KR101120001B1 - Waterproofing sheet and method of producing the same - Google Patents

Abstract

PURPOSE: A waterproof sheet and a manufacturing method thereof are provided to form a waterproof layer on a construction floor. CONSTITUTION: A waterproof sheet comprises a sheet layer and a film layer(120). The sheet layer is attached to the built floor side and is extended to outside. The sheet layer comprises a wing portion(112). The wing portion has the thickness thinner than that of the whole waterproof sheet. The wing portion forms a cut out part(114) which has been being snapped by the edge portion. The film layer is formed on the sheet layer. The film layer prevents from the external moisture downwards penetrating.

Description

Waterproofing Sheet and Method of Producing the Same

The present invention relates to a waterproof sheet and a method for manufacturing the same, and more particularly, to a waterproof sheet and a method for manufacturing the same, which can be used in a floor of a bridge structure or a building, and can easily and efficiently form a waterproof layer on a construction floor.

Generally, a waterproof layer is formed on the top of a bridge, the floor of a building, or the roof of a building. The bridge waterproofing, which is installed on the top of bridges, forms a waterproof layer on the tops of various bridges such as road bridges, railway bridges, and overpasses, and prevents the penetration of moisture due to natural phenomena such as rain and snow to prevent cracking and damage of bridge structures. To prevent and minimize it. In addition, even in the case of the roof of the building to form a waterproof layer for the same purpose.

Bridge waterproofing or waterproofing of building can be classified into penetration type, coating type and sheet type according to the type of waterproofing material and specific construction method.

Penetration is a method of applying permeable waterproofing material to the slab of a bridge or the roof floor of a building to penetrate the interior of the roof of the bridge or the roof floor of the building. However, this method has a disadvantage in that it is difficult to penetrate the waterproof material in a bridge or the like due to high strength concrete having an internal structure that is difficult to construct in reality.

The coating method is a method of forming a waterproof layer having a predetermined thickness on the roof top of the bridge or the roof of the building by applying a coating film waterproofing material to the slab of the bridge or the roof floor of the building. However, this method requires a separate curing time and has the disadvantage of being cumbersome.

On the other hand, the sheet type is a method of forming a waterproof layer by attaching a waterproof sheet formed in a predetermined size to the floor of the slab or the roof of the bridge. This method is most widely used today because its construction is very simple and does not require particularly long curing. However, with this approach, the most vulnerable issue is the bond strength of the seams at the interface that joins each sheet. This is further increased as the roof top surface of the bridge and the roof bottom surface of the building are exposed to the open air, and thus face a limit situation in which thermal expansion and thermal contraction phenomena due to temperature difference between summer and winter are inevitable.

The processing method of such a joint at the interface is introduced in FIG. This can be divided into (a) overlapping joints, (b) filling joints and (c) intermediate joints.

However, in the above (a) overlapping joint method, the joints are overlapped with each other as they are, and the gaps are floated, so that the cracks due to thermal expansion contraction are easily received, and the surface thereof is uneven.

In addition, the (b) the filling method of the above is also a situation that does not solve the disadvantage of protruding unevenly on the surface and not only visually impair the aesthetics, but also easy to crack due to the weak adhesive surface.

On the other hand, the (c) the intermediate joint connection method can be evaluated in the presently the most improved way, but requires a lot of time for the work of the joint, there is a disadvantage that can not avoid the troublesome work.

Republic of Korea Patent No. 924760 "PVC composite waterproof sheet and its manufacturing method, and the joint method and composite waterproofing method of the composite waterproof sheet" (2009. 11. 05.); Republic of Korea Patent No. 1004752 "Joint Structure of Waterproof Sheet for Expansion Response and Separation Behavior" (2011. 01. 04.)

The present invention, in order to solve such problems of the prior art, by improving the shape of the conventional waterproof sheet, simply arrange the waterproof sheet in turn on the top of the bridge or the floor of the building, and on or at appropriate intervals thereon The other waterproof sheet can be arranged in order to be installed, even in such a state is to provide a waterproof sheet that does not weaken the bonding force of the joint.

