KR101816280B1 - Waterproof and water leak sealed means and air dryer system Structure having and Waterproof and water leak Constructing Method of The same - Google Patents

Abstract

The present invention relates to a facility structure with a waterproof and leakproof sealing means and a dehumidification system, which provides the waterproof and leakproof sealing means to a facility such as an ammunition facility or the like to be completely sealed from the dehumidification system to prevent corrosion of a stored good and allow effective management of the facility, and a waterproofing and leakproof construction method used for the same. To achieve the above object, the facility structure with the waterproofing and leakproof sealing means and the dehumidification system, which is a facility structure having a ventilation device and an exit, which are positioned on one side thereof, and allows a good to be stored in an inner space formed with four surfaces as a wall body, comprises a dehumidifier main body for injecting dehumidifying-dry air to the inner space; an injection connection hose connected to the dehumidifier main body to inject dehumidifying dry air; a duct installed in the inner space and connected to the injection connection hose and having an air injection nozzle at a lower end of one side thereof; and an exhaust damper installed on a wall of the facility structure to be opened and closed and allowing controlling of humidity and temperature. The wall of the facility structure further comprises a sealing means to allow the inner space to be waterproof/leakproof.

Description

Technical Field [0001] The present invention relates to a waterproof / leakproof construction method and a waterproof and waterproof construction method for use in a facility structure having a waterproof /

The present invention relates to a waterproof / leakproof construction method and a waterproof / leakproof construction method for use in a facility structure having a waterproof / watertight seal means and a dehumidification system and a waterproof construction method thereof. More particularly, To a facility structure having a waterproof / watertight sealing means and a dehumidifying system for preventing corrosion of the stored items and utilizing efficient facility management, and a waterproofing / waterproofing method used in the facility structure.

Generally, the ammunition is covered with soil and partly buried in the ground, only the front part where the door is installed is exposed. In order to ventilate the inside, the intake port is provided at the lower part of the front surface. .

The dehumidifying purpose of the ammunition is to prevent the condensation and the corrosion of the ammunition stored in the ammunition. Especially, by reducing the relative humidity inside the ammunition to 50% or less, it prevents the corrosion of the ammunition surface due to the moisture such as condensation And to extend the life of ammunition so that it can be used immediately for long periods of storage.

Such corrosion increases the defective rate of ammunition and expensive shells, resulting in a decrease in combat power. In addition, the failure rate of equipment such as tanks and fighters increases, and it is impossible to respond immediately, and it takes a lot of manpower and expenses for replacement work.

Because of this, the internal temperature of the ammunition is relatively low in the summer compared to the outside temperature, and relatively high in the winter when it is high. The temperature of the air in front of the intake port is relatively high. However, the temperature is significantly lower toward the back and far from the ceiling, and is considerably different from the external temperature (about 30 ° C or more).

The ammunition is stored in a layered form from the back of the ammunition mainly without storing it in front of the ammunition to facilitate storage and discharge. The air introduced from the outside through the intake port at the lower front is clogged with a large amount of flow resistance It does not flow enough to the back of the ammunition.

As a result, there is virtually no air flow in the back and bottom of the ammunition, and the areas where the ammunition is stored in the ammunition form a low temperature and high humidity air layer with low temperature and high humidity.

However, the low temperature and high humidity air layer in the formed ammunition is more dense than the high temperature and high humidity air layer inside the ammunition as well as the high temperature and high humidity air outside the ammunition.

Therefore, the convection phenomenon does not occur in the ammunition even if the outside air is introduced through the intake port. The introduced high-temperature outside air can not penetrate into the low temperature and high humidity air layer around the ammunition, The low temperature and high humidity air layer inside is left without being discharged.

Therefore, when hot and humid external air is introduced in summer, condensation occurs due to saturation of water vapor pressure while meeting the low temperature air in the ammunition. Especially, when the temperature is lower and the surface of the ammunition having high thermal conductivity touches the surface of the ammunition, The large amount of water vapor contained therein is condensed, and a large amount of water is formed on the surface of the ammunition.

