having a low external temperature and a relatively low humidity, but in the opposite case, As a result, there was a problem that the effect of preventing condensation could not always be constantly expected.

Particularly, ventilation is performed when the dew point temperature of the outside air is lower than the room temperature, thereby preventing condensation. However, in the case of a building structure such as an underground parking lot or an armory, When the temperature of the outside dew point is higher than the room temperature, when the temperature of the outside dew point is higher than the room temperature, the inflow air is cooled down to below the dew point temperature and condensation occurs due to the inflow air .

In addition, it is practically impossible to repeatedly perform the ventilation periodically, and even if the ventilation is performed, there is a problem that the heating cost is increased due to the ventilation and causes various inconveniences. Especially, in a home where infants or elderly people are present, The ventilation is more difficult.

In addition, in the case of the method of improving the heat insulation performance of the outer wall, there is an economical burden that an enormous construction cost due to the construction of the insulation material should be invested in the existing buildings. In addition, in the case of the inner insulation, There is a limitation in that it is not possible to use the residence space for a certain period during the construction period. In particular, when the temperature and the humidity difference are large in the seasons like Korea, there is a disadvantage that the occurrence of condensation can not be prevented.

In particular, the insulation construction is divided into outer insulation and inner insulation. Outer insulation has a better insulation effect than inner insulation, but it has many problems to be applied to a high-rise residential space due to the method of attaching to the outside, have. On the other hand, the internal insulation is easy to construct, but there is a weak point in the insulation performance of the junction between the corner and the floor ceiling, and there is a possibility that the insulation performance is lowered at this part and condensation is likely to occur.

Finally, when the temperature inside the space is increased by heating, the relative humidity is lowered. However, since there is no change in absolute humidity and dew point temperature, the effect can not be expected. In consideration of the physical connection state such as the insulation performance inside and outside the space, There is a disadvantage in that it is not cost effective because of a large maintenance cost and there is a disadvantage in that it can not completely prevent the occurrence of condensation due to the relatively low temperature of the temperature around the window that is in contact with the furniture, .

In addition, there is a method of removing the moisture introduced into the room by installing a dehumidifier or a thermo-hygrostat, but the effect is limited depending on the insulation of the building and the room temperature, and also it takes a long time to lower the humidity. There was an inconsistency.

As described above, various conventional methods for preventing condensation have been proposed, but there is no suitable alternative for effectively preventing the occurrence of condensation.

On the other hand, as the improvement of the living standard and the interest in the living environment of the living room have been increased, it is required to solve the condensation in the living space. In order to provide the living space where the condensation does not occur regardless of the lifestyle, the economical and effective condensation It is urgent to develop technology for

Korean Patent Registration No. 10-1143416 (2012.04.30), 'Rapid ventilation device for dehumidification and condensation prevention'

SUMMARY OF THE INVENTION The present invention has been made in order to solve the problems of the prior art as described above, and it is an object of the present invention to provide a dewatering apparatus for a dewatering apparatus, Thereby enabling quick and efficient prevention of dew condensation, and an apparatus therefor.

Further, in the present invention, the condensation occurrence position is different when the specific space is empty and when the condenser is provided. In addition, since the condensation position also varies depending on the position and direction of the building, condensation occurrence position or condensation is expected A dehumidifying method and apparatus for preventing condensation which can maintain a stable dehumidification performance even when the condensation occurrence position is shifted by applying a plurality of condensation point temperature sensors installed at a location, .

A closed control and dehumidifying method for preventing condensation according to a preferred embodiment of the present invention for realizing the above object is a closed control and dehumidifying method for preventing condensation in an indoor space of a building having an inlet and an outlet, A first step of measuring the absolute humidity in the indoor space and detecting the indoor dew point on the basis thereof and setting the comparison indoor dew point lowered to ± 0% to 80% or less of the detected indoor dew point; A second step of detecting a surface temperature of the dew point by a sensor installed at a condensation occurrence point in the indoor space; Comparing the set dew point of the comparative indoor dew point with the dew point temperature of the dew point, and if the dew point of the comparative indoor dew point is high, opening and closing the inlet and outlet of the indoor space is guided, and the dehumidifier is operated until the dew point reaches the dew point, A third step of performing dehumidification so as to lower the temperature; And a fourth step of stopping the operation of the dehumidifier and ending the dehumidification operation when the comparison indoor dew point is lower than the dew point temperature.

