KR102430783B1 - Sheet fusion desorption system - Google Patents

Abstract

The present invention relates to a sheet-fused air vent system. The sheet-fused air vent system comprises a ventilation duct (100), a waterproof cover (200), and a ventilation cap (300), wherein a structure of the ventilation duct fixed on a concrete base surface is improved to be connected with a waterproof sheet through the waterproof cover, so that on-site constructability for air tightness treatment between the ventilation duct and the waterproof sheet is excellent, and especially, internal moisture is effectively released while rainwater backflow between the concrete base surface and the waterproof sheet is prevented.

Description

Sheet fusion desorption system

The present invention relates to a sheet fusion desorption system, and more particularly, the sheet fusion desorption system is structured such that the degassing duct fixed to the concrete base is connected to the waterproof sheet through the waterproof cover, and the degassing duct and the waterproof sheet It relates to a sheet fusion desorption system that has excellent on-site constructability for airtight treatment of the liver, and can effectively release internal moisture while preventing backflow between a concrete base surface and a waterproof sheet.

Most of the waterproofing methods at home and abroad place great importance on the condition of the substrate to form a stable waterproofing layer, and accordingly, “climatic conditions” that affect the substrate are essential to be considered prior to waterproofing.

There are four seasons in the domestic climate, four seasons, summer, autumn and winter, and the temperature in winter is below zero, and the climate in summer is hot and humid. Therefore, in order to form a high-quality and stable waterproofing layer, proper construction temperature and conditions of the substrate must be supported prior to waterproofing.

Accordingly, in 『Working Environment of General Matters for Waterproofing』 of the Standard Specification for Building Construction, it is stated that "Waterproofing should not be done if the base is not dried after rain or snowfall." If it is frozen, it must not be waterproofed.”

The current waterproofing construction is concerned about damage as the condition of the substrate (dry condition, etc.) is being evaluated by the excessively shortened schedule and the unilateral visual observation of the builder while complying with the minimum construction period. That is, moisture easily exists in the insulation layer due to the moisture contained in the concrete floor, and if the moisture generated in the insulation layer is not removed, the moisture causes the surface layer to float or dew condensation, weakening the original function of the surface layer, as well as weakening the original function of the building. It will act as a cause of the problem that deteriorates the structural performance of the

Accordingly, in Patent No. 10-1595860 disclosed in the prior art, an internal waterproofing layer, a rubber sheet, a heat insulating material, and pressed concrete are sequentially formed on the upper side of the base concrete layer, and an external waterproofing layer is provided on the upper side of the pressed concrete, the outer side of the external waterproofing layer A plurality of suction holes through which the external waterproofing layer of the roof floor having a plurality of drainage holes, pressed concrete, and heat insulator to drain the water located in the bottom surface is the same as the upper surface of the rubber sheet; and a water removal unit installed to seal each suction hole to remove water inside the roof floor, wherein the water removal unit is installed to seal between the inner surface of the suction hole, a body housing in which the installation space is vertically ventilated; a cover provided to cover the upper end of the body housing and laterally opened to prevent water from flowing into the installation space; a drying unit provided in the body housing to discharge moisture located between the rubber sheet and the heat insulating material as the air in the suction hole is discharged to the outside; a drain unit provided in the body housing to drain the water collected on the bottom surface of the suction hole; a power supply unit for applying power to the drying unit and the drain unit; and a control unit for automatically controlling the drying unit and the drain unit to remove the water on the roof, wherein the control unit is composed of at least one of a timer and a water level sensor, and when the control unit is a timer, a constant Control to automatically operate the drying unit and the drain unit at time intervals, and when the control means is a water level sensor, measure the water level in the suction hole and automatically operate the drying unit and the drain unit when the water level is higher than a certain level When the timer and the water level sensor are configured, the drying unit and the draining unit are automatically operated at a predetermined time interval by the timer. There has been previously proposed a technique for operating the unit and operating the drying unit and the drain unit at regular time intervals by setting the timer based on the time the drying unit and the drain unit are operated by the water level sensor.