Therefore, in the summer, condensation always occurs and the surface of the ammunition is always wet with water, which causes corrosion of the ammunition easily.

On the other hand, in winter, since low-temperature dry air flows from outside, hot and humid air around the ammunition is floated due to the difference in density. In winter, there is hardly any condensation on the surface of ammunition.

However, if the surface of the ammunition is already wetted by water in the summer, the surface corrosion of the ammunition continues in the winter, and after a certain period of time, the ammunition is discarded or the ammunition is removed and the surface is shaved You have to do the paint job periodically. Especially, when ammunition is stored in large quantity, it is very difficult to avoid the condensation which occurs in the space of the ammunition packed in box or the space of the right side of the ammunition where the flow of air due to the ventilation is concentrated.

The ammunition loss caused by corrosion of condensation on the surface of ammunition and the cost of maintenance and management due to corrosion have reached a considerable level, and the way to solve this economically and efficiently is a nationally necessary technology.

In order to solve such a problem, in the conventionally proposed methods, the problems of the ammunition condensation have been effectively solved in the registered patent 10-0523262 and the registered patent 10-0566956, but the structure has been changed and the efficiency of the system has been slightly reduced In patent application 10-2005-0064389, it is attempted to solve the condensation problem of the ammunition due to natural convection, but the structure of the ammunition should be changed, and there is no artificial forced dehumidification at all, so that it is difficult to obtain desired relative humidity.

In addition, there is a plan to make the ammunition in the ammunition smoothly naturally by storing the ammunition in a satisfactorily ammunition. There is a problem that the ammunition needs to be built in proportion to the storage of the ammunition, How to build in the desert can not be used by anyone.

KR Patent Registration Bulletin (B1) 10-0566956 (Mar. 27, 2006) KR Patent Registration (B1) 10-0523262 (October 14, 2005)

SUMMARY OF THE INVENTION Accordingly, the present invention has been made keeping in mind the above problems occurring in the prior art, and it is an object of the present invention to provide a dehumidifying system and a waterproof / And a facility structure having a waterproof / watertight sealing means and a dehumidifying system, which enables efficient utilization of facility structure management.

It is another object of the present invention to provide a dehumidifying system in a facility structure for storing articles and the like, and to provide a safety sealing means inside a facility structure for dehumidification to improve the dehumidification efficiency smoothly.

Another object of the present invention is to prevent condensation and corrosion of articles stored in special items such as ammunition, and in particular to reduce the relative humidity of the interior of the ammunition to 50% or less, This is to prevent the occurrence of corrosion on the surface of ammunition and to extend the lifetime of ammunition so that it can be used immediately even after long storage.

It is a further object of the present invention to minimize the defective rate of articles such as ammunition and high-cost shells due to such corrosion, thereby reducing the defective start-up rate of the equipment, thereby promptly responding to immediate situations. To be able to.

Yet another object of the present invention is to provide a dehumidifying operation which can be performed stably and easily according to a convenient handling relation of the article, so that the efficiency of the dehumidifying operation can be improved and convenience of handling the article can be improved.

In order to achieve the above object, the present invention provides a facility structure having an entrance and a ventilation unit on one side and an article in an inner space formed by four walls, the dehumidification drying body Wow; An inlet connection hose connected to the dehumidifier main body for inputting dehumidified drying air; A duct installed in the inner space and connected to the closing connection hose, and having an air injection nozzle at a lower end of the duct; And an exhaust damper installed on the wall of the facility structure so as to be opened and closed to adjust humidity and temperature. Wherein the wall of the facility structure further comprises a sealing means for watertightness / leakage of the internal space, and a facility structure having the waterproof / watertight sealing means and the dehumidification system.

In addition, the sealing means may be a high elastic inorganic coating film waterproofing material applied to the wall.