In order to achieve the above object, the present invention provides a waterproof layer comprising a sheet layer attached to the bottom surface to be constructed and a coating layer formed on the sheet layer and preventing external moisture from penetrating downward. In the sheet, the sheet layer extends to the outside thereof, is made of the same material, and further includes a wing having a thickness thinner than that of the entire waterproof sheet.

In the present invention, it is preferable that the wing portion extends from 1 centimeter to 30 centimeters outward when the width of the coating layer is 100 centimeters. In addition, the wing portion is preferably formed on any one or more surfaces selected from the group consisting of a front surface, a rear surface, a left surface and a right surface. Moreover, it is preferable that the said blade | wing part forms the cut | disconnected part cut off in four corner parts of the said sheet layer. In addition, it is preferable that the wing portion provides a space where the sheet layer of another waterproof sheet immediately adjacent thereto is placed and overlaps.

The waterproof sheet according to the present invention has a wing portion extending outwardly on its side and is coupled with another waterproof sheet adjacent thereto through the wing portion, so that the joint can be joined much better than the conventional case. There is an advantage.

In addition, when using the waterproof sheet according to the present invention when constructing the top surface of the bridge or the floor of the building, simply lay the above waterproof sheet on the floor, it is enough to combine the normal waterproof sheet placed thereon again. Therefore, there is an advantage that the operation can be performed much simpler and easier than the conventional method.

1 is a schematic view of a preferred embodiment of a waterproof sheet according to the present invention;
2 is a schematic view of a second preferred embodiment of the waterproof sheet of the present invention;
3 is a schematic view of a third preferred embodiment of the waterproof sheet of the present invention;
4 is a schematic view of a device for manufacturing a waterproof sheet of the present invention,
5 is a schematic view showing a specific embodiment of the cutter of FIG.
Figure 6 is a schematic diagram showing the procedure for constructing a waterproof sheet of the present invention, and
Figure 7 is a schematic diagram showing a joint coupling method of a conventional waterproof sheet.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings. However, the accompanying drawings are only intended to describe the technical spirit of the present invention in more detail, the technical spirit of the present invention is not limited thereto, and various modifications are possible in advance.

1 is a schematic conceptual view of a preferred waterproof sheet 100 according to the present invention,

Figure 2 is a conceptual view showing another preferred embodiment of the present invention, Figure 2a is a plan view looking down from the waterproof sheet 100, Figure 2b is a cut of the waterproof sheet 100 cut along the line AA in Figure 2a It is a cross section.

The present invention is an improvement of the conventional waterproof sheet. Therefore, the basic structure or material of the present invention may utilize the same or similar to the conventional waterproof sheet.

The waterproof sheet 100 according to the present invention includes a sheet layer 110 attached to a top plate of a bridge or a bottom surface of a building and forming a bottom surface thereof. The sheet layer 110 refers to a layer that is attached to the top of the bridge or the floor of the building, the material may be formed of a different material depending on the product used.

In addition, the sheet layer 110 may be composed of a single layer, but in some cases may be composed of a plurality of layers. When composed of multiple layers, it will constitute a composite waterproof sheet.

In addition, the sheet layer 110 is exposed to the natural environment as it is to withstand the expansion and contraction phenomenon caused by a large temperature difference, it is preferably made of a suitable material. In consideration of this, the sheet layer 110 is preferably composed of a fiber material, and more specifically, a woven or nonwoven fabric may be used. In the case of using the woven or nonwoven fabric, the multilayer or coating layer 120 to be bonded thereon serves to prevent the deformation caused by the temperature difference.

The waterproof sheet 100 according to the present invention is formed on the sheet layer 110 and includes a coating layer 120 that prevents external moisture from penetrating downward. The coating layer 120 is not limited in its material or form as long as it can prevent external moisture from penetrating downward.

In the present invention, the coating layer 120 may be formed in the form of a pure coating film by applying a waterproofing material, or may be formed of a synthetic resin film layer in the form of an elongated thin film. In the case of a thin film type resin film layer, it is suitable to use any one film layer selected from the group consisting of PP, PE, PVC, ABS, and synthetic copolymers. . Among them, the above-described fibrous (PVC) film layer is most suitable when comprehensively considering weather resistance, fatigue resistance, adhesiveness, economical efficiency, and the like of the material.