However, the prior art is to maintain a dry state by easily removing the moisture introduced into the roof floor, but a fine gap is formed due to a poor bonding between the body housing and the external waterproofing layer, so rainwater can penetrate. The problem of loss of function followed.

US 10-1595860 B1 (2016.02.15.)

Accordingly, the present invention was conceived to solve the above problems, and the sheet fusion degassing system is structured such that the degassing duct fixed to the concrete base is connected to the waterproof sheet through the waterproof cover, and the degassing duct and the waterproof sheet The purpose is to provide a sheet fusion desorption system that has excellent on-site constructability for airtight treatment between the liver and can effectively release internal moisture while preventing backflow between the concrete substrate and the waterproof sheet.

In order to achieve this object, the feature of the present invention is that the base plate 110 is formed at the lower part and installed on the concrete base surface (1), and the upper part is removed to discharge the moisture generated from the concrete base surface (1) to the outside. a degassing duct 100 provided with a mechanism 120; A waterproof sheet ( 2) and the waterproof cover 200 provided with the attached finishing sheet 220; and a deaeration cap 300 installed to surround the upper region of the deaeration duct 100 including the deaeration port 120, and spaced apart from the outer circumferential surface of the deaeration duct 100 to form a deaeration flow path 310 in the downward direction; characterized by including.

At this time, the upper end of the deaeration duct 100 and the inner upper surface of the deaeration cap 300 are detachably fastened by any one fixing means 400 among pins and pinholes, hooks and hook grooves, screw coupling, and magnets. characterized in that it is provided.

In addition, the degassing duct 100 includes a main tube body 101 whose diameter is reduced toward the upper part, and a multi-pipe body ( 102), and the main tube body 101 and the multi-pipe body 102 are connected, and characterized in that it comprises an inclined tube body 103 through which a plurality of deaeration ports 120 pass.

In addition, the deaeration port 120 is closed by the Gore-Tex sheet 122, so that the exhaust of internal moisture is allowed and the inflow of external moisture is blocked.

In addition, a plurality of engraved grooves 112 are radially formed on the bottom surface of the base plate 110, and a gap is formed between the base plate 110 and the concrete base surface 1 by the engraved grooves 112 to wet. It is characterized in that it is provided to allow movement.

In addition, the base plate 110 is provided to be elastically fixed by the vibration damping means 500, the vibration damping means 500, the knife block 510 inserted and installed in the concrete base surface 1, and the base plate An anchor bolt 520 screwed to the knife block 510 through the fastening hole of 110 and inserted into the anchor bolt 520, which is disposed between the concrete base surface 1 and the base plate 110 It is characterized in that it includes an elastic body (530).

In addition, a through passage 600 is formed in the center of the degassing duct 100 and the degassing cap 300 in the longitudinal direction, and a transparent window 610 is formed on the upper surface of the degassing cap 300 corresponding to the through passage 600. It is installed and characterized in that it is provided so that the inside of the degassing duct 100 can be inspected through the transparent window 610 .

In addition, a variable airtight member 700 is installed between the deaeration duct 100 and the deaeration cap 300 and expands when exposed to moisture to close the space between the deaeration duct 100 and the deaeration cap 300. , The variable airtight member 700 is a buoyancy ring 710 installed to surround the outer circumferential surface of the degassing duct 100, and a water-expandable rubber resin material that is formed on the outer circumferential surface of the buoyancy ring 710 and expands when exposed to moisture ( 720), and the space between the deaeration duct 100 and the deaeration cap 300 corresponding to the variable airtight member 700 is formed such that the gap decreases toward the top, and the water level on the concrete base surface 1 is When it increases, the variable airtight member 700 moves upward by the buoyancy ring 710 and the water-expandable rubber resin material 720 expands while engaged in the space between the deaeration duct 100 and the deaeration cap 300 . It is characterized in that it is provided to close the space between the deaeration duct 100 and the deaeration cap 300 .