The coating film waterproofing material may be a mixture of acrylic emulsion, micro cement, earth cement, quicklime, volcanic stone, sericite powder, activated carbon powder, fluidizing agent, antifoaming agent and swelling agent.

The dehumidifier main body further includes a case; A suction blower installed inside the case to introduce outside air; A rotary adsorption rotor for filtering moisture and dust of the outside air sucked from the suction blower; A heat heater for drying the dehumidified air and the separately introduced air; And a discharge blower for discharging the air dried by the thermal heater to the interior of the facility structure. The case includes a suction line for sucking outside air, and a drying air passing through the heat heater via a rotating adsorption rotor And a discharge line for discharging the dried dehumidified air into the internal space of the facility structure by the discharge blower, wherein the discharge line further includes a dry air amplification line formed by bending before discharge of the dehumidified air of the discharge blower, And is installed.

In addition, the duct may be formed by coating a high-elastic inorganic coating film-like waterproofing material on the inner and outer surfaces with the sealing means to prevent corrosion of the surface.

Further, the exhaust damper is fixed to the wall, and includes a housing having an air passage penetrating the center of the exhaust damper; An operating slide coupled to the center of the housing and axially coupled to move back and forth; And an opening / closing cover installed at a front side of the operation slide to open / close the indoor air passage of the housing so as to close or open.

In order to achieve the above object, the present invention provides a waterproof / leakproof construction method for use in a facility structure having a door and a ventilation unit on one side and an article in an internal space formed by four walls, A wall cleaning step of cleaning using air or water; A primer applying step of applying a primer to a surface of the wall after the step of cleaning the wall; A coating film waterproofing material coating step of applying a high elastic inorganic coating film waterproofing material as a waterproofing material on the primer coating with a spray gun in a thickness of 2 to 3 mm; And a finish drying step in which the coating film is completely dried for about 5 hours using a dehumidifying system after applying the coating material waterproofing material, and a waterproofing / watering construction method for use in a facility structure.

In addition, the coating material of the coating film is coated on the primer coating two or three times. The coating material is a mixture of acrylic emulsion, microcement, earth cement, quicklime, volcanic stone, sericite powder, activated carbon powder, fluidizing agent, defoaming agent, .

In addition, the primer coating may be characterized in that the base and the curing agent are in a ratio of 1: 1.2.

In addition, the coating material waterproofing material may be characterized in that the base and the hardener are mixed at a ratio of 1: 0.5, and the coating interval is applied 2-3 times every 2 hours.

The present invention relates to a waterproof / watertight sealing means and a dehumidifying system which are provided with a dehumidifying system and a waterproof / watertight sealing means for completely sealing the facility structure such as ammunition to prevent corrosion of the stored items and utilize efficient facility structure management A facility structure can be provided.

In addition, the present invention can provide a dehumidification system in a facility structure for storing articles and the like, and also provide a safety sealing means inside the facility structure for dehumidification, thereby improving the smooth dehumidification efficiency.

In addition, the present invention can prevent condensation and corrosion of articles stored in special items such as ammunition, and in particular, by lowering the relative humidity inside the ammunition to 50% or less, It is possible to prevent the occurrence of corrosion on the surface and to extend the lifetime of the ammunition so that it can be immediately used even after storage for a long period of time.

Further, the present invention minimizes the defective rate of articles such as ammunition and high-priced shells due to such corrosion, thereby reducing the defective start-up rate of equipment, thereby enabling quick response to immediate situations. There.

Further, according to the present invention, the dehumidification operation can be performed stably and easily according to the convenient handling of the article, so that the efficiency of the dehumidification operation can be improved and the convenience of handling the article can be improved.

