KR20210150943A - A Construction Method of Waterproof Sheet having Different Upper and Lower Coating Layers - Google Patents

Abstract

The present invention relates to a device for manufacturing a waterproof sheet having different upper and lower coating layers and a construction method thereof. The device for manufacturing a waterproof sheet having different upper and lower coating layers comprises: a frame; a coating pellet melting and supplying unit provided so that two types of coating pellets supplied to one side of an upper portion of the frame are melted into an upper coating liquid by a first pellet melting part and into a lower coating liquid by a second pellet melting part, and the melted upper and lower coating liquids are supplied to a waterproofing sheet manufacturing unit; the waterproofing sheet manufacturing unit which is provided in the frame so that the upper coating liquid supplied from the first pellet melting part is covered on the top of the nonwoven fabric supplied from a nonwoven fabric supply unit by an upper coating liquid supplying and spreading part to form an upper coating waterproofing layer, the film supplied from a film supply part is covered on the top surface of the upper coating waterproofing layer, the bottom surface of the nonwoven fabric covered with the film is covered with the lower coating liquid supplied from the second pellet melting part by a lower coating liquid coating part, and accordingly a waterproofing sheet having a lower coating waterproofing layer is manufactured and supplied to a waterproofing sheet construction unit; and the waterproofing sheet construction unit provided so that while the waterproofing sheet supplied from the waterproofing sheet manufacturing unit is spread, the bottom surface is covered on a construction floor and pressed under a predetermined pressure. The construction method comprises a coating pellet melting step, a waterproofing sheet manufacturing step, and a waterproofing sheet construction step. According to the present invention, leakage occurring between waterproof sheets can be effectively prevented.

Description

A Construction Method of Waterproof Sheet having Different Upper and Lower Coating Layers

The present invention relates to a waterproofing sheet construction method having different kinds of upper and lower coating layers, and different kinds of upper and lower coating layers are formed on the top and bottom of the nonwoven fabric supplied from the nonwoven fabric supply unit, so that it is immediately applied to the floor surface of the construction site. so that it could be built.

In general, on the roof of concrete building structures, the upper part of the underground parking lot, the underground outer wall, the subway, the underpass, the corrosion or neutralization of the rebar and steel frame due to water leakage, the deterioration of the concrete material due to the intrusion of toxic substances, etc. As a measure to prevent the bonding strength from being lowered, waterproof construction is performed.

Waterproof construction is performed using sheet waterproofing material, waterproof coating material, or mastic waterproofing material. There was a risk of burns.

When a defect occurs, the leaked water moves along the space between the sheet and the adherend, and leaks occur in other places along with the damaged part.

In the case of mastic waterproofing materials, the construction work is not good and the thickness is not uniform because the waterproofing material must be directly spread by the construction worker. There were problems such as the thickness of the upper and lower waterproofing layers was not uniform, or the attached sheet flowed down when the protective sheet was installed.

In the case of a waterproof coating material, a solid waterproof coating material is melted using a heating device, then applied several times using a roller on the surface to be waterproofed, and then cured to make waterproof construction.

However, since the entire process of applying the melted waterproof coating material to the roller and pressing it on the surface to be waterproofed is done manually, the amount of waterproofing work is reduced, the working time is increased, and the construction cost is increased.

Urethane waterproof coating film, one of the waterproof coating materials, is a method of forming a urethane coating film of a certain thickness by applying a primer after cleaning the floor to be constructed, allowing it to penetrate sufficiently to the floor and drying it, then applying a liquid urethane resin to the floor surface, drying and curing it. It has excellent workability and constructability, no seams, and can be applied to complex structures, so it has excellent waterproof performance, but due to the high price, it is used limitedly for exposure and waterproofing in special areas, and durability is reduced due to aging such as yellowing Not only that, but there was a problem that construction was difficult in the winter season.

Registered Patent Publication No. 10-1578086 (2015.12.10)

The present invention is so that the surface of the construction floor is covered with a waterproof sheet having different types of upper and lower coating layers to increase durability and prevent cracks from occurring, while increasing workability and shortening working time, In addition, it is designed to reduce the cost and time required for waterproofing sheet construction.

The present invention includes a frame 100; The two kinds of coating film pellets supplied to the upper side of the frame 100 by the first pellet melting part 210 by the upper film waterproofing liquid (UFWL) and the second pellet melting part 210'. A coating film pellet melt supply unit 200 which is melted into a lower film waterproofing liquid (LFWL), and the molten upper and lower film liquids (UFWL, LFWL) are supplied to the waterproof sheet paper manufacturing unit 300; As provided in the frame 100, the upper coating fluid (UFL) supplied from the first pellet melting part 210 is a nonwoven fabric 321 supplied from the nonwoven fabric supply unit 320 by the upper coating fluid supply spreading unit 310 . ) so that an upper coating waterproofing layer (UCWL) is provided, and the film 331 supplied from the film supply unit 330 on the upper surface of the upper coating waterproofing layer (UCWL) is covered, and the film The lower surface of the nonwoven fabric 321 covered with 331 is covered with the lower coating liquid (LFL) supplied from the second pellet melting part 210' by the lower coating liquid coating part 340, so that the lower coating film waterproofing layer (Lower) Coating Waterproof Layer (LCWL) having a waterproof sheet 350 is manufactured and provided to be supplied to the waterproof sheet construction unit 400, the waterproof sheet manufacturing unit 300; and the waterproof sheet construction unit 400 provided so that the waterproof sheet 350 supplied from the waterproof sheet manufacturing unit 300 is spread while the bottom is covered with the construction floor and pressurized with a predetermined pressure.

In addition, the frame 100 is provided such that the moving wheel 110 is opposite to each other at the lower portion of each corner having a rectangular shape, and the width direction distance DT of the moving wheel 110 is the width ( DT'), so that when the waterproof sheet 350 is installed in two or more rows on the floor under construction, it is characterized in that it is provided so as to overlap at a predetermined interval.

