KR102574833B1 - Modular Air vent for exhausting moisture on roof surface using non-powered fan and super absorbent sheet - Google Patents

Abstract

The present invention relates to a modular air vent utilizing a non-powered fan and a high-absorbent sheet, and is fixed to the inner surface of a pipe hole formed by drilling a concrete layer having a waterproof layer formed thereon from the waterproof layer to a predetermined depth of the corresponding concrete layer. In a state in which the PVC pipe to which the absorbent sheet is attached is inserted and fixed, and the PVC pipe is inserted and fixed into the air vent pipe, the lower surface of the wing of the air vent pipe is adhered to and fixed to the surface of the waterproof layer around the pipe hole, and the air vent In a state where a fan support is placed on the support of the pipe and the non-powered fan is placed and supported on the support of the pipe, the shaft member of the cover passes through the non-powered fan and the fan support sequentially to fit into the central portion of the support of the air vent pipe As it is fixed in such a way, it covers the upper opening of the air vent pipe and guides the airflow rising along the outer surface of the air vent pipe to move to the inner center, rotating the non-powered fan to adhere to the inner surface of the PVC pipe inside the air vent pipe The moisture of the concrete layer absorbed and evaporated through the super-absorbent sheet is discharged to the outside, and the concrete layer and the corresponding concrete The moisture of the waterproof layer formed on the surface of the layer is further discharged to the outside.
According to the present invention, the moisture in the concrete layer absorbed and evaporated through the super-absorbent sheet attached to the inner surface of the PVC pipe inside the air vent pipe is discharged to the outside by rotating the non-powered fan, and at the same time, the air vent pipe is extended to the lower edge of the air vent pipe. If the moisture of the concrete layer and the waterproof layer formed on the surface of the concrete layer is further discharged to the outside through the ventilating grooves formed on the bottom of the wing, the moisture can be discharged to the outside quickly and smoothly, especially the moisture contained in the concrete layer itself. When water vapor due to evaporation is generated, it is possible to solve the problem of reducing the adhesive performance of the waterproof layer and causing peeling of the waterproof layer in severe cases by preventing the formation of an air pocket between the waterproof layer and the concrete layer. .

Description

Modular Air vent for exhausting moisture on roof surface using non-powered fan and super absorbent sheet}

The present invention relates to a modular air vent for discharging moisture, and more particularly, to a modular air vent using a non-powered fan and a highly absorbent sheet.

A waterproof layer is formed on a concrete layer forming a roof or a floor surface of a concrete building.

As described above, the waterproof layer formed on the concrete layer deteriorates when cracks occur or deterioration occurs in the concrete layer due to volume changes due to external temperature changes, and rainwater permeates between the waterproof layer and the concrete layer, causing leakage. Or, when water vapor is generated due to the evaporation of moisture contained in the concrete layer itself, an air pocket is formed between the waterproof layer and the concrete layer, which reduces the adhesive performance of the waterproof layer and, in severe cases, causes peeling of the waterproof layer. There is a problem.

In order to solve the above problems, conventionally, as shown in FIG. 1, with respect to the concrete layer 20 on which the waterproof layer 10 is formed on the surface, a predetermined depth of the concrete layer 20 from the waterproof layer 10 A ventilation pipe 30 made of PVC (Poly Vinyl Chloride) material and curved at the top in a gooseneck shape is inserted and fixed into the pipe hole 31 formed by drilling up to The moisture of the concrete layer 20 was discharged to the outside by natural evaporation by the air current (air flow) blowing naturally from.

As shown in FIG. 1, when the natural evaporation method is used through the ventilation pipe 30 with the upper end curved in a gooseneck shape, the moisture discharge efficiency is low because it takes a long time to discharge the moisture of the concrete layer 20 to the outside. has a problem.

(Patent Document 1) KR10-0769929 B1

The present invention is to solve the conventional problems as described above, and an object of the present invention is to drill a concrete layer with a waterproof layer on the surface from the waterproof layer to a predetermined depth of the concrete layer to form a pipe hole formed on the inner surface. The PVC pipe to which the superabsorbent sheet is adhered is inserted and fixed, and in a state in which the PVC pipe is inserted and fixed into the air vent pipe, the bottom surface of the wing of the air vent pipe is closely attached to the surface of the waterproof layer around the pipe hole and fixed, and the air In a state where the fan support is placed on the support of the vent pipe and the non-powered fan is placed and supported on the fan support, the shaft member of the cover passes through the non-powered fan and the fan support sequentially and is inserted into the center of the support of the air vent pipe As it is fixed in a customized manner, it covers the upper opening of the air vent pipe and guides the airflow rising along the outer surface of the air vent pipe to move to the inner center, rotating the non-powered fan to the inner surface of the PVC pipe inside the air vent pipe. The moisture of the concrete layer that is absorbed and evaporated through the adhered superabsorbent sheet is discharged to the outside, and the concrete layer and the corresponding It is to provide a modular air vent using a non-powered fan and a high-absorbent sheet that further discharges moisture from the waterproof layer formed on the surface of the concrete layer to the outside.