1 to 5 show an embodiment of a facility structure having a waterproof / water leakage sealing means and a dehumidification system according to the present invention,
BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is a schematic view of a facility structure having a waterproof / leakproof sealing means and a dehumidifying system according to the present invention; FIG.
FIG. 2 is a schematic cross-sectional view showing an entire structure of a facility structure having a waterproof / watertight sealing means and a dehumidification system according to the present invention,
FIG. 3 is a sectional view of a dehumidifier according to an embodiment of the present invention; FIG.
FIG. 4 is an enlarged sectional view of a part "A" of FIG. 2 showing an exhaust damper according to a facility structure having a waterproof / watertight sealing means and a dehumidifying system according to the present invention,
FIG. 5 is an enlarged cross-sectional view of a portion "B" of FIG. 2 showing a cross-section of a wall coated with a coating material waterproofing material as a waterproof / nuisse sealing means according to a facility structure having a waterproof / watertight sealing means and a dehumidifying system according to the present invention,
FIG. 6 is a process diagram showing a waterproofing / waterproofing method used in a facility structure having a waterproof / watertight sealing means and a dehumidifying system according to the present invention.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings.

It is to be understood that the present invention is not limited to the disclosed embodiments, but may be embodied in many different forms and should not be construed as limited to the embodiments set forth herein. Rather, these embodiments are provided so that this disclosure will be thorough and complete, It is provided to inform.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Reference will now be made in detail to the preferred embodiments of the present invention, examples of which are illustrated in the accompanying drawings, wherein like reference numerals refer to the like elements throughout. Quot ;, respectively. In the following description of the present invention, a detailed description of known functions and configurations incorporated herein will be omitted when it may make the subject matter of the present invention rather unclear.

1 to 5 show an embodiment of a facility structure having a waterproof / water leakage sealing means and a dehumidification system according to the present invention.

1 and 2, a facility structure 100 having a waterproof / watertight sealing means and a dehumidifying system according to the present invention has a door 101 and a ventilation device 102 on one side, A dehumidifier main body 110 for injecting dehumidified drying air into the inner space 105; An inlet connection hose 120 connected to the dehumidifier main body 110 to supply dehumidified drying air; A duct 130 installed in the inner space 105 to connect the closing connection hose 120 and having an air injection nozzle 131 at a lower end of the duct; And an exhaust damper 140 installed to be openable and closable in the wall 103 of the facility structure 100 and adapted to adjust humidity and temperature.

In addition, the wall 103 of the facility structure 100 may further include a sealing means for waterproof / leakage of the internal space.

The dehumidifier main body 110 includes a case 111; A suction fan 112 installed inside the case 111 to introduce outside air; A rotary adsorption rotor 113 for filtering moisture and dust of the outside air sucked from the suction blower 112; A heat heater 114 for drying the dehumidified air and the separately introduced air; And a discharge blower 115 discharging the air dried by the heat heater 114 into the inside of the article storage 100.

In addition, the case 111 includes a suction line P1 for sucking outside air and a drying air passing through the thermal heater 114 via a rotary adsorption rotor 113 by a discharge blower 115 And a discharge line P2 for discharging the dried dehumidified air into the inner space 105 of the discharge blower 115. The discharge line P2 is bent before the dehumidifying air is discharged from the discharge blower 115, And a dry air amplifying line (P3).

The dehumidifier main body 110 includes a suction line P1 for sucking outside air and a drying air passing through the heat heater 114 via a rotary adsorption rotor 113 by a discharge blower 115, And a discharge line P2 for discharging the dehumidified air into the dehumidifying space of the compressor. At this time, the discharge line (P2) may be provided with a dry air amplification line (P3) formed by bending the exhaust air blower (115) before dehumidification air is discharged to narrow the passage.

In other words, the drying temperature of the dry air dried by the heat heater 114 is prevented from lowering the temperature of the dry air while passing through the rotary adsorption rotor, and the passage is pushed by the heat heater in a wide section And the drying temperature of the heat heater can be continuously maintained while the drying air passing through the narrow passage becomes higher as the temperature of the drying air increases above the predetermined temperature.