According to a preferred aspect of the present invention, the absolute humidity and the surface temperature of the dew point are detected at regular time intervals, and the dehumidifying operation is performed by comparing the indoor dew point and the comparison indoor dew point.

According to a preferred embodiment of the present invention, there is provided a dew condensation prevention device for preventing condensation, comprising: a condensation prevention device using a dehumidification control for an indoor space of a building having an inlet / A detection module including a dew point temperature sensor for detecting the surface temperature of the dew point, a temperature sensor for measuring the temperature of the room, an absolute humidity sensor for measuring the absolute humidity, and an opening / closing sensor for detecting the opening / closing state of the building. A control module electrically connected to the dew point temperature sensor, the absolute humidity sensor, and the opening / closing detection sensor to receive sensing information and output a control signal; And a dehumidifier for selectively controlling the dehumidifying operation by receiving a control signal from the control module and being driven and controlled.

According to a preferred embodiment of the present invention, the control module includes a controller for applying a control signal to a display means for outputting a warning sound or a warning screen when the inlet and the outlet are opened during the dehumidification operation of the dehumidifier, And a timer module for setting a time for collection.

In another preferred aspect of the present invention, the inlet and the outlet are provided with automatic doors that are opened and closed by a driving source.

In another preferred aspect of the present invention, a plurality of the dew point temperature sensors are provided, and a control signal is applied to the controller by wire / wireless communication.

The present invention provides a closed control and dehumidifying method for preventing condensation and an apparatus for dehumidifying the indoor dew point by closing the inlet and outlet of a specific indoor space in which condensation has occurred to block the inflow of outside air, So that condensation is prevented from occurring, and a pleasant indoor environment can be maintained.

In particular, in the case of a home, a workplace, or a warehouse, the condensation occurrence position varies depending on the presence or absence of a person entering the room and the number of articles or appliances. Therefore, By installing a dew point temperature sensor, it is possible to maintain a stable dehumidification state even when the condensation occurrence position is shifted, thereby preventing corruption and damaging the wallpaper or the home appliance caused by the growth and reproduction of mold, and a hygienic environment It is possible to prevent the electrical short-circuit due to electric short-circuit due to the condensation water and the risk of fire occurrence.

The features and advantages of the present invention will become more apparent from the following detailed description based on the accompanying drawings. Prior to that, terms and words used in the present specification and claims should not be construed in a conventional and dictionary sense, and the inventor may properly define the concept of the term in order to best explain its invention It should be construed as meaning and concept consistent with the technical idea of the present invention.

FIG. 1 is a graph showing an air line graph for explaining the phenomenon of condensation,
2 is a view showing a dew point calculation table,
3 is a block diagram for explaining a closed control and dehumidifying method for preventing condensation according to the present invention.
4 is a schematic view for explaining a configuration of a closed control and dehumidifying device for preventing condensation according to the present invention.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, configurations and operations of embodiments of the present invention will be described in detail with reference to the accompanying drawings. It is to be understood, however, that the invention is not intended to be limited to the particular forms disclosed, but on the contrary, is intended to cover all modifications, equivalents, and alternatives falling within the spirit and scope of the invention. It is noted that the terms "comprises" or "having" in this application are intended to specify the presence of stated features, steps, operations, components, parts, or combinations thereof in one or more other features or acts, , Components, parts, or combinations thereof, as a matter of convenience, without departing from the spirit and scope of the invention. That is, throughout the specification, when an element is referred to as "comprising ", it means that it can include other elements, not excluding other elements unless specifically stated otherwise.