In order to achieve the object of the present invention as described above, the modular air vent using the non-powered fan and the high-absorbent sheet according to the present invention is manufactured in a top-down penetration type, and a support portion to support the fan support is formed at the top opening and the bottom rim an air vent pipe capable of inserting and fixing a PVC pipe to which wings are extended, at least one ventilation groove is formed on the bottom surface of the wings, and a high-absorbent sheet is adhered to the inner surface; a fan support mounted on an upper surface of the supporting portion; a non-powered fan seated on an upper surface of the fan support and rotating non-powered by an air flow formed by an inflow of an air flow rising along the outer surface of the air vent pipe into the inside of the cover; and a shaft member manufactured in a lower open type and protruding from the inner central portion passes through the non-powered fan and the fan support in sequence and is fixed to the central portion of the supporting portion in a fit-fitting manner to cover the upper opening of the air vent pipe and cover the air vent pipe. Characterized in that it consists of; a cover for forming an air flow that rotates the non-powered fan by inducing the air flow rising along the outer surface of the inner center to move.

In the modular air vent using a non-powered fan and a super absorbent sheet according to the present invention, the super absorbent sheet is made of any one of cotton nonwoven fabric, regenerated fiber nonwoven fabric, and superabsorbent polymer nonwoven fabric.

In the modular air vent using a non-powered fan and a high-absorbent sheet according to the present invention, the supporting portion is disposed at the center of the upper opening of the air vent pipe and is fitted with the shaft member while supporting the fan support. It is characterized in that it consists of a coupled shaft support and a plurality of support legs radially extending from the outer circumferential surface of the shaft support toward the inner circumferential surface of the upper end of the air vent pipe.

In the modular air vent using a non-powered fan and a high-absorbent sheet according to the present invention, the slope of the upper and lower beams for inducing the air flow rising upward along the lower outer circumferential surface between the lower outer circumferential surface of the air vent pipe and the wings A portion is formed, and the wing portion is characterized in that it extends from the lower edge of the inclined portion.

In the modular air vent using a non-powered fan and a high-absorbent sheet according to the present invention, the cover has an inclined surface formed therein to guide the airflow rising along the outer surface of the air vent pipe to the inner central portion. characterized by

In the modular air vent using a non-powered fan and a high-absorbent sheet according to the present invention, the shaft member of the cover is located at the upper end of the through-portion and the through-portion that sequentially passes through the non-powered fan and the fan support, so that the non-powered fan It is caught on the upper surface of the doedoe characterized in that it is divided into a hooking portion formed larger than the diameter of the through portion.

In the modular air vent using a non-powered fan and a high-absorbent sheet according to the present invention, the cover covers the upper opening of the air vent pipe, but the lower end thereof is positioned lower than the height of the upper end of the air vent pipe, so that the air vent It is characterized in that it blocks the penetration of water into the pipe.

According to the present invention, the moisture in the concrete layer absorbed and evaporated through the super-absorbent sheet attached to the inner surface of the PVC pipe inside the air vent pipe is discharged to the outside by rotating the non-powered fan, and at the same time, the air vent pipe is extended to the lower edge of the air vent pipe. If the moisture of the concrete layer and the waterproof layer formed on the surface of the concrete layer is further discharged to the outside through the ventilating grooves formed on the bottom of the wing, the moisture can be discharged to the outside quickly and smoothly, especially the moisture contained in the concrete layer itself. When water vapor due to evaporation is generated, it is possible to solve the problem of reducing the adhesive performance of the waterproof layer and causing peeling of the waterproof layer in severe cases by preventing the formation of an air pocket between the waterproof layer and the concrete layer. .

1 is an embodiment showing a state of use of a conventional ventilation pipe for discharging moisture.
Figure 2 is an exploded perspective view of a modular air vent utilizing a non-powered fan and a high-absorbent sheet according to the present invention.
Figure 3 is a bottom perspective view of the air vent pipe shown in Figure 2;
Figure 4 is a bottom perspective view of the cover shown in Figure 2;
5 is an embodiment explaining a concrete layer moisture discharge method using a modular air vent using a non-powered fan and a high absorbent sheet according to the present invention.
6 is an embodiment showing a moisture discharge path of a concrete layer through an air vent pipe.
Figure 7 is an embodiment showing the moisture discharge path of the concrete layer and the waterproof layer through the ventilation groove of the lower wing of the air vent pipe.

