KR20100108857A - A rubber dam and of using in absorptive fiber - Google Patents

Abstract

PURPOSE: A rubber dam using absorptive fiber felt and a manufacturing method thereof are provided to remarkably increase tensile strength of the rubber dam by integrally forming absorptive fiber felts inside a rubber plate. CONSTITUTION: A rubber dam using absorptive fiber felt is composed as follows. A rubber plate is composed of flexible top and bottom rubber plates(110a,110b). A bottom structure is installed in the end of the flexible top and bottom rubber plates. The flexible top and bottom rubber plates are fixed to the bottom structure using anchor bolts. An air inlet and an air outlet for generating pneumatic pressure are installed in the flexible top and bottom rubber plates.

Description

A rubber dam and its manufacturing method using superabsorbent reinforcing fabrics {A Rubber Dam and of using in absorptive fiber}

The present invention uses a superabsorbent reinforcing fabric easily absorbs moisture in the air or the water of the rubber dam in contact with the water, and then expands its own mass and volume so that the rubber dam is sealed. The present invention relates to a rubber dam and a method of manufacturing the same, and particularly, a thermoplastic polymer resin, polyamide 66, and a polyacrylate salt (Sodium Polyacrylate, Cross-linked) are melted in an upper and a lower rubber plate body constituting the rubber dam. By melting and spinning the composite pellet produced by extrusion and cooling to form a super absorbent reinforcing fabric layer integrally laminated with the intermediate rubber layer, the water and water in the air through the super absorbent reinforcing fabric layer formed integrally laminated with the intermediate rubber layer After absorbing the moisture of the rubber dam in contact easily, the polyacrylate salt of the superabsorbent reinforcing cloth layer itself turns into a gel state By enlarging the mass and volume while enclosing the rubber dam, the water entering between the fine gaps of the upper rubber plate body of the rubber dam in contact with the water or the air containing the moisture flows into the lower rubber plate body through the reinforcing cloth. Accordingly, it is possible to prevent the occurrence of cracking of the rubber plate body and thus the collapse of the rubber dam in advance, and through the reinforcement cloth integrally laminated with rubber and polyacrylate salt in the upper and lower rubber plate body, The present invention relates to a rubber dam using a super absorbent reinforcement cloth which can further increase the tensile strength of the rubber dam, and a method of manufacturing the same.

In general, in order to adjust the water level of the reservoir, agricultural or industrial intake, water intake, etc., it is common to install a steel fence on the foundation of concrete, and then adjust the water level by raising or lowering it by a hydraulic cylinder.

On the other hand, in recent years, flexible rubber dams have been treated with a woven fabric reinforcement to prevent damage to the flexible rubber plates of the rubber dams by soluble rubber dams that reinforce the strength of the flexible rubber plates. This is disclosed in Korean Patent Publication No. 2001-0105561.

That is, in the technical configuration, as shown in Figs. 1 and 2, the continuous hollow body 3 is installed on one side of the rubber plate body 2, the end of the rubber plate body 1 is embedded in the bed concrete In order to install the lower bed structure 10 and to fix and fix the flexible rubber plate body 2 to the lower bed structure 10 using the anchor bolt 4, the locking jaw 7 at the end of the lower bed structure 10 is fixed. ) And a fixed bracket (5) formed with a reinforcement bar (6), and the air inlet and outlet (9) is installed downward to generate air pressure through the compressor on the rubber plate body (2). To complete.

In this case, as shown in FIG. 2, the rubber plate body 10 is laminated with a thin lower knitted fabric 23 on the surface of the lower rubber sheet 21, and is thinned through the unvulcanized supplemental rubber sheet 24 thereon. The upper knitted fabric 22 and the thick upper rubber sheet 20 are configured to be sequentially stacked.

In the conventional flexible rubber dam having the above configuration, the rubber plate body 2 constituting the rubber dam 1 merely performs an air-tight function of maintaining the internal air pressure, thereby providing durability of the rubber dam 1. Not only is this deterioration, but also cracks are easily generated in the rubber plate body 2 due to relatively sharp pieces of wood or rocks, as well as water of high pressure easily penetrates into the cracks as described above. There are many problems, such as the cracking of the wealth gradually occurs to cause the collapse of the rubber dam.