In addition, the first pellet melting portion 210, a first support frame 211; a first coating film pellet melting tank 212 having an open top, which is coupled so that the bottom of the lower edge is placed on the top of the first support frame 211; a first heating panel 213 provided at the bottom of the first coating film pellet melting tank 212; a first coating liquid discharge part 214 having an elbow shape in which the inside and the outside of the first coating film pellet melt tank 212 are coupled to pass therethrough; and a first film liquid intermittent unit 215 provided in the first film liquid discharge unit 214; and a first coating liquid storage amount detection sensor 215-2 electrically connected to the first solenoid valve 215-1 to be energized.

In addition, the second pellet melting part 210', a second support frame 211'; a second coating film pellet melting tank 212' having an open top, which is coupled to the upper portion of the second support frame 211' so that the bottom of the lower edge is placed on it; a second heating panel 213' provided at the bottom of the second coating film pellet melting tank 212'; a second coating liquid discharge part 214' having an elbow shape in which the inside and the outside of the second coating film pellet melting tank 212' are coupled through; a second film liquid transfer unit 216' provided in the second film liquid discharge unit 214'; and a second film liquid intermittent unit 215 ′ provided at an end of the second film liquid transfer unit 216 ′, wherein the second film liquid intermittent unit 215 ′ has a second solenoid valve 215 ′. -One); and a second film liquid storage amount detection sensor (215'-2) electrically connected to the second solenoid valve (215'-1) to be energized.

In addition, the second coating liquid transfer unit 216' includes a second coating liquid inlet 216'-1 having an open upper portion only having a longitudinal shape; And one side is provided to be connected to the lower center of the second coating fluid inlet 216'-1, and the other side is provided to extend to the upper part of the lower coating fluid storage tank 341 in which the lower coating fluid (LFL) is stored. A second coating film transfer line (216'-2); characterized in that it is included.

In addition, the upper coating liquid supply spreader 310 includes: an upper coating liquid bumper tank 311; an upper coating liquid outlet 312 provided in the upper coating liquid bumper tank 311; and a plurality of coating liquid spreading rollers 313 provided under the upper coating liquid outlet 312 .

The nonwoven fabric supply unit 320 is provided such that the nonwoven fabric supply roller 322 in which the nonwoven fabric 321 is wound in the nonwoven fabric roller seating groove 371 provided on the upper side of the extended frame panel 370 is rotatable, and the film supply unit Reference numeral 330 is provided so that the film supply roller 332 in which the film 331 is wound in the film roller seating groove 372 provided on the other upper side of the extended frame panel 370 is rotatable.

The lower coating liquid coating unit 340 is provided to store the lower coating liquid (LFL) supplied from the second pellet melting unit 210 ′ in the lower coating liquid storage tank 341 , and the lower coating liquid storage tank It is characterized in that the surface locking roller 342 is provided on the upper portion of the 341.

In addition, the waterproof sheet manufacturing unit 300 is provided with a conveying unit 390 between the frame 100 and the waterproof sheet manufacturing unit 300, the conveying unit 390 is a convex guide provided in parallel on both sides of the bottom of the floor rail 391; a concave guide rail 392 provided on the upper surface of the frame 100 to correspond to the convex guide rail 391; a slider 394 provided on the floor positioned between the convex guide rails 392 and provided with a female threaded portion 393 to pass therethrough; a conveying screw 396 passing through the female screw portion 393 and having a handle 395; and a conveying screw support 397 fixed to the upper surface of the frame 100 through which the conveying screw 396 passes to idle.

In addition, the waterproof sheet construction unit 400, the support frame 410; Post frames 420 provided to face upwards at both corners of the support frame 410; a waterproof sheet pull-out roller 430 provided on the post frame 420; a second row link 440 having one end rotatably coupled to the post frame 420 positioned below the waterproof sheet pull-out roller 430; a waterproof sheet pressure roller 450 rotatably provided at the other end of the second row link 440; and a pressing force adjusting unit 460 in any one of the two-row links.

In addition, the pressing force adjusting unit 460 includes a link shaft 461 provided in the second row link 440; a pressing piece 463 having a long hole 462 on one side thereof, the other end of which is inserted through the link shaft 461 and coupled thereto; a compression coil spring 464 provided between the lower portion of the long hole 462 and the support frame 410; a male screw part 465 having the lower end fixed to the support frame 410 through the long hole 462 and the compression coil spring 464; and an adjustment knob 466 screwed to the male screw portion 465 positioned above the pressing piece 463 passing through the long hole 462 .

On the other hand, in the construction method according to another embodiment of the present invention, the two types of coating film pellets supplied to the upper side of the frame 100 are first melted by the pellets 210 and 210' by the upper film liquid (Upper Film). Waterproofing Liquid; UFWL), a coating film pellet melting step (S100) that is melted into a lower film liquid (Lower Film Waterproofing Liquid; LFWL) by the second pellet melting section 210 ′; The upper coating liquid (UFL) is covered on the upper portion of the nonwoven fabric 321 supplied from the nonwoven fabric supply unit 320, and the film 331 supplied from the film supply unit 330 is covered on the upper surface of the upper coating film liquid (UFL), A waterproofing sheet manufacturing step (S200) for covering the lower surface of the nonwoven fabric 321 with the lower coating liquid (LFL) supplied from the second pellet melting part 210'; and a waterproof sheet construction step (S300) in which the waterproof sheet 350 supplied from the waterproof sheet manufacturing unit 300 is spread while the bottom is covered on the construction floor and pressurized with a predetermined pressure.