In the present invention, the coating layer 120 may be formed of a plurality of layers. In this case, the coating layer 120 may constitute a first waterproof sheet and a second waterproof sheet. When the coating layer 120 is composed of a synthetic resin film layer, the first waterproof sheet may be formed of recycled synthetic resin, and the second waterproof sheet may be formed of a raw synthetic resin, or vice versa.

In addition, in the present invention, the coating layer 120 may include a foam material obtained by foaming, as well as a conventional material. In the case of including a foam material, the layer forming the foam material is preferably wrapped and formed in a normal material layer on the upper and lower layers. When the coating layer 120 is made of a PVC sheet having a waterproof function, it will take the form of a composite layer including a PVC foam layer.

The waterproof sheet 100 according to the present invention further includes a wing 112 formed by extending the sheet layer 110 to the outside thereof.

In the present invention, the wing portion 112 extends to the outside of the sheet layer 110, is made of the same material as the sheet layer 110, thinner than the thickness of the waterproof sheet 100 It has a thickness. The reason why the wing 112 is extended to the outside of the sheet layer 110 is to allow another waterproof sheet adjacent thereto to be formed to form a portion overlapped with it. In addition, the overlapped coupling part not only strengthens the bonding force between the waterproof sheet 100 and the waterproof sheet 200 which are adjacent to each other, but also prevents cracking due to thermal expansion and thermal contraction. Because. In addition, the thickness of the wing 112 is formed to be thinner than the thickness of the waterproof sheet 100, so that the coupling portion is formed thin, and also to form a low jaw at the coupling portion.

In the present invention, the length (L) of the wing portion 112 is preferably formed to extend from 1 centimeter to 30 centimeters when the width (W) of the coating layer 120 is 100 centimeters. . This means that the length (l) of the wing 112 can be appropriately adjusted according to the construction site. When the length (l) of the wing portion 112 is shorter than 1 centimeter, the overlapping portion is small and the coupling force is weak, whereas when the length (l) of the wing portion 112 exceeds 30 centimeters, the overlap Although there are many parts, the bonding strength is strong, but the bonding strength is not increased in proportion to it, and it is not preferable in terms of economy. The preferred range is the length (l) of the wing 112 is 5 centimeters to 15 centimeters, and the more preferred range is the length of the wing 112 is 7 centimeters to 12 centimeters.

In the present invention, the wing portion 112 is preferably formed on any one or more surfaces selected from the group consisting of the front and rear, the left and right sides of the sheet layer 110. The wing 112 may be formed on the front surface of the sheet layer 110, may be formed on the rear surface thereof, may be formed on the left side or the right side thereof, or may be formed on all of these surfaces. .

1 shows that the wing 112 is formed on the front and right sides, respectively, while FIGS. 2A and 3 show that the wings 112 are formed on the front, back, left and right sides. When the wing 112 is formed on one surface of the sheet layer 110, the portion corresponding to the surface may have a strong bonding force, but the joint portion of the remaining portion may have a weak bonding force. It will have the same disadvantages as the conventional seam. Therefore, the wing 112 is most preferably formed on all surfaces of the sheet layer (110).

In the present invention, the wing portion 112 preferably provides a space in which the sheet layer of another waterproof sheet immediately adjacent thereto is placed and overlaps. This means that the wing 112 is not a different purpose, but a component necessary to form a coupling relationship with another waterproof sheet 100 adjacent thereto. Detailed information on this will be revealed objectively when constructing using the present invention.

3 is the most preferred embodiment of the waterproof sheet 100 according to the present invention, which further improves the sheet layer 110.

