KR200254667Y1 - A waterwat brdige using a fiberglass rainforced plastics - Google Patents

Abstract

The present invention relates to a waterway bridge structure using a composite material, and more specifically, to form a waterway bridge top girder, a composite waterway bridge, and a cover with a superstructure used as a bridge for a waterway using reinforced plastics using glass fiber and composite materials. The furnace weight is light and there is no fear of corrosion, and especially it relates to a waterway bridge structure using a composite material that does not occur freezing phenomenon and water pollution even in winter.

The present invention, in a waterway bridge structure used as a waterway, fixed to the anchor bolt protruding to the top of the concrete piers and formed of reinforcing fiber plastic; Aqueduct bridge top girder is seated in the longitudinal direction on top of the elastic support, the composite material laminated in multiple layers to prevent corrosion on the outer surface; A horizontal beam installed in the width direction on an upper portion of the aqueduct bridge top plate girder and having fixed clips at both sides; While seated on the cross beam, a flange joint is formed in a plurality of joints are formed, the stainless bolt is coupled to the flange joint in the longitudinal direction, the bent groove is formed in the upper portion of the longitudinal direction 'c' Composite waterway bridge formed in cross section; A waterway bridge cover coupled to an upper portion of the composite waterway bridge and having a bent portion bent inward to the lowermost portion; It provides a waterway bridge structure using a composite material consisting of; and fixing the composite material aqueduct bridge and aqueduct bridge cover, and a stainless fixing fastening band coupled to a fixed clip installed on both sides of the cross beam.

Description

Aqueduct bridge structure using composite material {A WATERWAT BRDIGE USING A FIBERGLASS RAINFORCED PLASTICS}

The present invention relates to a waterway bridge structure using a composite material, and more specifically, to form a waterway bridge top girder, a composite waterway bridge, and a cover with a superstructure used as a bridge for a waterway using reinforced plastics using glass fiber and composite materials. The furnace weight is light and there is no fear of corrosion, and especially it relates to a waterway bridge structure using a composite material that does not occur freezing phenomenon and water pollution even in winter.

In general, the concrete aqueduct bridge structure is a channel used in rural areas, especially in consideration of the structural corrosion of the structure is installed using concrete and iron products.

The concrete aqueduct bridge structure is ideally formed using materials that require a thorough connection to the joints and are free of water pollution because of their length.

1 is a view schematically showing a conventional aqueduct bridge structure, the concrete aqueduct bridge 10, the concrete pier 20 is installed at the bottom and the concrete pier 20 is provided with a concrete channel 30 at the top.

The concrete water channel 20 is formed in the most '' 'cross-section.

In the conventional concrete waterway bridge described above, freezing occurs when the joint part due to leakage occurs in the winter, etc., and a large amount of water is wasted due to the water leakage at the joint part. The cost was enormous.

The present invention is to solve the above problems, the present invention is compounded by glass fiber and reinforced plastic, light weight, no fear of corrosion, freeze phenomenon or alteration does not occur even in winter, water pollution does not occur It is an object of the present invention to provide a waterway bridge structure using a composite material having a structure that is not concerned about leakage due to being fastened with a rubber gasket and a stainless bolt.

The present invention, in order to achieve the above object, the present invention, in the aqueduct bridge structure used as a waterway, the elastic support is fixed to the anchor bolt protruding to the top of the concrete piers and formed of reinforcing fiber plastic; Aqueduct bridge top girder is seated in the longitudinal direction on top of the elastic support, the composite material laminated in multiple layers to prevent corrosion on the outer surface; A horizontal beam installed in the width direction on an upper portion of the aqueduct bridge top plate girder and having fixed clips at both sides; While seated on the cross beam, a flange joint is formed in a plurality of joints are formed, the stainless bolt is coupled to the flange joint in the longitudinal direction, the bent groove is formed in the upper portion of the longitudinal direction 'c' Composite waterway bridge formed in cross section; A waterway bridge cover coupled to an upper portion of the composite waterway bridge and having a bent portion bent inward to the lowermost portion; It provides a waterway bridge structure using a composite material consisting of; and fixing the composite material aqueduct bridge and aqueduct bridge cover, and a stainless fixing fastening band coupled to a fixed clip installed on both sides of the cross beam.

1 is a view schematically showing a conventional aqueduct bridge structure.

Figure 2 is a perspective view showing a waterway bridge structure using a composite material of the present invention.

Figure 3 is an exploded perspective view showing a waterway bridge structure using a composite material of the present invention.