The rotary adsorption rotor 113 is a structure in which a plane paper made of a ceramic fiber material and a corrugated paper are sequentially wound in a laminated form and has a cylindrical roll structure so that the material properties of the ceramic fiber material A moisture filtering means for forming a plurality of fine adsorption holes according to the structural characteristics of the corrugated paper, and a dehumidifying device for a moving environment, and a detailed description thereof will be omitted.

Meanwhile, it is preferable that the dehumidifier main body 110 is provided with a moving handle (not shown) on its upper surface, and a moving wheel is formed in the direction of the lower surface thread. Thus, it is possible to install the apparatus so that the apparatus can be easily moved and installed without regard to the place.

As described above, in the case of the dehumidifier, the outside air is forcibly sucked into the case and the forced air sucked into the rotating adsorption rotor to adsorb the moisture contained in the outside air in a stable manner, It is possible to provide a kind of duct piping structure that generates new dry air and re-supply the generated dry air again to a place requiring dehumidification so that the dehumidifying operation can be performed smoothly.

The inlet connection hose 120 serves as an air discharge connection passage for blowing dry air discharged from the dehumidifier main body 110 into the mobile equipment and dehumidifying it. The outlet connection hose 120 is connected to a hose line of a predetermined length having excellent durability, pressure resistance, .

The duct 130 is installed in the inner space 105 and connected to the connection hose 120 and has an air injection nozzle 131 at a lower end of the duct 130. At this time, the duct can serve as a dehumidifying air injection path for quickly and smoothly distributing the dried dehumidified air to the inner space.

Preferably, the duct 130 may be provided on the inner and outer surfaces thereof to prevent corrosion of the surface by applying a highly elastic inorganic coating film-like waterproofing material as the sealing means.

The exhaust damper 140 is installed to be opened and closed by the wall 103 of the facility structure 100 and is capable of controlling humidity and temperature. The exhaust damper 140 is fixed to the wall 103, A housing 141 having an air passage 141a penetrating the center thereof; An operating slide 142 coupled to the center of the housing 141 and axially coupled to move back and forth; And an opening / closing cover 143 installed at a front side of the operation slide 142 and opened / closed to close or open the inner passage of the housing 141.

Here, the temperature of the internal space 105 of the facility structure 100 dried by the exhaust damper 140 can be adjusted, and it is connected to a separate electronic device such as an electric sensor or a timer, It is possible.

In other words, when hot air discharged from the dehumidifier is continuously discharged through the duct to the internal space 105 of the facility structure 100, the amount of the discharged air and the amount of the internal temperature and air due to the dry air can be adjusted.

That is, the operating slide 142, which is installed in the housing 141 of the exhaust damper 140, is pushed forward to operate the opening / closing lid 143 closing the air passage 141a to open forward, And can be opened and closed.

In the meantime, in the leakage / watertight sealing means, the wall 103 is coated with a primer to form a primer layer 200 and a coating film waterproofing layer 300 coated with a coating material on the primer layer to form a ceiling and a four-sided wall It is possible to provide a complete sealing of the inner space.

The leakage / watertight sealing means is a high elastic inorganic coating film waterproofing material applied to the wall 103. The leakage / watertight sealing means is a high elastic inorganic coating film waterproofing material which is applied to the wall 103 and is made of a mixture of acrylic emulsion, microcement, earth cement, quicklime, volcanic stone, sericite powder, activated carbon powder, Can be provided.

For reference, the acrylic emulsion is a mixture of water, a surfactant and an acrylic resin copolymer, and is stirred. The acrylic emulsion is excellent in abrasion resistance, weather resistance, crack resistance, impact resistance and strength It was announced.

In order to maximize the watertightness and permeability of the microcement, it is preferable to use microcement (aka: MASEM 8000) having a powder density of 8000 cm 2 / g or more in order to increase durability and strength. Of course, if it is recognized that the performance is partially degraded, a powdered cement or a blast furnace cement having a capacity of 3000 cm 2 / g can be used, and a micro cement (aka MISEM 6000) having a powder size of 6000 cm 2 / g may also be used .