In the present invention, it is preferable that the wing portion 112 forms a cut portion 114 cut out at four corner portions of the sheet layer 110. The cut portion 114 is preferably a form in which the blade 112 is cut obliquely at the corner portion of the sheet layer 110. When the cut portion 114 is cut at an angle, when the watertight layer is later formed on the upper surface of the bridge or the bottom surface of the building, the cut portion 114 is engaged with the cut portions 114 of the other sheet layer 110 to each other. This is because it can be an auxiliary means to be contacted and to be able to proceed quickly.

In the present invention, the sheet layer 110 may further form an adhesive layer (not shown) on the bottom thereof. In this case, it is preferable to uniformly form the adhesive layer in the manufacturing process. When the adhesive layer is formed, the workers have the advantage that can be carried out immediately after peeling off the release paper layer (not shown) existing on the construction site. On the other hand, it is not necessary to form a separate adhesive layer on the bottom surface of the sheet layer 110, in this case, workers at the construction site will be installed by spraying a separate adhesive.

Waterproof sheet 100 according to the present invention can be manufactured in the following manner.

The present invention may produce them individually, or may produce them automatically using a roller. In the case of an automatic mechanical manufacturing method, various methods can be applied, but for convenience of description, it will be briefly described.

One). Unwinding of the sheet layer 110 and the coating layer 120

First, the sheet layer bobbin shaft 30 constituting the bottom surface of the waterproof sheet is rotated to be released, and after the sheet layer bobbin shaft 30, the feed roller 62 is attached to the film sheet 111 released. ) Can be moved.

Further, the bobbin shaft 40 of the coating layer serving as the waterproofing material of the waterproof sheet is rotated and released, and the coating layer sheet released by mounting the withdrawal roller 42 after the bobbin shaft 40 of the coating layer ( 121) can be moved.

In this case, the width of the coating layer sheet 121 should be narrower than the width of the film-like sheet 111. This is because when the coating layer sheet 121 overlaps and adheres to the film-like sheet 111, the empty space can form the wing portion 112 by the difference in width between them.

2). Cutting step of the coating layer 120

When the sheet raw material is released by the rotation of the sheet layer bobbin shaft 30 and the coating layer bobbin shaft 40, and they are gradually advanced by the feed roller 62, the film type corresponds to the bottom surface. The sheet 111 and the coating layer sheet 121 to perform the waterproof function are bonded to each other, and is manufactured as a kind of waterproof sheet.

In the present invention, before the film-like sheet 111 and the coating layer sheet 121 are adhered to each other, the coating layer sheet 121 is cut by the cutter 50 to a predetermined length. The cut length L ₁ of the coating layer sheet 121 may be determined in a range of 10 meters to 20 meters, and is preferably based on about 15 meters.

 In Figure 5 shows a specific embodiment of the cutter 50, rotating the motor 52 mounted on the side, the knife 56 coupled to the motor shaft 54 of the motor 52 is left and right direction The coating layer sheet 121 is cut while moving to.

The present invention may not include a separate stop step when the moving speed of the cutter 50 is equal to the feeding speed of the coating layer sheet 121 during the transfer of the coating layer sheet 121, In order to ensure the stability of the cutting operation, it is better to have a separate stop step. In the case of including a separate stop step, it may be carried out in a state in which the rotation of the sheet layer bobbin shaft 30 and the coating layer bobbin shaft 40 and the drawing roller 42 and the feed roller 62 is stopped. .

3). Single transfer step of sheet layer 110

After cutting the coating layer sheet 121, the sheet layer bobbin shaft 30 and the remaining feed roller are rotated to transfer the film sheet 111 alone. In this case, since the coating layer bobbin shaft 40 is in a stationary state, the coating layer sheet 121 is not adhered to the film-like sheet 111 and is in an empty state.

4). Simultaneous transfer and bonding of sheet layer 110 and coating layer 120

Again, the coating layer bobbin shaft 40 is rotated, and the coating layer sheet 121 is superimposed on the film sheet 111 so as to be transported. When the coating layer sheet 121 is overlapped on the film-like sheet 111, they are pressed and adhered to each other. The adhesion method may proceed in a conventional manner, and the method is not particularly limited. For example, both sheet layers may be thermocompression-bonded or adhered by an adhesive.