In addition, in the waterproof sheet manufacturing step (S200), the upper coating fluid (UFL) supplied from the first pellet melting part 210 is a nonwoven fabric supplied from the nonwoven fabric supply part 320 by the upper coating fluid supply spreading part 310 An upper coating waterproofing layer forming step (S210) covered on the upper portion of the 321 and provided with an upper coating waterproofing layer (UCWL); a film covering step (S220) in which the film 331 supplied from the film supply unit 330 is covered on the upper surface of the upper coating film waterproofing layer (UCWL); And the lower surface of the nonwoven fabric 321 covered with the film 331 is covered with the lower coating liquid (LFL) supplied from the second pellet melting part 210' by the lower coating liquid coating part 340 to cover the lower coating film. It is characterized in that the lower coating film waterproof layer forming step (S230) in which a waterproof layer (Lower Coating Waterproof Layer; LCWL) is formed is included.

According to the present invention, it is possible to obtain the effect of shortening the working time by applying the waterproof sheet pressure roller to the surface of the construction floor in a state in which the upper and lower coating layers of different types are provided on the surface of the nonwoven fabric.

In addition, by allowing the film to be covered on the upper coating layer of the nonwoven fabric, it is possible to obtain the effect that water leakage can be further prevented.

In addition, the upper coating liquid spreading part, the lower coating liquid coating part, and the supporting frame provided on the upper part of the frame having a moving wheel are provided to be movable in the width direction, so that in the process of constructing the waterproof sheet, it is properly applied to the surface of the construction floor. As well as being able to respond, there is an effect that can efficiently form a seam where the waterproof sheet overlaps. In particular, by ensuring that the width of the moving wheel is narrower than the width of the frame, in the process of constructing the waterproof sheet in a zigzag form, the joint between the waterproof sheet and the waterproof sheet where the edge of one side has a predetermined width There is an advantage of effectively preventing the leakage phenomenon.

1 is a perspective view showing an apparatus for manufacturing a waterproof sheet having different types of upper and lower coating layers according to the present invention.
Figure 2 is a perspective view showing the separation of the waterproof sheet manufacturing apparatus having different types of upper and lower coating layers according to the present invention.
3 is a longitudinal cross-sectional view showing an apparatus for manufacturing a waterproof sheet having different types of upper and lower coating layers according to the present invention.
4 is a flowchart illustrating a waterproofing sheet construction method having different types of upper and lower coating layers according to the present invention.
5 is a plan view illustrating a state in which the waterproof sheet manufacturing unit and the waterproof sheet construction unit are moved in the width direction in the waterproof sheet manufacturing apparatus having different types of upper and lower coating layers according to the present invention.
6 is a front view showing a state in which the waterproof sheet manufacturing unit and the waterproof sheet construction unit are moved in the width direction in the waterproof sheet manufacturing apparatus having different types of upper and lower coating layers according to the present invention.
7 is a plan view illustrating a state in which a waterproof sheet is constructed by using the waterproof sheet manufacturing apparatus having different types of upper and lower coating layers according to the present invention.
8 is a longitudinal cross-sectional view showing another embodiment in which the thickness of the upper and lower waterproof coating layers is adjusted in the apparatus for manufacturing a waterproof sheet having different types of upper and lower coating layers according to the present invention.

An embodiment of the present invention will be described with reference to the accompanying drawings.

1 is a perspective view showing an apparatus for manufacturing a waterproof sheet having different types of upper and lower coating layers according to the present invention, and FIG. 2 is a waterproof sheet manufacturing apparatus having different types of upper and lower coating layers according to the present invention. 3 is a longitudinal sectional view showing an apparatus for manufacturing a waterproof sheet having different types of upper and lower coating layers according to the present invention.

The waterproof sheet manufacturing apparatus having different types of upper and lower coating layers according to the present invention is such that a waterproof sheet manufactured to have different types of upper and lower coating layers in the field is covered on the surface of the construction floor, and Figs. 3, it includes a frame 100, a coating film pellet melt supply unit 200, a waterproof sheet manufacturing unit 300 and a waterproof sheet construction unit 400.

Here, the frame 100 is provided so that the operator can easily drag and move it while the overall load is stably supported, and the moving wheel 110 is provided under each corner having a rectangular shape to face each other. . At this time, the distance DT in the width direction of the moving wheel 110 is provided to be narrower than the width DT' of the waterproof sheet 350, as shown by the dashed line in FIGS. 6 and 7, the construction floor When the waterproof sheet 350 is constructed on the (FL) in two or more rows, it is provided to overlap at a predetermined interval so as to further prevent leakage of water between the waterproof sheet 350 on one side and the waterproof sheet 350 on the other side. It is available.

The coating film pellet melt supply unit 200 is a different type of upper coating film waterproof layer (Upper Coating Waterproof Layer, UCWL) and a lower coating film waterproof layer (Lower Coating Waterproof Layer, LCWL) on the upper and lower portions of the nonwoven fabric 321. The first melted pellet 210 in which the coating film pellets are melted and the upper film waterproofing liquid (UFWL) is stored, and the second pellet melted part 201' in which the lower film waterproofing liquid (LFWL) is stored. ) is provided.

The upper coating liquid is an asphalt compound satisfying the standard number KS F 4917, and may include asphalt, process oil, synthetic rubber, synthetic resin and inorganic additives, and the lower coating liquid is an asphalt compound satisfying the standard number KS F 4935 As a result, asphalt, process oil, synthetic rubber, polymer modifiers, tackifiers, and inorganic additives may be included.

For example, the upper coating solution may include 50 to 78 wt% of asphalt, 2 to 20 wt% of process oil, 8 to 15 wt% of synthetic rubber, 2 to 10 wt% of synthetic resin, and 10 to 30 wt% of inorganic additives. .

The asphalt is added to provide waterproof and rust-preventing performance, and may be straight asphalt, and the type thereof, such as AP-3 and AP-5, is not particularly limited. When the content of asphalt is insufficient, the waterproofing performance is insignificant, and when it is excessively added, there is a problem in that the low-temperature characteristics of the upper coating film waterproofing layer are deteriorated.