The above-mentioned soil cement and quicklime are generally used, and the quicklime is used for smooth hydration reaction.

It is preferable that the volcanic stone powder is a scoria called 'Jeju Songgyu'. According to the test result of the Korea Institute of Construction Materials, the scoria has 92.6% far infrared emissivity, 92% after 120 minutes of deodorization rate (sample: ammonia), 99.9% mold antimicrobial rate and 98.2% antibacterial effect by E. coli.

According to the article 'Study on Ceramic Tile Using Scoria' presented by Professor Huh Min-jae of Department of Industrial Design, Cheju National University, published in the 2000 Korea Craft Art Review, "Scoria is a porous lightweight, volcanic rock with a strength that can not be broken, It has charcoal fire resistance of 1250 ℃, absorption rate of 25.3% (general sand 2%) and specific weight of 0.4g / ㎤ (sand 1.8g / ㎤) It is judged to be the most suitable indoor finishing material because of its weak alkalinity. "

According to a study on the adsorption of heavy metals using 'scoria', published in the August 8, 1995 issue of the Korean Journal of Environmental Sciences (Vol. 5 No. 2), Professor Lee Min-gyu and Professor Seong Keunghak of Department of Chemical Engineering, National Fisheries University of Pusan, And it has been studied that the removal efficiency of heavy metals has been improved and it is highly likely to be used as a heavy metal adsorbent.

The sericite powder may be at least one selected from the group consisting of Fe, Mg, Zn, Mn, Cu, Mo, Se, Ge, (V), and strontium (Sr). It is a physiologically active substance used as a mica-mineral in the decomposition of active oxygen with strong reducing power and has a sterilizing action.

In particular, sericite may be used as a medicament for the treatment of winds, diarrhea, leprosy of the woman, treatment of dyspepsia and rapidity, hemorrhage of the digestive organs. Such sericite emits far infrared rays, has excellent heat conduction effect, And has silk luster.

The activated carbon powder is prepared by burning leaves and stems of plants and cultivated plants in nature, roots of plants, roots of plants, fruits, etc. by a combustion process by high-temperature treatment, and the carbonaceous material is mixed with 160 It is preferable to use a material which is processed into a fine powder of mesh to 180 mesh and then subjected to a high heat treatment.

The activated carbon powder emits a far infrared ray having a wavelength of 56 μm to 14 μm and is capable of sterilizing noxious bacteria, thereby performing various antibacterial, purification and deodorizing functions.

In addition, the superplasticizer is used as a mixing agent for softening concrete, and is used for dispersing cement particles. By forming a lubricating film between the particles, the mutual adhesion between the components is reduced and the quality of the mixed or hardened concrete is improved. The liquidity is greatly improved without changing.

Applicants have confirmed through experiments that various fluidizing agents can be used including CMC-PC, Peramin SMF30, and Peramin Conpac 149S. It is also possible to use other fluidizing agents as well as the above-described fluidizing agents. The use of such a fluidizing agent is chemically stable and facilitates the production of high-strength concrete, and there is almost no slump loss.

In addition, the defoaming agent is used to suppress foaming, and functions to control the amount of air and to reduce bubbles. As a result, the stability of the quality can be ensured and the strength is enhanced.

Applicants have verified through experimentation that various defoamers, including the commonly known Agitan 295, Agitan P803, and Agitan P833, can be used. Of course, it is possible to use other defoamers as well as defoamers of the kind mentioned above.

In addition, the expanding agent is a material which bubbles and inflates and is used for the expansion of the cement. Various kinds of commonly known swelling agents may be used in the present invention.

FIG. 6 is a process diagram showing a waterproofing / waterproofing method used in a facility structure having a waterproof / watertight sealing means and a dehumidifying system according to the present invention.