Through this step, the lower film-like sheet 111 is in the form of a sheet that is continuously connected, while the coating layer sheet 121 adhered thereon is cut into a predetermined length (for example, 15 meters). In addition, the coating layer sheet 121 of the same form is repeatedly bonded to each other at a slight interval (for example, 20 centimeters).

5). Subsequent Steps in Waterproof Sheets

This is if the coating layer sheet 121 is adhered on the film-like sheet 111, and then continues to the next step. Subsequent steps perform either one of two steps as follows.

5-1). For rolling phase

This is done by rolling the sheet composed of the film-like sheet 111 and the coating layer sheet 121 to the bobbin 60 for product storage again. The sheet wound on the product storage bobbin 60 may later be cut again to complete the final product.

5-2). In the case of product completion

After passing through the rolling step and then unwinding, or after the conveying and bonding step, the sheet spread on the plate is cut by a cutting knife (not shown), in which case the length of the sheet layer 110 (L ₂ ) Is the same as or longer than the length (L ₁ ) of the coating layer (120). After that or at the same time, the cut portion 114 is cut at the corner portion of the sheet layer 110.

By going through these steps, the finally completed waterproof sheet 100 can be obtained automatically.

Waterproof sheet 100 according to the present invention is preferably used in the following manner.

Rather than using this independently, the waterproof sheet 100 according to the present invention is used with a conventional waterproof sheet 200, but it is preferable to use them while arranging them alternately one by one.

Figure 6 schematically shows a method for construction on the top plate of the bridge or the floor of the building using the waterproof sheet 100 of the present invention. According to the present invention, for convenience of description, the wing portions 112 are formed on all surfaces of the sheet layer 110, and all the edge portions of the sheet layer 110 have the cut portions 114 inclined. Based on the embodiment will be proceeded. For convenience of explanation, it is indicated that no reference number is used for the top of the bridge or the floor of the building.

First, in the state prepared by cleaning the top surface of the bridge or the floor of the building, the waterproof sheet 100 according to the present invention is placed thereon. According to the present invention, the waterproof sheet 100a, the waterproof sheet 100b, the waterproof sheet 100c, and the waterproof sheet 100d are arranged in order of sequentially arranging or arranging the same type of waterproof sheet 100 for convenience of description. Separated by. This is illustrated well in Figure 6a. In this case, it is good to select an appropriate position in consideration of the area of the top plate of the bridge or the floor surface of the building. This is because other waterproof sheets are sequentially arranged next to the waterproof sheet 100a placed first.

Then, the second same waterproof sheet 100b is disposed so as to engage and contact the cut portion 114 of the waterproof sheet 100a once placed. This is illustrated well in Figure 6b. In this step, any one of the four corner portions of the first waterproof sheet 100a may be selected. However, it is preferable to arrange it on either side of the first waterproof sheet 100a.

In the exemplary embodiment of the present invention, the waterproof sheet 100a was first placed, and was arranged below.

Next, the third waterproof sheet 100c is disposed around the second waterproof sheet 100b so as to be engaged with the cut portion 114 that is also present at four corners thereof. This is illustrated well in Figure 6c. In this step, the waterproof sheets 100a, 100b, and 100c according to the present invention are arranged adjacent to each other, but they do not form a completely rectangular closed space portion, and thus form an incomplete form drilled in one place.

Next, the fourth waterproof sheet 100d is disposed between the waterproof sheets that are adjacent to each other but spaced apart from each other among the waterproof sheets. In this case, although the first waterproof sheet 100a and the third waterproof sheet 100c are adjacent to each other but are spaced apart from each other, the third waterproof sheet 100c and the other third waterproof sheet 100c are also adjacent to each other. It is spaced apart. At this time, by arranging the fourth waterproof sheet 100d, four waterproof sheets are formed to form one empty space portion 250, wherein the empty space portion 250 is the wing portion 112 around it. It is preferable to configure the square stripe by.

Then, the normal waterproof sheet 200 is disposed on the empty space portion 250, it is compressed to finish the work. This is illustrated well in Figure 6e.