Also, unless otherwise defined, all terms used herein, including technical or scientific terms, have the same meaning as commonly understood by one of ordinary skill in the art to which this invention belongs. Terms such as those defined in commonly used dictionaries are to be interpreted as having a meaning consistent with the contextual meaning of the related art and are to be interpreted as either ideal or overly formal in the sense of the present application Do not.

Hereinafter, a detailed description of well-known functions and configurations that unnecessarily obscure the gist of the present invention will be omitted so as not to obscure the gist of the present invention. Embodiments of the present invention are provided to more fully describe the present invention to those skilled in the art. Accordingly, the shapes and sizes of the elements in the drawings and the like can be exaggerated for clarity.

First, before describing a closed control and dehumidifying method and apparatus for preventing condensation according to the present invention, the indoor space of the present invention may be an ordinary building such as a room, a office, a warehouse, an armory, And is provided with an entrance or exit such as a door or a window so that a person or an article can be moved in or out. The indoor space is provided with a space And keeping the indoor dew point lower than the condensation surface temperature through dehumidification in this state, thereby preventing condensation from occurring.

That is, the present invention is to prevent the occurrence of dew condensation by managing the dew point temperature below an appropriate temperature, and is a factor relating to the occurrence of condensation. The relative humidity is a temperature at which the temperature is high without increasing or decreasing moisture (absolute humidity) Relative humidity on the ground is lowered, and conversely, when the temperature is lower, the relative humidity is higher.

In addition, if moisture is increased in the air, the dew point, that is, the dew point temperature increases, and when the moisture is removed, the dew point or dew point is lowered. If only the temperature is changed without increasing or decreasing the moisture (absolute humidity), only the relative humidity is changed. The temperature does not change, and the dew point temperature at that time changes with the increase or decrease of moisture.

Therefore, there is a method of preventing condensation from occurring by raising the temperature of the structure in which condensation occurs to a temperature higher than the dew point temperature and a method of lowering the dew point temperature below the structure temperature to manage the structure. The method of lifting the dew point is to change the temperature of the dew point on the outer wall to the dew point by keeping the dew point above the dew point. However, the relative humidity is lowered due to the increase of the temperature. The dew point temperature is not changed when the heating is stopped. However, the temperature of the dew condensation structure is lowered to be lower than the dew point temperature and condensation is generated.

On the other hand, a method of lowering the dew point temperature below the structure temperature is to prevent dew condensation by managing the dew point temperature below the proper temperature by operating an appropriate dehumidifier.

The present invention is to provide a closed control and dehumidifying method and apparatus for preventing condensation which can prevent condensation so that a stable and pleasant indoor environment can be created on the basis of this principle.

3 is a block diagram for explaining a closed control and dehumidifying method for preventing condensation according to the present invention.

The figure shows an airtightness control dehumidifying method for preventing condensation on an indoor space of a building having an inlet and an outlet free from inflow of outside air. The indoor humidity dew point is measured and the indoor dew point is detected on the basis of the measured absolute humidity. A second step of detecting a surface temperature of a dew point at a condensation point in the indoor space, a second step of comparing the set indoor temperature of the dew point, The indoor dew point is compared with the dew point temperature, and when the comparison indoor dew point is high, the indoor space is closed or closed, and the dehumidifier 30 is operated until the dew point of the comparison indoor dew reaches the surface temperature of the dew point. And a fourth step of stopping the operation of the dehumidifier 30 and terminating the dehumidification operation if the comparison indoor dew point is lower than the dew point temperature Rouge has a closed control dehumidification method is shown.

4 is a schematic view for explaining the construction of a closed control and dehumidifying device for preventing condensation according to the present invention.