The process oil is to increase waterproofing performance and secure the fluidity of the upper coating liquid, and all petroleum-based, coal-based, and vegetable-based oils can be used. and, as the vegetable oil, linseed oil, soybean oil, linseed oil, rice bran oil, etc. may be used.

When the content of the process oil is less than 2% by weight, sufficient fluidity cannot be secured, and when the content of the process oil exceeds 20% by weight, there is a problem in that the waterproof performance of the upper coating liquid is lowered.

The synthetic rubber is added to provide low-temperature elasticity and high-temperature durability. As the synthetic rubber, styrene-butadiene-styrene rubber (SBS), styrene-isoprene-styrene rubber (SIS), styrene-butadiene rubber (SBR), etc. will be used. When the content of synthetic rubber is less than 8% by weight, low-temperature elasticity and high-temperature durability are insignificant, and when it exceeds 15% by weight, it is difficult to uniformly control the thickness of the upper coating film waterproofing layer due to excessive viscosity increase.

The synthetic resin is added to obtain the effect of improving physical properties such as heat resistance and adhesion improvement, and C-9-based petroleum resin, C-5-based petroleum resin, coumarone resin, etc. may be used, and if the content is insufficient, the physical properties Since it is difficult to obtain an improvement effect and, conversely, when excessively added, there is a problem in that the flexibility of the upper coating film waterproofing layer is lowered.

The inorganic additive is added to improve the strength of the waterproofing layer of the upper coating film, and calcium carbonate, talc, mica, clay, bentonite, slaked lime, cement, etc. may be used as the inorganic additive, and when included in less than 10% by weight, the strength The improvement effect is insignificant, and when it exceeds 30 wt%, the flexibility of the upper coating film waterproofing layer is lowered, so it is preferable to blend within the above-mentioned weight range.

On the other hand, as an example of the lower coating solution, 40 to 68% by weight of asphalt, 19 to 35% by weight of process oil, 8 to 15% by weight of synthetic rubber, 0.5 to 5% by weight of polymer modifier, 2 to 10% by weight of tackifier, An asphalt compound containing 2 to 10% by weight of an inorganic additive and 0.5 to 10% by weight of a compatibilizer may be used.

The asphalt, process oil, synthetic rubber, and inorganic additives have the same functions as those included in the above-described upper coating solution, and thus overlapping descriptions will be omitted.

The polymer modifier is added to strengthen the elasticity, viscosity, durability, etc. of the waterproof layer of the lower coating film, for example, ethyl-vinyl-acetate (EVA), atatic polypropylene (APP), amorphous polyolefin (APAO) , a thermoplastic elastomer such as polyethylene (PE), polypropylene (PP), etc. may be used, but is not limited thereto.

When the content of the polymer modifier is less than 0.5% by weight, the effect of enhancing the performance of the lower coating film waterproofing layer is insignificant, and when it contains more than 5% by weight, there is a problem in that waterproofing performance or workability is reduced. preferably included.

The tackifier is added to increase the adhesiveness of the waterproof layer of the lower coating film, and for example, polybutene, rosin, and other takifiers may be used, but is not limited thereto.

If the content of the tackifier is insufficient, the effect of improving the adhesion of the waterproofing layer of the lower coating film is insignificant, and if it is added excessively, a problem of deterioration of physical properties including workability and waterproofing performance may occur. it is preferable

The compatibilizer is added to increase the compatibility of asphalt, process oil, and polymer modifier, and PT-423, PT-743, etc. of Hudson Asphalt of the United States may be used, but is not limited thereto, and if the content is insufficient, As asphalt, process oil and polymer modifier are not uniformly mixed, there is a problem that the performance of the lower coating film waterproofing layer is not uniformly expressed. do.

On the other hand, the first pellet fusion part 210 is combined so that the bottom of the lower edge is placed on the upper part of the first support frame 211 , so that the upper part of the first coating film pellet molten tank 212 has an open shape. A first coating film is provided, and a first heating panel 213 is provided at the bottom of the first coating film pellet melting tank 212, and the inside and the outside of the first coating film pellet melting tank 212 are coupled to pass through. The liquid discharge part 214 is provided to have an elbow shape.

A first film liquid control unit 215 is provided in the first film liquid discharge unit 214 , and the first film liquid control unit 215 can electrically energize the first solenoid valve 215 - 1 . It is provided so that the first coating film liquid storage amount detection sensor 215-2 connected to it is included.

The second pellet melting section 210 ′ is combined so that the bottom of the lower edge is placed on the upper portion of the second support frame 211 ′, and the upper portion of the second coating film pellet melting tank 212 ′ is open. A second heating panel 213' is provided at the bottom of the second coating film pellet melting tank 212', and the inside and the outside of the second coating film pellet melting tank 212' are coupled through The second coating liquid discharge part 214' is provided to have an elbow shape.

A second film liquid transfer unit 216' is provided in the second film liquid discharge unit 214', and a second film liquid control unit 215' is provided at an end of the second film liquid transfer unit 216'. provided to be included.

The second film liquid control unit 215' is provided to include a second film liquid storage amount detection sensor 215'-2 electrically connected to the second solenoid valve 215'-1 to be energized.

Here, the second coating liquid transfer part 216' is provided with a second coating liquid inlet 216'-1 having an open upper part having a longitudinal shape, and the second coating film liquid A second coating film transfer line ( 216'-2) is included.

Although not shown in the drawings, the first and second coating liquid discharge units 214 and 214 ′, the first and second coating liquid intermittent units 215 and 215 ′ and the second coating liquid transfer unit 216 ′ are heated. A separate heating means may be optionally provided so that the temperature of each molten coating film is not lowered.

