KR100458312B1 - A glass fiber pipe and making method for the passage in the ground - Google Patents

Abstract

The present invention relates to an underground passage that allows a person or a vehicle to pass by forming a passage under an obstacle, and in particular, by installing a glass fiber tube to form an inner wall of the underground passage, the construction of the underground passage is simplified, durability and durability It relates to a glass fiber tube for underground passages to improve the impact properties so that the life is extended semi-permanently.

The glass fiber tube for underground passages according to the present invention is an underground passage penetrating to the lower side of the obstacle, the polymer resin and glass fibers are heated and cured to prevent the moisture and chemicals in the ground from entering the underground passages The inner layer, the inner layer of the polymer resin and the glass fiber is heated and cured and disposed inside the outer layer to form the inner wall of the underground passage, and the intermediate layer interposed between the outer layer and the inner layer to impart impact resistance to the underground passage. Characterized in that it is made to include.

Description

Glass fiber pipe for underground passage and its manufacturing method {A glass fiber pipe and making method for the passage in the ground}

The present invention relates to an underground passage that allows a person or a vehicle to pass by forming a passage under an obstacle, and in particular, by installing a glass fiber tube to form an inner wall of the underground passage, the construction of the underground passage is simplified, durability and durability It relates to a glass fiber tube for underground passages to improve the impact properties so that the life is extended semi-permanently.

1 is a configuration diagram showing an underground passage according to the prior art, which is a side cross-sectional view of a portion where an underground passage is formed.

In the underground passage according to the prior art, in the construction of a road through which a person or a vehicle passes, as shown in FIG. 1, when there is an obstacle, a passage is formed in the basement, and a passage is formed below the obstacle, that is, the passage. Reinforced concrete structures are installed on the inner walls of the soil to prevent dirt or stones from flowing down.

Figure 2 is a side cross-sectional view showing a reinforced concrete structure of the underground passage according to the prior art.

The reinforced concrete structure 10 is applied to the reinforcing structure 14, which is a plurality of cement compound 12 is made of a common cement and sand, water, etc. are installed to cross the inner wall of the underground passage, and then, It is made by drying over a long time.

As a result, the reinforced concrete structure 10 may prevent the reinforced concrete structure 10 from being damaged by an impact generated by a natural disaster such as an impact or an earthquake generated from the outside by improving compressive strength and tensile strength. Make sure

The construction method of the underground passage by the prior art comprised as mentioned above is as follows.

First, the reinforcing structure 14 is installed on the inner wall of the underground passage, and a guide (not shown) is formed on the outside of the reinforcing structure 14 to generate a predetermined distance from the underground passage, and the inside of the guide Cement compound 12 is injected.

When the cement compound 12 is naturally dried for a long time, and the cement compound 12 is completely dried, the guide is removed to complete the reinforced concrete structure 10.

Subsequently, an exterior material 20 such as an anticorrosive material, a waterproof material, and a paint or tile for coloring is applied or attached to an outer wall of the reinforced concrete structure 10 to prevent the reinforced concrete structure 10 from being corroded or damaged. do.

However, the underground passage according to the prior art, the reinforcing structure 14 is installed on the inner wall of the passage as described above, the cement compound 12 is injected and dried so that the reinforcing structure 14 is interposed therein, and dried, By applying the exterior material 20, such as a corrosion resistant material, a waterproofing material, and a paint, to the outer wall of the cement compound 12, the underground passage is completed, so that the construction process of the underground passage is complicated, and it is difficult to shorten the construction period.

In addition, since corrosion is easily generated in groundwater and the like, and cracks are easily generated due to external impact, it is difficult to reduce the cost of maintenance.

The present invention has been made in order to solve the above problems of the prior art, by installing a glass fiber tube to pass through the lower side of the obstacle, the construction process is shortened, corrosion resistance and water resistance, impact resistance is improved is required for construction The purpose of the present invention is to provide a glass fiber tube for the underground passage and a method of manufacturing the same, which can reduce time and cost, and also reduce the cost of maintenance by extending the life of the underground passage semi-permanently.