The present invention relates to a dew condensation preventing device for controlling the dew condensation of an indoor space of a building having an inlet and an outlet which are free from inflow of outside air. The dew condensation preventing device includes a dew point temperature sensor for detecting the surface temperature of the dew point, A sensing module 10 comprising a temperature sensor for measuring the temperature, an absolute humidity sensor for measuring the absolute humidity of the indoor space, and an opening / closing sensor for detecting the opening / closing state of the entrance / exit of the building; A control module (20) electrically connected to the dew point temperature sensor, the absolute humidity sensor, the temperature sensor for measuring the room temperature, and the opening / closing sensor, and receiving the sensing information and outputting a control signal; And a dehumidifier 30 for receiving a control signal from the control module 20 to perform a dehumidification operation.

Referring to the drawings, the air conditioning control method for preventing condensation according to the present invention will be described as follows.

The closed control and dehumidifying method for preventing condensation according to the present invention largely comprises a comparison indoor dew point temperature setting step, a dew point surface temperature detecting step, a dehumidifying step, and a dehumidifying operation ending step.

The comparative indoor dew point temperature setting step is divided into three steps. First, a process of measuring an absolute humidity in an indoor space of a building having an inlet and an outlet free from external air inflow, a second process of detecting an indoor dew point temperature based on the measured absolute humidity, Third, set the relative indoor dew point temperature, which is the set value lowered to ± 0% ~ 80% of the indoor dew point temperature detected.

First, the absolute humidity sensor is located at an arbitrary point in the indoor space of the building, and the absolute humidity in the space is measured. The absolute humidity sensor at this time is a sensor used for measuring the absolute humidity (the weight of water vapor contained in the unit volume), and a humidity sensor using a known weighing method, a dew point hygrometer, And it is proposed that an absolute humidity sensor using thermal conduction is used in which a bridge circuit is composed of two thermistors and a resistor which are preferably heated by flowing current.

Second, the indoor dew point temperature is calculated based on the measured absolute humidity. The dew point temperature refers to the temperature at which the water vapor in the air is saturated to form dew when the air temperature is lowered at a constant pressure. The dew point temperature is proportional to the absolute humidity, which is the amount of water vapor. Even if a known dew point thermometer Therefore, detailed description of the dew point temperature calculation method is omitted. For example, assuming that the room temperature is 20 ° C and the relative humidity is 70%, condensation starts to occur in all objects whose surface temperature is below 14.37 ° C, where 14.37 ° C is the dew point temperature or dew point temperature, No condensation occurs at high 15 ° C, but at 14 ° C water droplets are formed and the wallpaper becomes wet.

Third, a comparison indoor dew point temperature is set based on the calculated indoor dew point temperature. The comparative indoor dew point temperature is a value set within a range of 0% to 80% based on the calculated indoor dew point temperature. For example, in the case of indoor space where condensation occurs frequently or occurs within a short time, If a low temperature close to 80% is applied as a standard and condensation occurs relatively infrequently and occurs over a long period of time, it can be set to a low temperature close to 0%.

For example, when the indoor dew point temperature is 20 ° C, the comparative indoor dew point temperature is 4 ° C when the comparative indoor dew point temperature calculation standard is set to -80%, and if the comparative indoor dew point temperature calculation standard is set to +80% 36 ° C. In another embodiment, when the indoor dew point temperature is set to 15 ° C, the reference indoor dew point temperature calculation standard is set to -30%, and the indoor indoor dew point temperature calculation standard is set to -10% The temperature of the comparative indoor dew point temperature becomes.

In the step of detecting the surface temperature of the dew point, a sensor for detecting the temperature is positioned at a dew point, which is a point where dew condensation occurs in the indoor space or a place where condensation is expected to occur, and the surface temperature is detected.

At this time, since most of the dew points are located on the wall surface, the ceiling surface, or the bottom surface, the surface temperature is detected by attaching a temperature sensor to the dew point which is the corresponding point where condensation occurs. If the dew point is several points, it is also possible to collect the surface temperature by attaching the temperature sensor to various places. In this case, it is preferable to use a wired / wireless temperature sensor for measuring the temperature and sending data by wire / .

