KR100925867B1 - Connecter for corrugated steel pipes - Google Patents

Abstract

PURPOSE: A connecter for corrugated steel pipes is provided to join conveniently a corrugated steel pipe without an additional forming process for a straight corrugated part by distributing pressurizing force transmitted from a gasket into sealing elastic band wound around the outside of corrugated steel pipe. CONSTITUTION: A connecter for corrugated steel pipes comprises a pair of elastic band(100), a pair of steel band(120), and a pair of gaskets(130). A connector further comprises a recess(134), a packing(140), and a gasket fastening unit(150). The elastic band covers the periphery of the end of each of corrugated steel pipes next to each other. The steel band has a shape conforming to the end of the corrugated steel pipe. The steel band covers the outer surface of the elastic band with both ends overlapped. The steel band pushes the elastic band against the outer surface of the connection end of the corrugated steel pipe when compression is applied toward the overlapped direction. The gasket is fitted into the connection end of the corrugated steel pipe through an additional fastening member. The recess is formed on the surface opposed to the gasket. The packing seals between gaskets, fitted into the recess of each of gaskets. The fastening unit consists of a coupling piece(151) attached onto the outer surface of the gasket, a bolt(152) and nut(153) tightening each of gaskets through the coupling piece.

Description

Connector for corrugated steel pipes

The present invention relates to a connector of corrugated steel pipe, more specifically, to ensure that the pressure applied to the corrugated steel pipe is evenly transmitted, the watertight performance of the corrugated steel pipe is excellent, and the corrugated steel pipe does not need a separate forming process for connecting each corrugated steel pipe. It relates to a connection device.

In general, a concrete fume pipe is mainly used as a pipe for guiding fluid movement in a road, a harbor, and a sewage treatment plant. The concrete fume pipe is required to be loaded with heavy equipment during transportation and handling due to an increase in its weight and volume. During construction, the construction period becomes longer due to the increase of the joints due to the deterioration of workability due to the installation and dismantling of the formwork, and there is a problem of being subject to seasonal constraints due to freezing of the foundation cement connecting the joints.

Therefore, in recent years, the galvanized steel sheet (hereinafter referred to as "steel sheet") is rolled in a spiral shape and the rolled boundary portion is connected to the seam so as to have a cylindrical shape, except for the lock seam connection portion of the tubular body. Corrugated steel pipes are used in which spirally shaped "c" shaped corrugations are formed on the part. Since the corrugated steel pipe as described above has a problem that the strength of the pipe body is not bent and flat, the strength is considerably lowered, and thus it is not widely used for guiding the transfer of fluids such as water and sewage.

Meanwhile, corrugated steel pipes having waveforms formed directly on galvanized steel sheets themselves are manufactured and marketed. This corrugated steel pipe is formed directly on the galvanized steel sheet itself, and then rolled the tube body in a spiral shape to form a curved wave portion of the spiral along the longitudinal direction of the tube body. It is very strong and especially used as a pipe for guiding the flow of water and sewage is very suitable.

Since all the corrugated steel pipes as described above require several according to the length to be constructed, the corrugated steel pipes must be connected to each other in actual construction, and a separate connector is required for the corrugated steel pipes to be connected. .

1 and 2, a corrugated steel pipe having a lock core formed of a corrugated steel pipe, for example, will be described as follows. The connector 10 is composed of a ring-shaped elastic band 11 fitted to the end of the corrugated steel pipe (1), and the gasket 12 is fastened in a state surrounding the outer peripheral surface of the elastic band (11).

The elastic band 11 is fitted to the end of each corrugated steel pipe 1 provided in the adjacent state. The elastic band 11 is formed in a ring shape is connected to each end while being fitted in a state surrounding the end of each corrugated steel pipe (1). Therefore, the elastic band 11 is in close contact with the outer circumferential surface of the end of each corrugated steel pipe 1 by its elastic force to close the gap between each corrugated steel pipe 1 connected.

In addition, the outer circumferential surface of the elastic band 11 is provided with a gasket 12.