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According to the above configuration and action, the present invention is a sheet fusion degassing system, the structure is improved so that the degassing duct fixed to the concrete base is connected to the waterproof sheet through the waterproof cover, It has excellent workability and, in particular, has an effect of effectively releasing internal moisture while preventing backflow between the concrete base and the waterproof sheet.

1 is a configuration diagram showing the overall sheet fusion desorption system according to an embodiment of the present invention.
Figure 2 is a configuration diagram showing the disassembled sheet fusion desorption system according to an embodiment of the present invention.
3 is a configuration diagram showing a Gore-Tex sheet of a sheet fusion desorption system according to an embodiment of the present invention.
Figure 4 is a configuration diagram showing a state in which an intaglio groove is formed on the bottom surface of the base plate of the sheet fusion desorption system according to an embodiment of the present invention.
Figure 5 is a configuration diagram showing the vibration damping means of the sheet fusion desorption base system according to an embodiment of the present invention.
Figure 6 is a block diagram showing a transparent window of the sheet fusion desorption system according to an embodiment of the present invention.
7 is a configuration diagram showing a variable airtight member of the sheet fusion desorption system according to an embodiment of the present invention.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings. In the description of the present invention, when it is determined that the subject matter of the present invention may be unnecessarily obscured as it is obvious to those skilled in the art with respect to related known functions, the detailed description thereof will be omitted.

1 is a block diagram showing the overall sheet fusion desorption system according to an embodiment of the present invention, Figure 2 is a configuration diagram showing the sheet fusion desorption base system according to an embodiment of the present invention by disassembling, Figure 3 is A configuration diagram showing a Gore-Tex sheet of a sheet fusion-bonding and desorption system according to an embodiment of the present invention, Figure 4 is a state in which an intaglio groove is formed on the bottom surface of the base plate of the sheet fusion-bonding and desorption system according to an embodiment of the present invention 5 is a block diagram showing the vibration damping means of the sheet fusion desorption system according to an embodiment of the present invention, and FIG. 6 is a transparent window of the sheet fusion desorption system according to an embodiment of the present invention. 7 is a configuration diagram showing a variable airtight member of the sheet fusion desorption system according to an embodiment of the present invention.

The present invention relates to a sheet fusion desorption system, wherein the sheet fusion desorption system is structured such that the degassing duct fixed to the concrete base is connected to the waterproof sheet through the waterproof cover, and airtight processing between the degassing duct and the waterproof sheet The deaeration duct 100, the waterproof cover 200, and the deaeration cap 300 are provided to effectively release internal moisture while preventing excellent backflow between the concrete base surface and the waterproof sheet. including the main components.

In the degassing duct 100 according to the present invention, the base plate 110 is formed at the lower part and installed on the concrete base surface 1, and the degassing vent ( 120) is provided.

The degassing duct 100 includes a main tube body 101 whose diameter is reduced toward the upper part, and a multi-pipe body (102) which is spaced apart from the upper end of the main tube body (101) and has a reduced diameter compared to the main tube body (101). And, the main tube body 101 and the multi-pipe body 102 are connected, and the inclined tube body 103 through which the plurality of deaeration ports 120 is penetrated is included.

Here, the base plate 110 is fixed to the concrete base surface 1 by an anchor bolt or a vibration damping means 500 to be described later.

And, the degassing duct 100 is formed of a hard material including synthetic resin, rust-preventive coating-treated metal, and stainless steel, and is integrally connected to the waterproof sheet 2 by a waterproof cover 200 to be described later.

In addition, the waterproof cover 200 according to the present invention is installed to surround the deaeration duct 100 , an opening 210 is formed in the upper part to expose the deaeration duct 120 , and compared to the base plate 110 in the lower part It is provided with a waterproof sheet (2) and a finishing sheet (220) to be attached to the expansion formed on the concrete base surface.