The dehumidifying step is divided into a process of closing indoor space and a process of dehumidifying operation.

First, the indoor space closing process compares the dew point temperature of the comparative indoor dew point with the dew point surface temperature, and when the dew point temperature of the comparative indoor dew point is high, the indoor space is closed to provide a dehumidifying environment according to condensation, This is the process of guiding you through sound or screen to close.

That is, in the case of the automatic door 50 where the entrance and exit of the building is automatically opened and closed, the control signal is applied to the automatic doors so as to close the entrance and exit. If the door is manually opened and closed manually, And a warning sound or a screen may be outputted so that it can be performed by a known technique. Therefore, a detailed description thereof will be omitted.

Second, in the dehumidifying operation process, the dehumidifier 30 is operated to operate the dehumidifier 30 in a state where the indoor space is closed, so that the dehumidification is performed until the comparative indoor dew point temperature reaches the dew point temperature, When the comparative indoor dew point temperature reaches or falls below the dew point temperature, the dehumidifying operation is terminated.

In the dehumidifying operation termination step, the dehumidifier 30 is operated to stop the dehumidification operation when the comparison indoor dew point temperature of the indoor space becomes lower than the dew point temperature. After the dehumidification operation is completed, it is preferable to guide the occupant so that the occupant can recognize through the sound or the display screen such as an alarm sound so that the door can be opened or the door closed state can be released.

Hereinafter, an embodiment of the present invention will be described.

Example 1

(a) measuring the absolute humidity of a specific space, which is an arbitrary indoor space, to detect an indoor dew point (DP) of a specific space, and comparing the indoor dew point with a reference indoor dew point (VDP ).

The absolute humidity refers to the amount of water vapor that can be contained in a certain amount of air, and is the weight of actual water vapor contained in air of 1 m.sup.3. For reference, the relative humidity refers to the amount of water vapor and water vapor contained in the present air Is the percentage of the actual amount of water vapor contained in the air divided by the maximum amount of water vapor the air can contain under a given temperature and pressure.

The dew point refers to a temperature at which the water vapor starts to condense and dew is formed when the pressure of the air containing a certain amount of water vapor is kept constant. The dew point refers to the temperature at which the dew starts to be formed. And has characteristics that are measured on a reference basis.

The comparative indoor dew point is set to a value which is about ± 0% to 80% of the detected indoor dew point, and can be variously set in consideration of conditions depending on the occurrence of condensation.

For example, in the case of a space intended to prevent the occurrence of condensation, it is proposed to set a value of 0% to 30% lowered based on the indoor dew point temperature to a comparative indoor dew point temperature, In the case of a place or space such as a semiconductor production facility or a pharmaceutical facility, a value lowered by 30% to 80% based on the indoor dew point temperature may be set to a comparative indoor dew point temperature.

In addition, in the case of a place or space where a proper amount of humidity is required, a value of 1% to 80% higher than the indoor dew point temperature may be set as the comparative indoor dew point temperature.

(b) the dew point surface temperature is variably detected at a point expected in the specific space.

That is, the surface temperature of wall or corner where condensation is expected or frequently occurs is measured and collected in real time. The measurement point at this time can be variably changed, and the measurement interval can be varied in real time, Or in minutes, in hours, or the like.

A known surface thermometer is used as the temperature gauge for measuring the dew point temperature. The surface thermometer is configured to apply the measurement information to the control module 20 connected by wire or wireless, It is suggested that a surface thermometer is used.

(c) a speaker for outputting a warning sound or a display for delivering contents to a screen so that an indoor door can be closed by recognizing the indoor residents or installing an automatic door (50) for closing an entrance to seal a specific space The display means 40 is operated.