The waterproof sheet manufacturing unit 300 is provided in the frame 100, and the upper coating fluid (UFL) supplied from the first pellet melting part 210 is supplied by the upper coating fluid supply spreading part 310 to the nonwoven fabric supply part ( 320) is covered on the upper portion of the nonwoven fabric 321 supplied from the upper coating film waterproof layer (Upper Coating Waterproof Layer; UCWL) is provided to be formed.

To this end, the waterproof sheet manufacturing unit 300 includes an upper coating liquid supply spreading unit 310 , a nonwoven fabric supplying unit 320 , a film supplying unit 330 , and a lower coating liquid coating unit 340 , and the waterproof sheet 350 is ready to be manufactured.

The upper coating liquid supply spreader 310 includes an upper coating liquid bumper tank 311 and an upper coating liquid outlet 312 provided in the upper coating liquid bumper tank 311 and a lower portion of the upper coating liquid outlet 312 . It is provided with a plurality of coating liquid spreading rollers 313 provided in the .

Accordingly, the upper coating fluid (UFWL) is supplied to the coating fluid spreading roller 313 through the upper coating fluid outlet 312, and at the same time, the nonwoven fabric 321 supplied from the nonwoven fabric supply unit 320 is supplied to the plurality of coating fluid spreading rollers ( 313), the upper coating liquid (UFWL) may be impregnated and coated on the upper portion of the nonwoven fabric 321 .

At this time, the time at which the upper coating film liquid (UFWL) is coated on the upper portion of the nonwoven fabric 321 , that is, from the point in time when the nonwoven fabric 321 comes into contact with the first film liquid spreading roller 313 and the last contact with the coating film liquid spreading roller 313 . The contact time, which is the time until this ends, may be 3 to 9 seconds. Such a time range is an optimal time for the upper coating liquid (UFWL) to be impregnated and coated on the upper portion of the nonwoven fabric 321 , and to be coated with a thickness having sufficient waterproof performance and durability.

Specifically, if the contact time is less than 3 seconds, the upper coating liquid (UFWL) is not impregnated on the upper portion of the nonwoven fabric 321, so that sufficient adhesive force is not formed between the nonwoven fabric 321 and the upper coating film waterproof layer (UCWL). can On the other hand, when the contact time exceeds 9 seconds, the upper coating liquid (UFWL) is impregnated to the lower portion of the nonwoven fabric 321 , and then, when the lower coating liquid (LFL) is coated, the lower coating liquid (LFL) is applied to the lower portion of the nonwoven fabric 321 . not only does not form sufficient adhesive strength between the lower coating fluid (LFL) and the nonwoven fabric 321, but also the upper coating fluid (UFWL) impregnated to the lower part of the nonwoven fabric 321 is stored in the lower coating fluid storage tank 341 ) and may cause a problem of changing the physical properties of the lower coating liquid (LFL) stored in the lower coating liquid storage tank 341.

The nonwoven fabric supply unit 320 includes a nonwoven fabric supply roller 322 in which the nonwoven fabric 321 is wound in a nonwoven roller seating groove 371 provided on one upper side of the extended frame panel 370 to be rotatably provided.

At this time, if the supply speed of the nonwoven fabric by the nonwoven fabric supply unit 320 is too slow, not only the overall working time is delayed, but also an excess of the lower coating film liquid is applied to the lower portion of the nonwoven fabric 321 through the lower coating liquid coating part 340 to be described later. There is a problem with this being attached. On the other hand, when the supply speed of the nonwoven fabric is too fast, the thickness of the lower coating film waterproofing layer (LCWL) is excessively thin and the waterproof function is deteriorated, and the lower coating film waterproofing layer (LCWL) cannot be impregnated into the lower part of the nonwoven fabric 321, so the lower coating film A problem in which the adhesive strength between the waterproof layer LCWL and the nonwoven fabric 321 decreases may occur.

Therefore, in order to prevent such a problem, it is preferable that the supply speed of the nonwoven fabric supplied through the nonwoven fabric supply unit 320 is 4 to 10 m/min.

In the film supply unit 330 , a film supply roller 332 on which a film 331 is wound in a film roller seating groove 372 provided on the other side of the upper side of the extended frame panel 370 is rotatably provided.

The lower coating liquid coating part 340 is provided to store the lower coating liquid (LFL) supplied from the second pellet melting part 210' in the lower coating liquid storage tank 341, and the lower coating liquid storage tank ( A surface locking roller 342 is provided on the upper portion of the 341 .

The upper surface of the upper coating film waterproofing layer (UCWL) is provided so that the film 331 supplied from the film supply unit 330 is covered, and the lower surface of the nonwoven fabric 321 covered with the film 331 is the lower coating liquid coating part ( 340) to cover the lower coating liquid (LFL) supplied from the second pellet melting part 210' by means of a waterproofing sheet 350 having a lower coating waterproof layer (LCWL) is manufactured and waterproofing sheet construction It is provided to be supplied to the unit 400 .

A transfer unit 390 is provided between the frame 100 and the waterproof sheet manufacturing unit 300 , and the transfer unit 390 is provided with convex guide rails 391 parallel to both sides of the bottom of the floor, and the convex guide rail A concave guide rail 392 is provided on the upper surface of the frame 100 to correspond to the 391 .

It is provided on the floor positioned between the convex guide rails 392, a slider 394 is provided so that the female screw part 393 passes through, passes through the female screw part 393, and a handle 395 is provided. A feed screw 396 is provided, the feed screw 396 passes through so as to be idle, and a feed screw support 397 fixed to the upper surface of the frame 100 is included.

As shown in FIGS. 6 and 7, it is moved so that the waterproof sheet 350 can be properly covered according to the shape on the construction floor of the site.

The waterproof sheet construction unit 400 is provided so that the waterproof sheet 350 supplied from the waterproof sheet manufacturing unit 300 is spread while the bottom is covered with the construction floor and pressed with a certain pressure.