The waterproof cover 200 is formed of the same material as the waterproof sheet 2, that is, a synthetic polymer system (PVC, TPO, LLDPE, PE, HDPE, EPDM, etc.) is connected to

And, the opening 210 is formed in a reduced size compared to the outer diameter of the deaeration duct 100, and the deaeration duct 100 is assembled with the waterproof cover 200 in a form in which the deaeration duct 100 is press-fitted to the opening 210, so that the connection part is airtight. Maintained, it is preferable to apply an adhesive containing silicone between the degassing duct 100 and the opening 210 for airtight adhesion.

In addition, the deaeration cap 300 according to the present invention is installed to surround the upper region of the deaeration duct 100 including the deaeration port 120, and is spaced apart from the outer peripheral surface of the deaeration duct 100 in the downward direction. ) to form

The deaeration cap 300 is connected to the upper end of the deaeration duct 100 , and the lower region is spaced apart from the outer peripheral surface of the deaeration duct 100 to form a deaeration flow path 310 .

At this time, the upper end of the deaeration duct 100 and the inner upper surface of the deaeration cap 300 are detachably fastened by any one fixing means 400 among pins and pinholes, hooks and hook grooves, screw coupling, and magnets. provided As an example, FIGS. 1 and 2 show a screwed state by a bolt and a nut, and FIG. 6 shows a screwed state by a female and male threaded part.

And, the deaeration cap 300 is formed to extend to a position lower than the opening 210 of the waterproof cover 200, even if the leak is destroyed between the deaeration duct 100 and the opening 210 of the waterproof cover 200 It will block the inflow of rainwater due to rain.

In FIG. 3 , the deaerator 120 is closed by the Gore-Tex sheet 122 so that the exhaust of internal moisture is allowed and the inflow of external moisture is blocked.

Accordingly, even when exposed to a high humidity environment, the reverse flow of moisture into the deaeration duct 100 through the deaeration port 120 is prevented.

In FIG. 4 , a plurality of intaglio grooves 112 are radially formed on the bottom surface of the base plate 110 .

As a gap is formed between the base plate 110 and the concrete base surface 1 by the intaglio groove 112 and provided so that wet movement is allowed, it exists between the concrete base surface 1 and the waterproof sheet 2 Wet is discharged more quickly.

In FIG. 5 , the base plate 110 is provided to be elastically fixed by the vibration damping means 500 .

The vibration damping means 500 is a knife block 510 inserted and installed in the concrete base surface 1, and an anchor bolt 520 screwed to the knife block 510 through the fastening hole of the base plate 110. And, it is inserted into the anchor bolt 520, and includes an elastic body 530 disposed between the concrete base surface (1) and the base plate (110). Here, the elastic body 530 may be configured to be installed to correspond to the upper surface of the base plate 110 .

As such, as the degassing duct 100 is installed to be flexible and flowable by the vibration damping means 500, the elastic body 530 cushions the impact in response to external blows and vibrations to prevent damage to the degassing duct 100. do.

In FIG. 6 , a through passage 600 is formed in the longitudinal direction at the center of the deaeration duct 100 and the deaeration cap 300 . In addition, a transparent window 610 is installed on the upper surface of the degassing cap 300 corresponding to the through passage 600 .

Accordingly, since the inside of the degassing duct 100 is visually inspected through the transparent window 610 to determine the condition of the concrete base surface 1, convenience is provided for long-term maintenance.

7, the variable airtight member 700 is installed between the deaeration duct 100 and the deaeration cap 300 and expands when exposed to moisture to close the space between the deaeration duct 100 and the deaeration cap 300. provided

The variable airtight member 700 includes a buoyancy ring 710 installed to surround the outer circumferential surface of the degassing duct 100, and a water-expandable rubber resin material 720 that is formed on the outer circumferential surface of the buoyancy ring 710 and expands when exposed to moisture. ) is included.

In addition, the space between the variable airtight member 700 and the corresponding deaeration duct 100 and the deaeration cap 300 is formed such that the gap decreases toward the top.

Accordingly, when the water level on the concrete base surface 1 increases, the variable airtight member 700 moves upward by the buoyancy ring 710 and engages the space between the degassing duct 100 and the degassing cap 300 . As the water-expandable rubber resin material 720 expands and the space between the deaeration duct 100 and the deaeration cap 300 is closed, water flows through the deaeration duct 120 by the water level rising from the outside through the deaeration duct 100. backflow is prevented.