The present invention proposes to connect the display module 40 to the control module 20 for controlling the opening and closing of the automatic door 50 or displaying it as a warning sound or a screen so that the occupant can recognize it. The automatic door 50 can be opened or closed by the control signal of the control unit 40 and the display unit 40 can be operated. Such a control configuration may be implemented by a known technique, and a detailed description thereof will be omitted.

(d) If the detected comparative indoor dew point (VDP) is higher than the dew point surface temperature, seal the specific space (display the damper seal or space seal warning message) and set the dehumidifier (VDP) 30).

A known dehumidifier 30 may be used as one of the air conditioners for lowering the humidity of the dehumidifier 30, so a detailed description thereof will be omitted. However, the dehumidifier 30 of the present invention should be configured to be driven and controlled in response to a control signal of the control module 20. [

(e) If the comparison indoor dew point (VDP) is lower than the dew point temperature, the operation of the dehumidifier (30) is stopped.

The control module 20 is connected to the dehumidifier 30 in a wired or wireless manner so as to control the operation of the dehumidifier 30 on and off. When the comparison indoor dew point is lower than the dew point temperature, The controller 30 outputs a control signal to stop the operation of the dehumidifier 30, and the dehumidifier 30 receives the control signal to stop the operation.

(f) Comparison with indoor dew point The surface temperature of dew point and dew point continuously changes by dehumidification. Therefore, the absolute humidity and dew point surface temperature are measured at a constant interval (for example, every 5 to 10 minutes) Indoor dew point is detected and compared.

Preferably, the absolute humidity and the surface temperature of the dew point are repeatedly detected at a predetermined time interval, and the dehumidifying operation is performed by comparing the indoor dew point and the comparison indoor dew point. That is, even after the comparative indoor dew point reaches the set value by the dehumidification, the indoor indoor dew point value based on the dew point surface temperature and absolute humidity for the condensation occurrence point is set to a predetermined time, for example, several minutes to several tens of minutes, Compared with this, it will be possible to maintain an absolute humidity condition in which condensation does not occur through proper dehumidification operation.

(h) The condensation point surface temperature sensor may be implemented by wire or wireless. The condensation point surface temperature sensor may be provided with a condensation point surface temperature sensor and may be measured while moving to a condensation occurrence place or a condensation occurrence expected place. Preferably, It is proposed to provide a temperature sensor at the furthest point, and these plurality of dew point surface temperature sensors are configured to apply detection information in a wireless manner.

In the meantime, the specific space in the present invention may correspond to a room, a house, a warehouse, an armed warehouse, an underground parking lot, etc. of a house, and an entrance and exit are provided in the specific space, An automatic door or a manual door is provided. In order to create a smooth dehumidifying environment according to the present invention, the inlet and the outlet are preferably opened and closed by an automatic door (50).

The control module 20 may include a controller for applying a control signal to the display means 40 for outputting a warning sound or a warning screen when the inlet and the outlet are opened in the dehumidifying operation of the dehumidifier 30, And a timer module for controlling the dehumidifying operation. The control module 20 may be a known microcomputer.

A plurality of the dew point temperature sensors are provided, and are configured to apply a control signal to the controller by wire / wireless communication.

The closed control and dehumidifying device for preventing condensation according to the present invention as described above performs dehumidification operation in a state in which the space is closed or closed so that the inflow of outside air is suppressed so that the indoor dew point is lower than the dew point surface temperature, .

Particularly, in the present invention, not only the position of the condensation is changed according to the type of the article to be stored and the storage amount in case of the warehouse, and also the position and direction of the building Since the condensation position is affected by season or weather, the condensation point temperature sensor is provided at the point where condensation occurs or where condensation is expected, thereby maintaining active dehumidification according to the change of use environment.

On the other hand, in the present invention, the comparative indoor dew point temperature is set within the range of ± 0% to 80% based on the indoor dew point temperature, and the dehumidifying operation is performed based on this. However, It is also possible to set the comparative indoor dew point temperature by applying ± 10 ° C based on the dew point temperature.