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

Modular air vents using a non-powered fan and a high-absorbent sheet according to the present invention described below are not limited to the following embodiments, and are conventional in the related art without departing from the gist of the technology claimed in the claims. There is a technical spirit to the extent that anyone with knowledge can change and implement it.

2 to 7, a modular air vent 100 using a non-powered fan and a high absorbent sheet according to the present invention includes an air vent pipe 110, a fan support 120, a non-powered fan 130, and a cover. 140, and these respective components are assembled and integrated.

The air vent pipe 110, the fan support 120, the non-powered fan 130, and the cover 140 are preferably manufactured by injection molding a mixture of a thermoplastic polyolefin elastomer (TPO) resin, a sunscreen, and a colorant, respectively. . If a sunscreen is used, deterioration by ultraviolet rays can be prevented when the event 100, in which each of these components are assembled and integrated, is used after outdoor installation.

The modular air vent 100 using a non-powered fan and a high-absorbent sheet according to the present invention forms the roof or floor of a concrete building and discharges moisture from the concrete layer on which the waterproof layer is formed on the surface. At the same time, it is used to discharge moisture from the waterproof layer.

The event pipe 110 is made of a top-down penetration type, a support portion 111 supporting the fan support 120 is formed at the top opening, and a wing portion 112 is formed extending to the bottom edge, and the wing portion 112 At least one ventilation groove 112a is formed on the bottom surface of the PVC pipe 200 to which the superabsorbent sheet 210 is adhered to the inner surface thereof, and the PVC pipe 200 may be inserted and fixed therein.

A plurality of bolt grooves 112b into which anchor bolts are fastened are further formed at predetermined intervals in the wing portion 112 .

The supporting part 111 is disposed at the center of the upper opening of the air vent pipe 110 and is coupled to the shaft member 141 of the cover 140 in a fit-fitting manner while supporting the fan support 120 It consists of a shaft support portion 111a and a plurality of support legs 111b radially extending from the outer circumferential surface of the shaft support portion 111a toward the inner circumferential surface of the upper end of the air vent pipe 110.

For reference, the embodiment of the present invention illustrates a structure in which the shaft support portion 111a is supported by six radial support legs 111b, but the airflow and air flow through the upper opening of the air vent pipe 110 If the structure allows moisture to pass through, the number of support legs 111b may be formed in various ways, such as two, three, or four.

Between the outer circumferential surface of the lower end of the air vent pipe 110 and the wing part 112, an inclined part 113 of an upper narrowing and a lower light is formed to induce an air flow rising upward along the outer circumferential surface of the lower part, and the wing part 112 Is formed extending from the lower edge of the inclined portion 113.

The fan support 120 is seated on the upper surface of the supporting part 111 .

2 showing an embodiment of the present invention illustrates a fan support 120 made of a cylindrical body having a central through hole.

The non-powered fan 130 is seated on the upper surface of the fan support 120, and the air flow rising along the outer surface of the air vent pipe 110 rotates unpowered by the air flow formed inside the cover 140, It includes a bearing for flexible rotation in a state fitted to the shaft member 141 of the cover 140.

The cover 140 is manufactured in a bottom open type, and a shaft member 141 protruding from the inner central portion sequentially penetrates the non-powered fan 130 and the fan support 120 to fit into the central portion of the support portion 111 As it is fixed in this way, it covers the upper opening of the air vent pipe 110 and guides the air flow rising along the outer surface of the air vent pipe 110 to move to the inner center, thereby rotating the non-powered fan 130. form

The cover 140 has an inclined surface formed therein to guide the airflow rising along the outer surface of the air vent pipe 110 to the inner center.

The shaft member 141 of the cover 140 is located at the upper end of the through portion 141a passing through the non-powered fan 130 and the fan support 120 sequentially and the through portion 141a, so that the non-powered fan 130 It is caught on the upper surface of the ) and is divided into a hooking portion 141b formed larger than the diameter of the through portion 141a.

The cover 140 covers the upper opening of the air vent pipe 110, but the lower end thereof is positioned lower than the height of the upper end of the air vent pipe 110 to prevent water from penetrating into the air vent pipe 110. block it

The modular air vent 100 using a non-powered fan and a high-absorbent sheet according to the present invention configured as described above is used in a method for releasing moisture from a concrete layer.