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As described above, in the detailed description of the present invention, the most preferred embodiment of the present invention has been described, but various modifications are possible within the scope not departing from the technical scope of the present invention. Therefore, the protection scope of the present invention is not limited to the above embodiments, but the protection scope should be recognized from the techniques of the claims to be described later and equivalent technical means from these techniques.

100: degassing duct 200: waterproof cover
300: degassing cap

Claims (9)

The base plate 110 is formed at the lower part and installed on the concrete base surface 1, and the degassing duct 100 is provided with a deaeration port 120 at the upper part to discharge the moisture generated from the concrete base surface 1 to the outside. ; A waterproof sheet ( 2) and the waterproof cover 200 provided with the attached finishing sheet 220; and a deaeration cap 300 installed to surround the upper region of the deaeration duct 100 including the deaeration port 120, and spaced apart from the outer circumferential surface of the deaeration duct 100 to form a deaeration flow path 310 in the downward direction; including,
A variable airtight member 700 is provided between the deaeration duct 100 and the deaeration cap 300 and expands when exposed to moisture to close the space between the deaeration duct 100 and the deaeration cap 300,
The variable airtight member 700,
A buoyancy ring 710 that is installed to surround the outer circumferential surface of the degassing duct 100, and
It is formed on the outer peripheral surface of the buoyancy ring 710 and includes a water-expandable rubber resin material 720 that expands when exposed to moisture,
The space between the variable airtight member 700 and the corresponding degassing duct 100 and the degassing cap 300 is formed such that the gap decreases toward the top,
When the water level on the concrete base surface 1 increases, the variable airtight member 700 moves upward by the buoyancy ring 710 to engage the space between the degassing duct 100 and the degassing cap 300 . The sheet fusion desorption system, characterized in that the water-expandable rubber resin material 720 is expanded to close the space between the degassing duct 100 and the degassing cap 300 .
The method of claim 1,
The upper end of the deaeration duct 100 and the inner upper surface of the deaeration cap 300 are provided to be detachably fastened by any one fixing means 400 among pins and pinholes, hooks and hook grooves, screw coupling, and magnets. Sheet fusion desorption system, characterized in that.
The method of claim 1,
The deaeration duct 100 includes a main tube body 101 whose diameter is reduced toward the upper part, and a multi-pipe body 102 that is spaced apart from the upper end of the main tube body 101 and has a reduced diameter compared to the main tube body 101 ) And, connecting the main tube body 101 and the multi-pipe body 102, and a plurality of degassing holes 120 through the inclined tube body 103, characterized in that it comprises a sheet fusion desorption system.
The method of claim 1,
The evacuation device 120 is closed by the Gore-Tex sheet 122, so that the exhaust of internal moisture is allowed and the inflow of external moisture is blocked.
The method of claim 1,
A plurality of intaglio grooves 112 are radially formed on the bottom surface of the base plate 110, and a gap is formed between the base plate 110 and the concrete base surface 1 by the intaglio grooves 112, so that wet movement is possible. Sheet fusion desorption system, characterized in that it is provided to be accepted.
The method of claim 1,
The base plate 110 is provided to be elastically fixed by the vibration damping means 500,
The vibration damping means 500,
A knife block 510 inserted and installed in the concrete base surface (1),
An anchor bolt 520 that is screwed to the knife block 510 through the fastening hole of the base plate 110 and,
The sheet fusion desorption system, which is inserted into the anchor bolt 520, and comprises an elastic body 530 disposed between the concrete base surface (1) and the base plate (110).
The method of claim 1,
A through passage 600 is formed in the center of the degassing duct 100 and the degassing cap 300 in the longitudinal direction, and a transparent window 610 is installed on the upper surface of the degassing cap 300 corresponding to the through passage 600. , Sheet fusion desorption system, characterized in that provided so as to inspect the inside of the degassing duct (100) through the transparent window (610).
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