To this end, the waterproof sheet construction unit 400 is provided with a post frame 420 facing upwards at both corners of the support frame 410 , and a waterproof sheet pull-out roller 430 on the upper portion of the post frame 420 . ) is provided to be rotatable.

A second row link 440 having one end rotatably coupled to the post frame 420 positioned below the waterproof sheet pull-out roller 430 is provided, and the other end of the second row link 440 is waterproofed. The seat pressing roller 450 is rotatably provided, and a pressing force adjusting unit 460 is provided on one of the links 440 among the second row links 440 .

The pressing force adjusting unit 460 is normally maintained in a raised state of the waterproof sheet pressing roller 450 so that it can be easily transported, and the waterproof sheet pressing roller 450 is installed on the upper surface of the construction floor FL during operation. A link shaft 461 is provided on the second row of links 440 to be maintained in a butt state, and the other end is inserted and coupled to the link shaft 461 through a long hole 462 on one side. ) is provided with a pressing piece 463 having.

A compression coil spring 464 is provided between the lower portion of the long hole 462 and the support frame 410 , and the lower end is fixed to the support frame 410 through the long hole 462 and the compression coil spring 464 . It is provided with a male screw part 465 and is provided with an adjustment knob 466 screwed to the male screw part 465 located above the pressing piece 463 passing through the long hole 462 .

4 is a flowchart illustrating a waterproof sheet construction method having different types of upper and lower coating layers according to the present invention, and FIG. 5 is a waterproof sheet manufacturing apparatus having different types of upper and lower coating layers according to the present invention. It is a plan view showing a state in which the waterproof sheet manufacturing unit and the waterproof sheet construction unit are moved in the width direction, and FIG. 6 is a waterproof sheet manufacturing unit and waterproofing in the waterproof sheet manufacturing apparatus having different types of upper and lower coating layers according to the present invention It is a front view showing a state in which the sheet construction part is moved in the width direction, and FIG. 7 is a plan view showing a state in which the waterproof sheet is constructed using the waterproof sheet manufacturing apparatus having different types of upper and lower coating layers according to the present invention. .

In the waterproof sheet construction method having different types of upper and lower coating layers according to the present invention, first, the two kinds of coating film pellets supplied to the upper side of the frame 100 in the coating film pellet melting step (S100) are the first pellet melting part By (210) (210'), the upper coating film liquid (Upper Film Waterproofing Liquid; UFWL) is melted into the lower film waterproofing liquid (LFWL) by the second pellet melting part 210'.

Next, in the waterproof sheet manufacturing step (S200), the upper coating fluid (UFL) is covered on the top of the nonwoven fabric 321 supplied from the nonwoven fabric supply unit 320, and the film 331 supplied from the film supply unit 330 is the upper coating film. It is covered on the upper surface of the liquid (UFL), and the lower surface of the nonwoven fabric 321 is covered with the lower coating liquid (LFL) supplied from the second pellet melt 210 ′ to obtain a waterproof sheet.

At this time, in the waterproof sheet manufacturing step (S200), the upper coating fluid (UFL) supplied from the first pellet melting part 210 is supplied from the nonwoven fabric supply part 320 by the upper coating fluid supply spreading part 310 ( 321) to provide an upper coating waterproof layer (UCWL) (upper coating waterproof layer forming step (S210)), and supply from the film supply unit 330 on the upper surface of the upper coating waterproof layer (UCWL) The film 331 is covered (film covering step (S220)), and then the bottom of the nonwoven fabric 321 covered with the film 331 is the second pellet melted part ( 210') It is preferable to cover the lower coating film liquid (LFL) supplied from it so that the lower coating film waterproof layer forming step (S230) in which the lower coating film waterproof layer (LCWL) is formed is included.

And in the waterproof sheet construction step (S300), as the waterproof sheet 350 supplied from the waterproof sheet manufacturing unit 300 is unfolded, the bottom surface is covered with the construction floor, and the waterproof sheet is constructed by pressing it with a certain pressure.

In the process of being constructed so that the waterproof sheet is covered on the construction floor (FL) through repetition of this process, when it is further drawn in or drawn out from the moving line of the frame 100 to either side, using the handle 395, the transfer screw ( As 396 is rotated, the support frame 410 is moved in a direction perpendicular to the longitudinal direction of the frame 100 by the slider 394 screwed to the transfer screw 396 as shown in FIG. 5 . As a result, the waterproof sheet 350 can be sufficiently installed even at the corners.

In the process of repeating this process, that is, in the process in which the waterproof sheet 350 is covered in a zigzag form on the construction floor FL, the interval DT in the width direction of the moving wheel 110 provided on the bottom of the frame 100 is By being formed to be narrower than the width DT' of the waterproof sheet 350, as shown in FIGS. 6 and 7, the waterproof sheet 350 that is installed on one side of the edge of the waterproof sheet 350 constructed first. The lower part of the other side of the edge can be covered. That is, it is possible to prevent the occurrence of interference between the waterproof sheet 350 and the moving wheel 110 during the construction process of the waterproof sheet 350 .

On the other hand, in the present invention, a waterproof sheet 350 having an upper coating film waterproof layer (UCWL) and a lower coating film waterproof layer (LCWL) on the upper and lower portions of the nonwoven fabric 321, respectively, is manufactured and constructed on the construction floor (FL). In addition, the upper coating film waterproofing layer UCWL on the upper portion of the nonwoven fabric 321 may be directly installed on the construction floor FL in a state in which the film 331 is covered. At this time, the lower coating liquid (LFL) melted in the second pellet melting part 210' is covered in a pre-expanded state on the surface of the construction floor (FL), and then the lower part of the nonwoven fabric 321 is applied to the upper part by a constant pressure. It is preferable to pressurize it so that it is constructed.