1 is a cross-sectional view showing an underground passage according to the prior art,

2 is a cross-sectional view showing a reinforced concrete structure of an underground passage according to the prior art,

3 is a side sectional view showing an underground passage according to the present invention;

Figure 4 is a block diagram showing a glass fiber tube for underground passages according to the present invention,

5 is an operation view showing a method of manufacturing a glass fiber tube for underground passages according to the present invention;

6 is a perspective view showing another embodiment of the glass fiber tube for underground passages according to the present invention;

7 is a cross-sectional view taken along the line A-A shown in FIG.

8 is a perspective view showing a reinforcing material of the glass fiber tube for underground passages according to the present invention.

<Explanation of symbols on main parts of the drawings>

50: glass fiber tube 60: inner layer

62: inner layer finish 64: polymer resin

66: reinforcement 68: glass fiber roving

70: middle layer 72: sand

80: outer layer 82: outer layer finishing material

92: mold 94: motor

96: release film 98: curing furnace

The glass fiber tube for underground passages according to the present invention for solving the above problems is the outer layer formed by curing the polymer resin and glass fibers to prevent water and chemical components in the ground from flowing into the underground passage; An inner layer disposed inside the outer layer to form an inner wall of the underground passage and formed by curing the polymer resin and glass fibers; It is interposed between the outer layer and the inner layer is characterized in that it comprises an intermediate layer in which the glass fiber is embedded in the polymer resin and sand to impart impact resistance to the underground passage.

In addition, the method of manufacturing a glass fiber tube for underground passages according to the present invention is an inner layer forming step of winding the inner layer finish on the mold driven by the motor and the polymer resin and the glass fiber wound on the upper side of the inner layer finishing material, and the inner layer forming When the step is finished, the polymer resin and sand is coated around the inner layer to form a concrete structure, and the intermediate layer molding step in which glass fibers are embedded in the concrete structure, and when the intermediate layer molding step is finished, the outer layer finishing material is wound and the polymer resin and It is characterized in that the glass fiber is wound around the intermediate layer forming step, and when the outer layer forming step is completed, the heating step to be heated from the outside of the mold to cure the outer layer, intermediate layer, inner layer.

Hereinafter, an embodiment of a glass fiber tube for underground passage according to the present invention will be described in detail with reference to the accompanying drawings.

Figure 3 is a side cross-sectional view showing an underground passage according to the present invention, Figure 4 is a cross-sectional view showing a glass fiber tube for underground passage according to the present invention.

Glass fiber tube 50 according to the present invention is installed in the passage formed on the lower side of the obstacle as shown in Figure 3 to make an underground passage, the cross section to withstand repeated impacts, earth pressure by earthquakes or vehicles The shape is formed in a circular shape and is made of an elastic body.

In addition, the glass fiber tube 50 is composed of a high strength glass fiber and a polymer resin having a strong tensile force as the main raw material to form an outer layer 80 of the outer wall of the glass fiber tube, and the inner layer 80 and the outer layer 80 The inner layer 60 forming the inner wall of the glass fiber tube 50 and the inner layer 60 and the inner layer 60 between the outer layer 80 and the inner layer 60 using a high strength cross section of the inner layer 60 and the outer layer 80 It may have a crush strength of the shape, and comprises an intermediate layer 70 is interposed between the concrete composed of sand, reinforcement and resin to enhance the compressive force.

The glass fiber tube 50 configured as described above is heated from the outside of the glass fiber tube by the curing furnace 98, thereby completely hardening as the polymer resin reacts to form the glass fiber tube 50.

The outer layer 80 is a layer for protecting the intermediate layer 70 in which tensile force is concentrated. The outer layer 80 is made of glass fiber and a polymer resin, and does not cause damage to ultraviolet rays or temperatures in consideration of conditions exposed to the outside without being embedded. In order not to contain pigments and sunscreens, and to maintain the waterproof function, the cross-section of the outer layer 80 is composed of a polymer resin having properties that are not damaged by moisture and a waterproof function.