As such, when using the waterproof sheet 100 according to the present invention, workers are required to attach to the floor of the mounting bridge or the floor of the building at the construction site, and no further work is required, so that construction can be performed simply and simply. .

Although the waterproof sheet and its manufacturing method according to the present invention have been described in detail above, this is only for describing the most preferred embodiment of the present invention, and the present invention is not limited thereto, and the scope is defined by the appended claims. Is determined and defined.

In addition, anyone of ordinary skill in the art will be able to make various modifications and imitations by the description of the specification of the present invention, but it will be apparent that this is also outside the scope of the present invention.

100: present invention (waterproof sheet), 110: sheet layer,
111: film-like sheet, 112: wing portion,
114: cutting part, 120: coating layer,
121: coating layer sheet, L ₁ : length of coating layer,
L ₂ : length of sheet layer, W: width of coating layer, l: length of wing part

Claims (10)

In the waterproof sheet consisting of a sheet layer (110) attached to the bottom surface to be constructed, and a coating layer (120) formed on the sheet layer (110) and preventing external moisture from penetrating downwards. ,
The sheet layer 110 extends to the outside thereof, is made of the same material, and further includes a wing portion 112 having a thickness thinner than the thickness of the entire waterproof sheet.
The wing portion 112 is formed when the width W of the coating layer 120 is 100 centimeters, extending from 1 centimeter to 30 centimeters outward;
In addition, the wing portion 112 is formed on any one or more surfaces selected from the group consisting of the front and rear, left and right sides of the sheet layer (110);
In addition, the wing portion 112 is characterized in that the cut portion 114 is cut off from the corner portion of the wing portion 112, characterized in that the top sheet of the bridge or waterproof sheet of the bottom surface of the building.
delete delete delete The method of claim 1,
The wing section 112 provides a space in which the sheet layer of the conventional waterproof sheet 200 immediately adjacent thereto is placed and overlaps therewith, and is also bonded to the sheet layer of the conventional waterproof sheet 200. The waterproof sheet of the top plate of the bridge or the bottom surface of the building.
In manufacturing a waterproof sheet comprising a sheet layer (110) attached to the bottom surface to be constructed, and a coating layer (120) formed on the sheet layer (110) and preventing external moisture from penetrating downward. ,
One). The sheet layer bobbin shaft 30 is rotated to release the film-like sheet 111 wound thereon, and the bobbin shaft 40 of the coating layer is rotated to release the coating layer sheet 121 wound thereon. And, unwinding the sheet layer 110 and the coating layer 120 to move them;
2). Before the film-like sheet 111 and the coating layer sheet 121 are bonded to each other, the coating layer sheet 121 is cut by the cutter 50 to a predetermined length. Cutting step;
3). After cutting the coating layer sheet 121, the sheet layer bobbin shaft 30 and the remaining feed rollers are rotated, so that the sheet layer 110 for conveying the film sheet 111 alone can be A transfer step;
4). Again, the coating layer bobbin shaft 40 is rotated, and the coating layer sheet 121 is superimposed on the film sheet 111 to be transported, and then the coating film on the film sheet 111. Simultaneously transferring and adhering the sheet layer 110 and the coating layer 120 to compress the layer sheet 121 and adhere to each other;
5). When the coating layer sheet 121 is adhered on the film-like sheet 111, the subsequent step is followed by a subsequent step,
The subsequent step is to cut the film-like sheet 111 spread on the plate by a cutting knife to a predetermined length (L ₂ ), and after or at the same time, the cut portion 114 in the corner portion of the sheet layer 110 Method of producing a waterproof sheet, characterized in that terminated as product completion step of forming.
The method according to claim 6,
After the unwinding step of the sheet layer 110 and the coating layer 120,
A stop step of stopping rotation of the sheet layer bobbin shaft 30, the coating layer bobbin shaft 40, the drawing roller 42, and the transfer roller 62 for a while; Method of manufacturing a waterproof sheet, characterized in that it further has.
The method according to claim 6,
The width of the coating layer sheet 121 is a manufacturing method of the waterproof sheet, characterized in that formed narrower than the width of the film-like sheet (111).
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