Hereinafter, specific actions and effects of the present invention will be described through an embodiment of the present invention. However, this is presented as a preferred example of the present invention, and the scope of the present invention is not limited according to the embodiments.

[Experimental Example 1]

A waterproof sheet is manufactured using the waterproof sheet manufacturing apparatus having different types of upper and lower coating layers according to an embodiment of the present invention, but the contact time to check the impregnation depth of the upper coating fluid (UFL) according to the contact time A plurality of test pieces having different contact times were obtained by manufacturing by changing the time to 1 to 12 seconds, and proceeding only to the stage before lamination with the film 331 .

At this time, a nonwoven fabric having a thickness of 0.5 mm and a density of 180 g/m ² was used as the nonwoven fabric, and after curing each obtained test piece for 1 day, the depth of the waterproofing layer of the upper coating film impregnated in the nonwoven fabric was measured, and the results are shown in Table 1. .

Contact time (seconds) Impregnation depth (mm) One 0.00 2 0.00 3 0.08 4 0.12 5 0.14 6 0.17 7 0.20 8 0.22 9 0.24 10 0.31 11 0.37 12 0.44

Referring to the results of Table 1, it was confirmed that, when the contact time was less than 3 seconds, the upper coating fluid (UFL) was coated only on the upper surface of the nonwoven fabric 321 and not impregnated into the nonwoven fabric 321 . On the other hand, when the contact time exceeds 9 seconds, the impregnation depth exceeds half of the thickness of the nonwoven fabric 321, and thereafter, when the lower coating film waterproof layer is formed, it becomes difficult to form sufficient adhesive strength between the nonwoven fabric 321 and the lower coating film waterproof layer. In addition, the distance between the coating film liquid spreading roller 313 and the nonwoven fabric 321 is kept constant, so that the thickness of the upper coating film waterproofing layer formed on the upper surface of the nonwoven fabric 321 is also kept constant, the contact time If it exceeds 9 seconds, since the impregnation depth is formed excessively deep, the thickness of the entire upper coating film waterproofing layer including the impregnated portion is excessively thick, and there is a problem in that the flexibility and workability of the waterproof sheet are deteriorated.

Therefore, from the results of this experiment, it was confirmed that the contact time is preferably 3 to 9 seconds.

[Experimental Example 2]

A waterproof sheet is manufactured using a waterproof sheet manufacturing apparatus having different types of upper and lower coating layers according to an embodiment of the present invention, but the steps of forming an upper coating film waterproof layer (UCWL) and covering the film 331 are omitted, and the lower Only the coating film waterproofing layer forming step (S230) was performed to form a lower coating film waterproofing layer (LCWL) on the lower part of the nonwoven fabric. At this time, the lower coating film waterproofing layer (LCWL) was formed while changing the supply rate of the nonwoven fabric (thickness 0.5mm, density 180 g/m ^{2 ) supplied through the nonwoven fabric supply unit 320 .}

After that, the nonwoven fabric test piece on which the lower coating film waterproofing layer (LCWL) was formed was cured for one day, and the depth of the lower coating waterproofing layer (LCWL) impregnated in the nonwoven fabric was measured, and the results are described in Table 2, and KS F 4935 for each test piece A water permeation resistance performance test was performed based on , and tensile strength and adhesive strength were measured according to KS F 4917, and the results are described together in Table 2.

Nonwoven feed rate (m/min) Impregnation depth (mm) Total thickness (mm) pitch resistance performance Tensile strength (N/mm) Adhesive strength (N/mm) Comparative Example 1 3.3 0.33 1.83 no pitcher 18.4 17.1 Comparative Example 2 3.7 0.30 1.80 no pitcher 18.4 17.2 Example 1 4.1 0.24 1.74 no pitcher 18.3 17.0 Example 2 5.8 0.22 1.72 no pitcher 18.0 16.6 Example 3 7.1 0.17 1.54 no pitcher 17.6 16.2 Example 4 8.7 0.12 1.37 no pitcher 17.0 15.9 Example 5 9.8 0.07 1.22 no pitcher 16.8 15.5 Comparative Example 3 10.3 0.00 0.80 pitched 12.5 11.3

First, referring to Table 2, as the supply rate of the nonwoven fabric increases, the thickness of the lower coating waterproofing layer (LCWL) becomes thinner, and the tensile strength and adhesive strength decrease. In particular, in the case of Comparative Example 3, the supply rate of the nonwoven fabric was too fast, so that the lower coating fluid (LFL) was not impregnated into the nonwoven fabric, and the total thickness of the lower coating film waterproofing layer (LCWL) was excessively thin, so the waterproof performance was also poor. On the other hand, looking at Comparative Example 1, Comparative Example 2, Example 1 and Example 2, when the feed rate of the nonwoven fabric is less than 4 m/min, the waterproof performance, tensile strength and adhesive strength regardless of the impregnation depth or total thickness appears similarly, and when the feed speed is less than 4 m/min, it was confirmed that only the working speed would be slowed down without additional performance improvement.

In addition, since the impregnation depth is increased without additional performance improvement, an excessive amount of the lower coating liquid (LFL) exceeding the required amount is used, and thus economic feasibility is judged to be caused.

Therefore, from the results of this experiment, it was confirmed that the supply speed of the nonwoven fabric, which enables the expression of excellent waterproof performance, tensile strength, and adhesive strength, and at the same time improves economic efficiency and workability, is 4 to 10 m/min.

On the other hand, in the present invention, the upper and lower coating film waterproofing layers (UCWL, LCWL) respectively on the upper and lower parts of the nonwoven fabric 321 have a constant thickness, but in addition to this form, as shown in FIG. It is desirable to make it adjustable.

To this end, the upper and lower coating film waterproofing layer thickness adjusting units 380 and 380 ′ may be provided to the rear of the coating film liquid spreading roller 313 and the surface submerging roller 342 , respectively.