5 is an embodiment illustrating a concrete layer moisture discharge method using a modular air vent 100 using a non-powered fan and a high absorbent sheet according to the present invention, and the concrete layer moisture discharge method is described in detail below. It consists of the first to sixth steps and is performed as follows.

In the embodiment of the present invention shown in FIG. 5, a liquid waterproofing layer 11, a hard urethane waterproofing layer 12 and an unreinforced concrete slab 13 are formed on a concrete slab 20 forming a concrete layer such as a roof or a floor surface of a concrete building. represents the waterproof layer 10 formed by sequentially stacking.

First of all, as described above, with respect to the concrete layer 20 on which the waterproof layer 10 is formed on the surface, a superabsorbent sheet 210 is formed on the inner surface by drilling from the waterproof layer 10 to a predetermined depth of the corresponding concrete layer 20. Form a pipe hole 101 into which the PVC pipe 200 to be bonded can be inserted and fixed (step 1).

After the pipe hole 101 is formed as described above, a PVC superabsorbent sheet 210 is attached to the inner surface of the pipe hole 101 formed to pass through the waterproof layer 10 and the concrete layer 20 sequentially. The pipe 200 is inserted and fixed (second process).

At this time, it is preferable to use cotton non-woven fabric, regenerated fiber non-woven fabric, super-absorbent polymer non-woven fabric, etc. for the super-absorbent sheet 210, and it is adhered to the inner surface of the PVC pipe 200 with an adhesive or adhesive silicone. It is preferable to adhere in a state that completely covers the inner surface of the PVC pipe 200 to maintain the.

As described above, after inserting and fixing the PVC pipe 200 to which the superabsorbent sheet 210 is adhered to the inner surface of the pipe hole 101, the PVC pipe 200 is inserted into the air vent pipe 110. By fixing, the bottom surface of the wing part 112 of the air vent pipe 110 is fixed in close contact with the surface of the waterproof layer 10 around the pipe hole 101 (third step).

At this time, the wing portion 112 is fixed in close contact with the surface of the waterproof layer 10 as the anchor bolt is fastened to the plurality of bolt grooves 112b.

As described above, after the wings 112 are fixed in close contact with the surface of the waterproof layer 10 formed on the surface of the concrete layer 10, the fan support 120 is placed on the support 111 of the air vent pipe 110 put on it to support it (step 4).

After the fan support 120 is placed on the supporting portion 111 of the air vent pipe 110, the non-powered fan 130 is placed on the fan support 120 and supported (step 5).

After the non-powered fan 130 is placed on the fan support 120, the shaft member 141 of the cover 140 sequentially penetrates the non-powered fan 130 and the fan support 120 to provide air vents. The air vent pipe 110, the fan support 120, the non-powered fan 130, and the cover 140 are all assembled and integrated by fixing the air vent pipe 110 to the central part of the supporting part 111 of the pipe 110 in a fitting manner. The concrete layer moisture discharge method using the vent 100 is completed (step 6).

At this time, in the shaft member 141 of the cover 140, the non-powered fan 130 and the fan support 120 are positioned at the upper end of the through-portion 141a that sequentially passes through the through-portion 141a. It is preferable that the upper surface of the non-powered fan 130 is caught on the hooking portion 141b formed larger than the diameter.

In addition, in a state in which the fan support 120 is supported by the supporting portion 111 disposed at the center of the upper end opening of the air vent pipe 110, the shaft member 141 is a shaft support of the supporting portion 111 It is preferable to join the portion 111a in a fit-fitting manner.

In addition, the upper opening of the air vent pipe 110 is covered with the cover 140, and the lower end is positioned lower than the height of the upper end of the air vent pipe 110 so that water flows into the air vent pipe 110. It is desirable to block penetration.

As described above, the air vent pipe 110, the fan support 120, the non-powered fan 130, and the cover 140 are all assembled and the concrete layer moisture discharge method using the integrated air vent 100 is completed. The air vent 100 performs a moisture discharge operation as shown in FIGS. 5 to 7 .

For example, as indicated by arrows in the left air vent 100 in FIG. 5 , when an air current rising along the outer surface of the air vent pipe 110 is generated, the air flow formed along the inclined surface inside the cover 130 The non-powered fan 130 rotates without power.

As such, whenever the non-powered fan 130 rotates without power, as shown in FIG. 6, a moisture discharge path of the concrete layer 20 passing through the air vent pipe 110 is formed.