<Brief description of symbols for the main parts of the drawings>

50: waterway bridge structure 52: concrete bridge piers

54: elastic base 56: anchor bolt

58: aqueduct bridge girder 60: crossbeam

62: fixing clip 63: side adjustment bolt

64: composite waterway bridge 66: bending groove

68 flange connection 70 stainless bolt

72: aqueduct bridge cover 74: bend

76: stainless steel fastening band

Hereinafter, with reference to the accompanying drawings will be described the configuration and operating state of the present invention.

2 is a perspective view showing a waterway bridge structure using a composite material of the present invention, Figure 3 is an exploded perspective view showing a waterway bridge structure using a composite material of the present invention.

The aqueduct bridge structure 50 has an elastic bearing 54 formed of reinforcing fiber plastic on an upper portion of the concrete bridge piers 52 by means of a combination of anchor bolts 56, and the elastic bearing 54 has a lengthwise direction thereon. Two rows of channel bridge top girders 58 are provided, and the above-mentioned channel bridge top girders 58 are laminated in multiple layers to prevent corrosion on their outer surfaces.

That is, the aqueduct bridge top plate 58 is fastened to the anchor bolt 56 and the concrete pier 52 is fastened with the elastic bearing 54 therebetween.

The plurality of through holes are formed in the elastic base 54 and the channel bridge upper plate girder 58 so that mutual coupling is possible.

A cross beam 60 is installed at the upper portion of the aqueduct bridge girder 58 at a predetermined distance in the width direction at an upper portion thereof, and fixing clips 62 are fixed to both sides of the cross beam 60 to closely contact the aqueduct bridge top girder 58. It is a structure, the composite material channel bridge 64 is seated at the upper portion of the fixing clip 62, the channel bridge cover 72 is formed on the composite material channel bridge 64.

The aqueduct bridge structure 50 of the composite material aqueduct bridge 64 is a flange joint 68 is formed in the joint and the stainless steel bolt 70 is fastened to the flange joint 68 of the composite channel aqueduct 64, At this time, the composite channel canal bridge 64 and the channel bridge cover 72 is fixed so that there is no flow by the stainless steel fastening band 76 is coupled to the fixing clip 62.

That is, the fixing clip 62 is fixed to the fixed stainless fastening band 76 by the side adjustment bolt 63 formed on the top.

The composite material aqueduct bridge 64 is formed with a bending groove 66 formed to be bent to facilitate engagement with the aqueduct bridge cover 72 at an upper portion in the longitudinal direction, and the aqueduct bridge cover 72 has an innermost lower portion. The bent portion 74 is bent to form.

That is, the bent portion 74 of the channel bridge cover 72 is coupled to the bent groove 66 of the composite channel channel 64 by its own structure.

The composite material aqueduct bridge 64 and the aqueduct bridge cover 72 has a substantially 'c' shaped cross section to form a rectangular structure when combined with each other.

The above-mentioned aqueduct bridge structure 50 is manufactured by using a reinforced plastic synthesized from glass fiber and plastic, and the material of the aqueduct bridge structure 50 can be used permanently. The coupling force is increased because the 72 is formed in a structure that is self-fastened by the elastic force.

The effect of the configuration and operation of the present invention described above will be described.

The waterway bridge structure using the composite material of the present invention is light in weight and concerned about corrosion because the upper structure used as the bridge for waterway is reinforced plastic using glass fiber and composite material to form the waterway bridge top girder, the composite waterway bridge and the cover. In particular, even in winter, freezing does not occur and water pollution does not occur.

Claims (1)

In a waterway bridge structure used as a water channel, the elastic support 54 is fixed to the anchor bolt 56 protruding to the upper portion of the concrete pier 52 and formed of reinforcing fiber plastic; Aqueduct bridge top girder 58 is longitudinally seated on the upper portion of the elastic bearing 54, the composite material laminated in multiple layers to prevent corrosion on the outer surface; A horizontal beam 60 installed in the width direction on the upper channel girder 58 of the aqueduct bridge and having fixing clips 62 on both sides thereof; While seated on the cross beam, a flange joint portion 68 is formed in a plurality of joints, and the stainless bolt 70 is coupled to the flange joint portion 68 in the longitudinal direction, and is joined to the upper portion in the longitudinal direction. A composite waterway bridge 64 in which a bending groove 66 is formed and formed in a 'c' cross section; A waterway bridge cover 72 coupled to an upper portion of the composite waterway bridge 64 and having a bent portion 74 that is bent inward to the lowermost portion; And fixing the aqueduct bridge 64 and the aqueduct bridge cover 72 above, and a stainless fixing fastening band 76 coupled to a fixing clip 62 installed at both sides of the cross beam 60. Aqueduct bridge structure.