The waterproofing / waterproofing method used in the facility structure according to the present invention includes a door 101 and a ventilator 102 on one side and an article 107 in an inner space 105 having four walls 103, A waterproof / leakproof construction method for use in a facility structure (100) to be stored, the method comprising: a wall cleaning step (S1) of cleaning the surface of the wall body (103) using air or water; A primer application step (S2) of applying a primer to the surface of the wall body (103) after the wall cleaning step; (S3) of coating a coating of a high elastic inorganic coating film as a waterproof material on the primer coating with a spray gun in a thickness of 2 to 3 mm; And a finish drying step (S4) in which the coating film waterproofing material is applied and dried thoroughly for about 5 hours by using a dehumidifying system.

In addition, the coating material of the coating film is coated on the primer coating two to three times. The coating material is a mixture of acrylic emulsion, micro cement, earth cement, quicklime, volcanic stone, sericite powder, activated carbon powder, fluidizing agent, defoaming agent and swelling agent. .

In addition, it is preferable that the primer coating has a 1: 1.2 ratio of a base and a curing agent.

In addition, it is preferable that the coating material waterproofing material has a 1: 0.5 ratio of a base and a curing agent, and the coating interval is applied 2-3 times every 2 hours.

As described above, in the facility structure having the waterproof / watertight sealing means and the dehumidification system according to the present invention, when the dehumidifier main body 110 is connected, through the inlet connection hose 120 connected to the duct 130 installed in the inner space 105 The dehumidifying function can be performed by inputting the dehumidified drying air into the inner space 105.

In addition, temperature and humidity can be controlled through the exhaust damper depending on the humidity of the dehumidified air or the temperature.

Dehumidification function is stabilized through the dehumidification system equipped with the main body of dehumidifier, inlet connection hose, duct and damper, etc., and the coating waterproofing material as a leakage / watertight sealing means is applied to the wall of the facility structure, It can be provided together.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is clearly understood that the same is by way of illustration and example only and is not to be taken by way of limitation, It will be understood by those skilled in the art that various changes in form and details may be made therein without departing from the spirit and scope of the present invention as defined by the appended claims and their equivalents.

100: Facilities structure
110: dehumidifier body
111: Case
112: suction blower
113: Rotary adsorption rotor
114: Thermal heater
115: Exhaust blower
120: Input connection hose
130: duct
131: air injection nozzle
140: Exhaust damper
141: Housing
142: Operation slider
143: opening / closing cover

Claims (10)

A dehumidifier main body for injecting dehumidified drying air into the inner space, wherein the dehumidifying and drying air is introduced into the inner space; An inlet connection hose connected to the dehumidifier main body for inputting dehumidified drying air; A duct installed in the inner space and connected to the closing connection hose, and having an air injection nozzle at a lower end of the duct; And an exhaust damper installed in the wall of the facility structure so as to be able to control humidity and temperature, wherein the wall of the facility structure is further provided with a waterproof / A facility structure having a means and a dehumidification system,
The sealing means,
And a high elastic inorganic coating film coating material applied to the wall,
Wherein the duct is coated on the inner / outer surface with a high-elasticity inorganic coating film waterproofing material as the sealing means to prevent corrosion of the surface thereof
Facility structures with waterproof / leakproof containment and dehumidification systems.
delete The method according to claim 1,
The coating film waterproofing material is a mixture of acrylic emulsion, micro cement, earth cement, quicklime, volcanic stone, sericite powder, activated carbon powder, fluidizing agent, antifoaming agent and swelling agent
Facility structures with waterproof / leakproof containment and dehumidification systems.
delete delete The method according to claim 1,
The exhaust damper
A housing fixed to the wall and having an air passage passed through the center of the housing;
An operating slide coupled to the center of the housing and axially coupled to move back and forth;
And an opening / closing lid provided at a front side of the operation slide to open / close the indoor air passage of the housing to close or open the indoor air passage.
Facility structures with waterproof / leakproof containment and dehumidification systems.
delete delete delete delete

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