In addition, as shown in 7 regardless of whether the non-powered fan 130 rotates without power, contact between the PVC pipe 200 and the pipe hole 101 drilled in the concrete layer 20 and the waterproof layer 10 A moisture discharge path between the concrete layer 20 and the waterproof layer 10 is formed via the gap and the ventilation groove 112a of the lower wing 112 of the air vent pipe 110.

As can be seen from the above, according to the present invention, the moisture of the concrete layer 20 absorbed and evaporated through the super absorbent sheet 210 adhered to the inner surface of the PVC pipe 200 inside the air vent pipe 110 is not powered. The fan 130 is rotated and discharged to the outside, and at the same time, the concrete layer 20 and the concrete layer 20 through the ventilation grooves 112a formed on the bottom surface of the wing 120 extending from the lower edge of the air vent pipe 110. If the moisture of the waterproof layer 10 formed on the surface of the layer 20 is further discharged to the outside, the moisture can be quickly and smoothly discharged to the outside.

According to the present invention, in particular, when water vapor is generated due to evaporation of moisture contained in the concrete layer 20 itself, the formation of air pockets between the waterproof layer 10 and the concrete layer 20 is prevented. By doing so, it is possible to solve the problem of lowering the adhesive performance of the waterproof layer 10 and causing peeling of the waterproof layer 10 in severe cases.

10: waterproof layer 11: liquid waterproof layer
12: hard urethane waterproofing layer 13: plain concrete slab
20: concrete layer 30: ventilation pipe
31: pipe hole
100: Modular air vent using non-powered fan and highly absorbent sheet
101: pipe hole
110: air vent pipe 111: support
111a: shaft support 111b: support leg
112: wing part 112a: ventilation groove
112b: bolt groove 113: inclined portion
120: fan support
130: non-powered fan
140: cover 141: shaft member
141a: penetrating part 141b: hooking part
200: PVC pipe 210: super absorbent sheet

Claims (7)

A PVC pipe manufactured in a top-down penetration type, having a supporting part supporting the fan support at the top opening, extending wings at the lower edge, forming at least one ventilation groove on the bottom of the wing, and having a super absorbent sheet attached to the inner surface. An air vent pipe that can be inserted and fixed inside;
a fan support mounted on an upper surface of the supporting portion;
a non-powered fan seated on an upper surface of the fan support and rotating non-powered by an air flow formed by an inflow of an air flow rising along the outer surface of the air vent pipe into the inside of the cover; and
A shaft member manufactured in an open bottom type and protruding from the inner central portion passes through the non-powered fan and the fan support in sequence and is fixed to the central portion of the support portion in a fit-fitting manner, covering the upper opening of the air vent pipe and a cover for inducing an airflow rising along an outer surface to move toward an inner central portion to form an airflow that rotates the non-powered fan;
A modular air vent using a non-powered fan and a high-absorbent sheet, characterized in that consisting of. The modular air vent according to claim 1, wherein the super-absorbent sheet is made of any one of cotton non-woven fabric, regenerated fiber non-woven fabric, and super-absorbent polymer non-woven fabric. The air vent according to claim 1 , wherein the supporting portion is disposed at a central portion of the upper opening of the air vent pipe and coupled to the shaft member in a fit-fitting manner while supporting the fan support, and an outer circumferential surface of the shaft supporting portion A modular air vent using a non-powered fan and a highly absorbent sheet, characterized in that it consists of a plurality of support legs extending radially toward the upper inner circumferential surface of the vent pipe. The method of claim 1 , wherein an upper and lower inclined portion is formed between the lower outer circumferential surface of the air vent pipe and the wing portion to induce an air flow rising upward along the lower outer circumferential surface, and the wing portion extends from the lower edge of the inclined portion. A modular air vent utilizing a non-powered fan and a highly absorbent sheet, characterized in that it is formed. The module using a non-powered fan and a super-absorbent sheet according to claim 1, wherein the cover has an inclined surface formed on the inside of the cover to guide the airflow rising along the outer surface of the air vent pipe to the inner center. brother air vent. According to claim 1, the shaft member of the cover is located at the upper end of the through portion and the through portion sequentially passing through the non-powered fan and the fan support member to be caught on the upper surface of the non-powered fan and formed larger than the diameter of the through portion. A modular air vent using a non-powered fan and a high-absorbent sheet, characterized in that it is divided into parts. 2. The method of claim 1, wherein the cover covers the upper opening of the air vent pipe, but the lower end thereof is positioned lower than the height of the upper end of the air vent pipe to prevent water from penetrating into the air vent pipe. Modular air vent using non-powered fan and highly absorbent sheet.

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