The present invention has been made in order to solve the various problems as described above, the object of the thermoplastic polymer resin polyamide 66 and polyacrylate salt (Sodium Polyacrylate, Cross) in the upper and lower rubber plate body constituting the rubber dam -linked) by melting and spinning a composite pellet produced by extruding and cooling with a melt twin screw extruder to form a superabsorbent reinforcement layer integrally laminated with the intermediate rubber layer, thereby forming a superabsorbent reinforcement layer integrally laminated with the intermediate rubber layer. After absorbing the moisture in the air or the rubber dam in contact with the water easily, the polyacrylate salt of the superabsorbent reinforcing cloth layer turns into a gel state and expands its mass and volume to seal the rubber dam. Water so as to flow between the fine gaps of the upper rubber plate body of the rubber dam in contact with the water. Air containing moisture flows into the lower rubber plate through the reinforcement cloth, thereby preventing cracking of the rubber plate and the collapse of the rubber dam, thereby preventing the occurrence of cracks in the upper and lower rubber plates. The present invention provides a rubber dam using a super absorbent reinforcement cloth that can further increase the tensile strength of a rubber dam through a reinforcement cloth laminated integrally with rubber and a polyacrylate salt, and a method of manufacturing the same.

The present invention as a technical configuration for achieving the above object, the rubber plate body end of the rubber dam is installed in the riverbed structure is embedded in the bed concrete, the flexible rubber plate body in close contact with the anchor structure using the anchor bolt, In the flexible rubber dam to be fixed, the air inlet, the outlet is installed in the lower side to generate air pressure through the compressor to the rubber plate body,

40 to 80% by weight of polyamide 66 resin, which is a thermoplastic polymer resin, and 60 to 20% by weight of polyacrylate salt (Sodium Polyacrylate, Cross-linked) are contained in the upper and lower rubber plates of the rubber dam. A super absorbent reinforcing fabric layer formed by melting and spinning a composite pellet as a melt spinning machine is formed by stacking the superabsorbent reinforcing fabric layer formed integrally with the intermediate rubber layer, thereby forming a super absorbent reinforcing fabric layer formed integrally with the intermediate rubber layer. By providing a rubber dam using absorbent reinforcement cloth.

In addition, the present invention, after drying 40 to 80% by weight of polyamide 66 resin and 60 to 20% by weight of polyacrylate salt in a vacuum at 50 to 60 ℃ for 24 hours as a thermoplastic resin, the dried polyamide 66 resin And polyacrylate salt integrally melt-extruded and hot-air dried at 180 to 220 ° C. in a twin screw extruder to produce a composite pellet, and the polyamide 66 resin and the polyacrylate salt are integrally melted. A superabsorbent reinforcing fabric is fabricated by directly stretching the extruded composite pellets at 180 to 220 ° C. through a single screw extruder-type direct-stretching melt spinning machine to produce superabsorbent yarns. By preparing a rubber dam used method.

According to the self-sealing rubber dam according to the present invention and a method for manufacturing the same, a thermoplastic polymer resin polyamide 66 and a polyacrylate salt (Sodium Polyacrylate, Cross-linked) are melted in the upper and lower rubber plates of the rubber dam. After the production of the composite pellets by extrusion, the composite pellets are melted and spun to form a super absorbent reinforcing fabric layer integrally laminated with the intermediate rubber layer, and moisture in the air through the super absorbent reinforcing fabric layer formed integrally with the intermediate rubber layer, After absorbing the moisture of the rubber dam in contact with water easily, the polyacrylate salt of the superabsorbent reinforcing cloth layer itself turns into a gel state, so that the rubber dam is sealed by expanding the mass and volume, thereby contacting with water. Reinforcement cloth is filled with water that enters between the microslits of the upper rubber plate of the rubber dam It is introduced into the lower rubber plate body, thereby preventing cracking of the rubber plate body and consequent collapse of the rubber dam, and integrally laminated with rubber and polyacrylate salts inside the upper and lower rubber plate bodies. Through the reinforcement cloth, there is an excellent effect that can further increase the tensile strength of the rubber dam.