The inner layer 60 should basically have corrosion resistance, chemical resistance and water resistance, and the color of the appearance may be manufactured to meet the requirements of the customer.

The intermediate layer 70 is a concrete structure form, the polymer resin and the pores filled with voids with a silicon content of more than 60% of silicon and calcium carbonate are applied to form a concrete structure, and the glass fiber is incorporated therein to complete the intermediate layer.

In addition, the intermediate layer 70 is sandwiched between the inner layer 60 and the outer layer 80 to form a sandwich structure, the strength is maintained.

Looking at the manufacturing method of the glass fiber tube for underground passages according to the present invention configured as described above are as follows.

5 is an operation diagram showing a method of manufacturing a glass fiber tube for underground passages according to the present invention.

Glass fiber tube 50 for underground passage according to the present invention is formed in the same size as the underground passage as shown in Figure 5 wound the release film 96 around the mold 92 driven by the motor 94 After the glass fiber tube 50 is molded, the inner layer finishing material 62 such as polyester nonwoven fabric and glass fiber nonwoven fabric is simultaneously with the polymer resin 64 so as to be separated from the mold 92 and to enhance the appearance of the underground passage. Wind up

Then, the glass fiber roving 68 is wound together with the polymer resin 64 on the inner layer finishing material 62, and the glass fibers are sprinkled in a non-directional direction with a spray so as to withstand the load in the axial direction, or in the 0 degree direction. The glass fiber rovings 68 are repeatedly arranged in a winding manner so as to have a required thickness.

Then, because the waterproof layer of the glass fiber tube 50 is to be maintained so that the arrangement of the winding glass fiber roving 68 is uniform, and winding while applying a tension so that there is no pore, the tension so that the resin does not escape all the outside Should be kept appropriate.

In addition, the intermediate layer 70 by spraying the sand 72, the polymer resin 74 and the glass fiber reinforcing material 76 on the upper surface of the inner layer 60 at the same time, so that they are mixed with each other to become a filler, so as not to scatter While covering the repeated operation to the desired thickness or to work at once to match the size of the product is made of the intermediate layer 70.

In addition, the outer layer 80 is formed by winding the outer layer finishing material 82 and the release film 96 in the same manner as the inner layer 60, and after curing at high temperature by the curing furnace 98, the finished glass fiber When the tube 50 is removed from the mold 92 and finished, the manufacturing process of the glass fiber tube is completed.

6 is a perspective view showing another embodiment of the glass fiber tube for underground passages according to the present invention, Figure 7 is a cross-sectional view taken along line AA shown in Figure 6, Figure 8 is a reinforcement of the glass fiber tube for underground passages according to the present invention Is a perspective view shown.

Another embodiment of the glass fiber tube for underground passages according to the present invention is a case where a higher crush strength is required in the glass fiber tube than in one embodiment, the inner layer 160 and the outer layer 180 as in one embodiment ), The intermediate layer 170 is included, and further comprises a reinforcing layer 190 disposed on the outer wall of the outer layer 180 to improve the crush strength of the glass fiber tube.

Here, the reinforcing layer 190 is a reinforcing member 200 is disposed on the circumferential surface of the outer layer 180, the glass fiber is wound together with the reinforcing member 200 is heated by a curing furnace, the polymer resin is heated reaction As it is completely hardened, a glass fiber tube with improved crush strength is formed.

6 and 7, the reinforcing member 200 is formed in a rod-shaped cross-sectional shape of the trapezoid, the material is made of a synthetic resin, because the regular incision 202 is formed on the upper surface The reinforcement 200 may be bent in a curved manner to be in close contact with the outer wall of the glass fiber tube.

The glass fiber tube manufactured by the above-described configuration and method has the ground on the ground where the ground is constructed at a suitable height according to general civil construction standards such as gravel layer and sand layer in accordance with the characteristics of the ground of the location where the underground passage is to be formed. When the fiber pipe is seated and backfilled with sand or soil on both sides and the top, the circular glass fiber tube can be distributed evenly over the entire surface. Landfill construction is completed.