For example, when the indoor dew point temperature is 12 ° C, the comparative indoor dew point temperature can be determined within a range of 2 ° C to 22 ° C. When the indoor dew point temperature is 12 ° C, the indoor dew point temperature is 0 ° C to -10 ° C A comparative indoor dew point temperature in a range of 0 ° C to 10 ° C may be applied in the case of an indoor dew point temperature and a place or space where an appropriate amount of humidity is required.

The dehumidification method for preventing dew condensation in the present invention having such a structure can be widely applied to various condensation parameters such as the orientation of a building such as a trend, westward, southward, and northward, insulation conditions, curtains, It is possible to prevent the occurrence of condensation phenomenon corresponding to the change of the condition, thereby realizing a stable, pleasant and optimal indoor living environment.

It is to be understood that the present invention is not limited to the disclosed embodiment and that various changes and modifications may be made without departing from the spirit and scope of the present invention as set forth in the appended claims. It is obvious to those who have knowledge. It is therefore intended that such variations and modifications fall within the scope of the appended claims.

1: Closed control dehumidifying device for preventing condensation 10: Detection module
11: dew point temperature sensor 12: temperature sensor
13: absolute humidity sensor 14: open / close detection sensor
20: control module 21: controller
30: dehumidifier 40: display means
50: Automatic door r: Indoor space
d: In and Out

Claims (6)

1. A closed control and dehumidifying method for preventing condensation on an indoor space of a building having an inlet and an outlet free from inflow of outside air,
A process of measuring an absolute humidity in an indoor space of a building having an inlet and an outlet free from outside air inflow using an absolute humidity sensor, a process of detecting an indoor dew point temperature based on the measured absolute humidity, A first step of setting a comparison indoor dew point temperature which is a temperature value set within a range;
A second step of detecting a surface temperature of the dew point by using a dew point temperature sensor at a point where condensation occurs or is expected to occur in the indoor space;
The indoor air temperature of the compartment is compared with the dew point temperature of the indoor air and the dew point temperature of the indoor air is compared with the indoor indoor temperature of the dew point, And a third step of operating the dehumidifier in a state where the space is closed to reduce the humidity of the room, thereby performing dehumidification until the dew point temperature of the comparison room reaches or falls below the dew point temperature,
Further comprising the step of repeatedly detecting the absolute humidity and the surface temperature of the dew point at a predetermined time interval to compare the surface temperature of the dew point with the temperature of the dew point of the comparison room to carry out the dehumidifying operation, Control and dehumidification method. delete 1. A dew condensation preventing device for use in a dewatering control of an indoor space of a building having an inlet and an outlet free from outside air,
A condensation point temperature sensor for detecting a surface temperature of the dew point by applying a control signal to wired / wireless lines, an absolute humidity sensor for measuring the absolute humidity, and an open / close detection A control module electrically connected to the dew point temperature sensor, the absolute humidity sensor, and the opening / closing sensor to receive sensing information and output a control signal, and a control module receiving a control signal from the control module, And a dehumidifier for selectively dehumidifying the dehumidifier,
Wherein the control module applies a control signal for controlling operation to a display means for outputting a warning sound or a warning screen when the inlet and outlet are open during the dehumidification operation of the dehumidifier and controls the opening and closing state of the inlet and outlet through the opening and closing sensor A controller for detecting the temperature of the indoor unit and a controller for operating the dehumidifier in a state where the indoor space is closed and a time for collecting the sensing information of the sensing module is set so that the absolute humidity and the surface temperature of the dew point are repeatedly detected at predetermined time intervals, A timer module for performing a dehumidifying operation by comparing the surface temperature with a comparison indoor dew point temperature set within a range of 占 0 占 폚 relative to the indoor dew point temperature;
Wherein the inlet and the outlet are provided with any one of an automatic door open or closed by a driving source, a blind or curtain film device,
Wherein the plurality of dew point temperature sensors are installed, and further comprising a control signal applied to the controller by wire / wireless communication. delete delete delete

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