The upper coating film thickness control unit 380 is provided so that the nonwoven fabric 321 having the upper coating film waterproof layer (UCWL) passes between the guide rollers 381 rotatably provided on both upper and lower sides, and the nonwoven fabric 321 The end of the scraper 384 having an arm 383 having a long hole 382 formed thereon is in contact with the upper coating film waterproofing layer (UCWL) provided as an upper portion of the handle screw shaft 385 passing through the long hole 382 A coil spring 388 is inserted between the middle support 387 and the arm 383 while being screwed to the support 387 having the female screw 386, and passes through the long hole 382 of the arm 383 to the outside. It is preferable that the arm pressing piece 389 is provided on the exposed handle screw shaft 385 .

As the arm 383 is pressed by the arm pressing piece 389 while rotating the handle screw shaft 385, the end of the scraper 384 is moved in the direction of the arrow enlarged at the bottom of FIG. When the thickness of the upper coating waterproofing layer UCWL is increased and it is moved in the reverse direction, the thickness can be formed thin. At this time, the lower coating waterproofing layer thickness adjusting unit 380 ′ also has the same structure and is operated through the same process, so that the thickness of the lower coating waterproofing layer LCWL can be adjusted.

In the present invention, only a few examples among various embodiments performed by the present inventors will be described, but the technical spirit of the present invention is not limited or limited thereto, and it is of course that it may be modified and variously implemented by those skilled in the art.

100: Frame 200: Coating film pellet melt supply
210, 210': first pellet melting part 300: waterproof sheet paper manufacturing part
310: upper coating liquid supply spreading unit 320: non-woven fabric supply unit
321: non-woven fabric 330: film supply unit
331: film 340: lower coating liquid coating part
350: waterproof sheet 400: waterproof sheet construction part
S100: coating film pellet melting step S200: waterproof sheet manufacturing step
S210: upper coating waterproof layer forming step S220: film covering step
S230: lower coating waterproof layer forming step S300: waterproof sheet construction step

Claims (7)

The two kinds of coating film pellets supplied to the upper side of the frame 100 are upper film waterproofing liquid (UFWL) by the first pellet melting part 210 and 210', and the second pellet melting part 210'. ) of the coating film pellet melting step (S100) that is melted into the lower coating film liquid (Lower Film Waterproofing Liquid; LFWL);
The upper coating liquid (UFL) is covered on the upper portion of the nonwoven fabric 321 supplied from the nonwoven fabric supply unit 320, and the film 331 supplied from the film supply unit 330 is covered on the upper surface of the upper coating film liquid (UFL), A waterproofing sheet manufacturing step (S200) for covering the lower surface of the nonwoven fabric 321 with the lower coating liquid (LFL) supplied from the second pellet melting part 210'; and
While the waterproof sheet 350 supplied from the waterproof sheet manufacturing unit 300 is unfolded, the waterproof sheet construction step (S300) in which the underside is covered with the construction floor and pressurized at a certain pressure; The construction method of having a waterproof sheet. According to claim 1,
In the waterproof sheet construction step (S300), the moving wheel 110 is provided at the lower portion of each corner of the frame 100 having a rectangular shape so that the moving wheel 110 faces the width direction spacing DT of the moving wheel 110 By being narrower than the width DT' of the waterproof sheet 350, when the waterproof sheet 350 is constructed in two or more rows on the floor, the upper and lower coating layers are different from each other, characterized in that they overlap at a predetermined interval A construction method of a waterproof sheet having According to claim 1,
The upper coating liquid (UFL) comprises 50 to 78% by weight of asphalt, 2 to 20% by weight of process oil, 8 to 15% by weight of synthetic rubber, 2 to 10% by weight of synthetic resin, and 10 to 30% by weight of inorganic additives, A method of constructing a waterproof sheet having different upper and lower coating layers. According to claim 1,
The lower coating liquid (LFL) is 40 to 68% by weight of asphalt, 19 to 35% by weight of process oil, 8 to 15% by weight of synthetic rubber, 0.5 to 5% by weight of polymer modifier, 2 to 10% by weight of tackifier, inorganic A method of constructing a waterproof sheet having different upper and lower coating layers, comprising 2 to 10 wt% of an additive and 0.5 to 10 wt% of a compatibilizer. According to claim 1,
The waterproof sheet manufacturing step (S200),
The upper coating liquid (UFL) supplied from the first pellet melting unit 210 is covered on the upper portion of the nonwoven fabric 321 supplied from the nonwoven supply unit 320 by the upper coating liquid supply spreading unit 310, so that the upper coating film waterproof layer ( Upper Coating Waterproof Layer (UCWL) provided with an upper coating waterproof layer forming step (S210);
a film covering step (S220) in which the film 331 supplied from the film supply unit 330 is covered on the upper surface of the upper coating film waterproofing layer (UCWL); and
The lower surface of the nonwoven fabric 321 covered with the film 331 is covered with the lower coating liquid (LFL) supplied from the second pellet melting part 210' by the lower coating liquid coating part 340 to cover the lower coating film waterproofing layer. (Lower Coating Waterproof Layer; LCWL) is formed, the lower coating waterproof layer forming step (S230); construction method of a waterproof sheet having different upper and lower coating layers from each other, including. According to claim 1,
In the waterproof sheet manufacturing step (S200), in order for the upper coating fluid (UFL) to be covered on the upper portion of the nonwoven fabric 321, the nonwoven fabric 321 is in contact with the coating fluid spreading roller 313 It is 3 to 9 seconds. A method of constructing a waterproof sheet having different upper and lower coating layers. According to claim 1,
A method of constructing a waterproof sheet having different upper and lower coating layers, characterized in that the supply speed of the nonwoven fabric supplied through the nonwoven fabric supply unit 320 is 4 to 10 m/min.

Images