The glass fiber tube for underground passage as described above is as follows when the properties of the glass fiber as the main material of the tube is as follows, the glass fiber tube for underground passage according to the present invention is semi-permanent.

① Endures high temperature and does not burn.

② Absorptive, less hygroscopic.

③ No corrosion due to chemical durability

④ Strong strength, especially tensile strength.

⑤ low elongation rate.

⑥ High electrical insulation.

⑦ Low wear resistance.

⑧ Specific gravity is 2.2 times of nylon and cotton 1.7 times.

⑨ Made of mat has good insulation and sound insulation.

Glass fiber tube for underground passage according to the present invention configured as described above and the method of manufacturing the bar is composed of an inner layer, an outer layer, an intermediate layer, the inner layer is made of a polymer resin and glass fibers, the finish material to make the appearance beautiful, When constructing underground passages, glass fiber pipes can be embedded to easily construct underground passages, thereby reducing the time required for construction of underground passages.

In addition, the glass fiber tube is maintained by the polymer resin, glass fiber, reinforcement, etc. put into the outer layer, inner layer, intermediate layer, while improving the compressive strength and crushing strength, so that the life of the underground passage is semi-permanently extended to require maintenance This has the advantage of reducing costs.

Claims (8)

An outer layer formed by curing the polymer resin and glass fibers to prevent water and chemicals from entering the underground passage; An inner layer disposed inside the outer layer to form an inner wall of the underground passage and formed by curing the polymer resin and glass fibers; A glass fiber tube for underground passages, which is interposed between the outer layer and the inner layer, and includes an intermediate layer in which glass fibers are embedded in the polymer resin and sand to impart impact resistance to the underground passages. The method of claim 1, The intermediate layer includes a polymer resin filled with pores with a filler and calcium carbonate having a silicon content of 60% or more; A moire applied to the periphery of the inner layer simultaneously with the polymer resin to form a concrete structure; The glass fiber tube for underground passages, characterized in that the polymer resin and glass fiber embedded in the day after tomorrow. The method of claim 1, The outer wall of the outer layer is a glass fiber tube for underground passages, characterized in that it further comprises a reinforcing layer to increase the crush strength of the glass fiber tube. The method of claim 3, wherein The reinforcing layer and the reinforcing material disposed on the circumferential surface of the outer layer; A glass fiber tube for underground passages, characterized in that it comprises a glass fiber wound with the reinforcing material and subsequently heated by a curing furnace to form the reinforcing layer. The method of claim 4, wherein The reinforcing material is made of a synthetic resin, the cross-sectional shape is formed in the shape of a rod forming a trapezoid, a plurality of incisions are formed on the upper surface of the glass fiber tube for underground passages, characterized in that it can be wound around the outer surface of the outer layer. An inner layer forming step in which an inner layer finish is wound on a mold driven by a motor, and a polymer resin and glass fibers are wound on an upper side of the inner layer finishing material; When the inner layer forming step is completed, the intermediate layer forming step of applying a polymer resin and sand around the inner layer to form a concrete structure and the glass fiber is embedded in the concrete structure; When the intermediate layer forming step is completed, the outer layer finishing material is wound and the outer layer forming step wherein the polymer resin and glass fibers are wound around the intermediate layer; When the outer layer forming step is completed, the method of manufacturing a glass fiber tube for underground passages, characterized in that it comprises a heating step for curing the outer layer, the middle layer, the inner layer is heated from the outside of the mold. The method of claim 6, Before the inner layer forming step, and after the outer layer forming step, the release film is added to the release film is further included in each of the underground passage for characterized in that the glass fiber tube is completed to be separated from the mold Method for producing glass fiber tube. The method of claim 6, After the heating step is a method of manufacturing a glass fiber tube for underground passages, characterized in that the reinforcing material and the glass fiber is wound around the outer layer, and further comprises a reinforcing layer addition step is heated to form a reinforcing layer.