While the invention has been shown and described with respect to particular embodiments, it will be appreciated that the invention can be varied and modified without departing from the spirit or scope of the invention as set forth in the claims below. It will be appreciated that those skilled in the art can easily know.

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

3 is a cross-sectional structural view of a rubber dam using the superabsorbent reinforcing cloth according to the present invention, FIG. 4 is a cross-sectional structural view of a rubber plate body constituting the rubber dam using the superabsorbent reinforcing cloth according to the present invention, and FIG. As an enlarged cross-sectional view of the main portion of the superabsorbent reinforced layer laminated between the lower rubber plates, the flexible rubber plate body 110 end of the rubber dam 100 is provided with a lower bed structure 120 embedded in lower concrete. Using the anchor bolt 130 to the structure 120 to close and fix the flexible rubber plate body 110, and to generate air pressure through the compressor to the flexible rubber plate body 110 through the air inlet, outlet ( 140 is installed downward.

In addition, the flexible rubber plate body 110 constituting the flexible rubber dam 100 is a polyamide 66 resin (111) 40 to 80 which is a thermoplastic polymer resin in the upper and lower rubber plate bodies (110a) and (110b). The superabsorbent reinforcing fabric layer 150 produced by melting and spinning composite pellets containing 60% by weight and 60% to 20% by weight of polyacrylate salt 112 as a melt spinning machine is laminated integrally with the intermediate rubber layer 160. Formed, the superabsorbent reinforcing cloth layer 150 formed integrally with the intermediate rubber layer 160 is formed.

Referring to the operation and effect of the present invention made of such a configuration as follows.

3 to 5, in the state where the end of the flexible rubber plate body 110 constituting the rubber dam 100 is fixed by the bed structure 120 embedded in bed concrete, the bed structure ( 120 is in close contact with the flexible rubber plate body 110 by using an anchor bolt 130 to be fixed in close contact with the falling concrete, at this time, the lower side of the flexible rubber plate body 110 to generate air pressure through the compressor In order to adjust the water level by the air inlet, the outlet 140 is installed, by expanding the rubber dam (100).

On the other hand, the flexible rubber plate body 110 constituting the flexible rubber dam 100, as shown in Figures 4 and 5, the upper and lower rubber plate body (110a) (110b) of the flexible rubber plate body 110 The superabsorbent reinforcing fabric layer 150 produced by melting and spinning a composite pellet extruded and cooled by polyamide 66 resin 111 and polyacrylate salt 112, which is a thermoplastic polymer resin, is melted and spun into By integrally stacking the intermediate rubber layer 160 with each other, the durability of the rubber dam 100 can be improved while suppressing the cracks on the surface of the rubber dam 100 and the minute discharge of air generated by aging and cracking. To improve.

At this time, the superabsorbent reinforcing cloth layer 150 laminated inside the middle rubber layer 160 of the upper and lower rubber plate bodies 110a and 110b is 40 to 80% by weight of polyamide 66 resin 111 and poly as a thermoplastic resin. 60 to 20% by weight of the acrylate salt 112 is dried at 50 to 60 ° C. under vacuum for 24 hours.

The polyacrylate salt is a substance that easily absorbs moisture and then changes itself into a gel state. When the polyacrylate salt contains moisture supplied to the polyacrylate salt, the mass and volume of the polyacrylate salt are expanded. By expanding the inside to improve the sealing force, if the polyacrylate salt contains more than 60% by weight, the expansion of mass and volume may increase, while the polyamide 66 resin mixed together 40 weight It becomes less than%, the superabsorbent reinforcing cloth layer 150 laminated on both sides of the intermediate rubber layer 160 is not able to maintain a sufficient tensile strength, accordingly there is a disadvantage that the tensile force of the rubber dam 100 is lowered.

In addition, when the polyacrylate salt is made up to 20% by weight or less, the polyamide 66 resin mixed together is 80% by weight or more, so that the superabsorbent reinforcement cloth layer 150 can maintain a sufficient tensile strength, While the strength of the rubber dam 100 can be improved, the amount of the polyacrylate salt is too small, so that the absorption of moisture is reduced, and thus the mass and volume of the superabsorbent reinforcing cloth layer 150 inside the rubber dam 100. Is not sufficiently inflated, and is due to not being able to properly improve the sealing force of the rubber dam 100.

In the present invention, 40 to 80% by weight of the polyamide 66 resin and 60 to 20% by weight of the polyacrylate salt constituting the superabsorbent reinforcing fabric layer 150, respectively, dried under vacuum at 50 to 60 ℃ for 24 hours, The dried polyamide 66 resin and polyacrylate salt are integrally compressed and hot-air dried at 180 to 220 ° C. in a twin screw extruder to produce a composite pellet.

Subsequently, 250 to 400% of the composite pellets in which the polyamide 66 resin and the polyacrylate salt were melt-extruded and dried integrally through a straight screw melt spinning machine of a single screw extruder type was used at 180 to 220 ° C. After drawing the superabsorbent yarn by drawing directly to the fabric, and weaving it into a reinforcement cloth to complete the superabsorbent reinforcement cloth, the superabsorbent reinforcement cloth layer 150 to the moisture of the rubber dam 100 in contact with the water and the water of the internal air After easily absorbed in, the polyacrylate salt of the superabsorbent reinforcing cloth layer 150 is changed to a gel state itself, so that the mass and volume expand, so that the sealing force of the rubber dam 100 can be improved The durability of the rubber dam can be improved.

1 is a cross-sectional structural view of a conventional flexible rubber dam.

2 is a cross-sectional structural view of a rubber plate body forming the flexible rubber dam of FIG.

Figure 3 is a cross-sectional structural view of a rubber dam using a super absorbent reinforcing cloth according to the present invention.

Figure 4 is a cross-sectional structural view of the rubber plate body constituting the rubber dam using a super absorbent reinforcing cloth of the present invention.

Figure 5 is an enlarged cross-sectional view of the main portion of the superabsorbent reinforcing cloth layer laminated between the upper and lower rubber plate body of the present invention.

<Description of the symbols for the main parts of the drawings>

100 ... rubber dam 110 ... Flexible rubber plate

110a ... upper rubber plate 110b ... lower rubber plate

111 Polyamide 66 Resin 112 Polyacrylate Salt

120 Subbed Structure 130 Anchor Bolts

140 air inlet and outlet 150 superabsorbent reinforcing fabric layer

160 ... middle rubber layer

Claims (2)

At the end of the flexible rubber plate body of the rubber dam, a riverbed structure embedded in the bed concrete is installed, and the flexible rubber plate body is adhered to and fixed to the bottom structure using an anchor bolt. In the flexible rubber dam in which the air inlet and outlet are installed downward to generate air pressure, 40 to 80% by weight of polyamide 66 resin, which is a thermoplastic polymer resin, and 60 to 20% by weight of polyacrylate salt (Sodium Polyacrylate, Cross-linked) are contained in the upper and lower rubber plates of the rubber dam. A super absorbent reinforcing fabric layer formed by melting and spinning a composite pellet as a melt spinning machine is formed integrally with the intermediate rubber layer to form a super absorbent reinforcing fabric layer formed integrally with the intermediate rubber layer. Rubber dam using absorbent reinforcement cloth. 40 to 80% by weight of the polyamide 66 resin and 60 to 20% by weight of the polyacrylate salt as the thermoplastic resin were dried at 50 to 60 ° C for 24 hours under vacuum, and then the dried polyamide 66 resin and the polyacrylate salt. In the twin screw extruder (Twin screw extruder) to 180 ~ 220 ℃ integrally melt melt extrusion and hot air to produce a composite pellet, the polyamide 66 resin and polyacrylate salt melt pellet extrusion integrally A method of manufacturing a rubber dam using a super absorbent reinforcement fabric, characterized in that the superabsorbent yarn is manufactured by drawing directly at 180 to 220 ° C. through a single screw extruder type direct-stretch melt spinning machine, and then weaving it into a reinforcement fabric. .

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