The gasket 12 forms a cylindrical body with one side open to surround the outer circumferential surface of the elastic band 11. The gasket 12 is formed with a pair of flanges 13 and 13 perpendicular to the open end, respectively, so as to be fixed while wrapping the outer circumferential surface of the elastic band 11. Therefore, when the fixing bolt 14 is passed through the pair of flanges 13 and 13 and then fastened with the nut 15, the open ends are matched and firmly fixed to the outer circumferential surface of the elastic band 11.

At this time, the distance between the flange 13 and the flange 14 is gradually narrowed by the process of fastening the fixing bolt 14 and the nut 15 to the gasket 12, the waveform in the direction of the arrow shown in FIG. The pressing force is generated toward the center of the steel pipe 1, whereby the pressing force is in close contact while tightening the outer peripheral surface of the elastic band (11).

Thereafter, as the fastening process continues, the adhesion force continues to increase, thereby tightening the outer circumferential surface of the elastic band 11 more strongly, so that the gasket 12 is completely in close contact with the corrugated steel pipe 1 and each corrugated steel pipe 1 The gap between them is tightly maintained.

On the other hand, as another corrugated steel pipe (1) connector 20 for connecting the conventional corrugated steel pipe (1), as shown in Figures 3 and 4 attached, the end of the straight wave-shaped portion (1c) is molded Corrugated steel pipe (1), the elastic band 21 to be fitted to the linear waveform portion (1c) of the corrugated steel pipe 1, and the outer circumferential surface of the elastic band 21 while covering the linear waveform portion (1c) There is a thing comprised with the gasket 22 which has the recessed part 22a.

The straight wavy portion 1c formed at the end of the corrugated steel pipe 1 is flattened to form an end portion of the corrugated steel pipe 1 spirally rolled to have a cylindrical shape, and then processed through a separate molding process.

A ring-shaped elastic band 21 is fitted to the outer circumferential surface of the straight waveform portion 1c of each corrugated steel pipe 1. At this time, the elastic band 11 is connected to the corrugated steel pipe (1) while being fitted in a state surrounding the straight waveform portion (1c) of each corrugated steel pipe (1).

Subsequently, the outer side of the elastic band 11 is wrapped with a gasket 22 having a concave portion 22a corresponding to the straight waveform portion 1c of the corrugated steel pipe 1. Accordingly, the gasket 22 passes the fixing bolts 24 through the pair of flanges 23 and 23 formed at both ends of the body and is fastened with nuts 25 to evenly apply the pressing force to the entire outer circumferential surface of the elastic band 21. It should be fastened while wrapped while being delivered.

However, the conventional corrugated steel pipe connecting device is not evenly transmitted pressure applied to the corrugated steel pipe (1) during the fastening process of the gasket 12, which causes a problem that the water tightness of the corrugated steel pipe (1) is inferior do.

That is, in the case of the conventional connector 10 shown in Figures 3 and 4, the pressing force generated by the fastening of the fixing bolt 14 and the nut 15 in the state in which the gasket 12 wrapped the elastic band 11 While tightening the elastic band 11 is fastened to the corrugated steel pipe (1). At this time, the pressing force of the gasket 12 compresses the elastic band 11 while being evenly transmitted to the entire outer circumferential surface of the elastic band 11, but in the process of the elastic band 11 is in close contact with the corrugated steel pipe (1) By first coming into close contact with the "c 'shaped protruding corrugation (1b) formed in (1), eventually, a large pressing force is transmitted only to the corrugation (1b) side of the corrugated steel pipe (1), and the corrugation (1b) and the corrugation (1b). There is a problem that the pressure is not properly transmitted between the) elastic band 11 is less in close contact with the water tightness is less.

In addition, in the case of the connector 20 shown in FIGS. 3 and 4, the pressing force of the gasket 22 is evenly transmitted to the entire outer circumferential surface of the elastic band 11, but the gap t due to the lifting phenomenon of the lock core 1a portion. ), Watertightness is lowered, and the galvanized portion of the corrugated steel pipe 1 surface is peeled off. This is the connection state of the lock seam (1a) is lifted while going through the forming process that the end of the corrugated steel pipe (1) is unfolded and bent during the forming process to have a straight waveform portion (1c) of the corrugated steel pipe (1) Because this happens.

As a result, when a gap t is generated in the connection portions of the corrugated steel pipes 1 embedded by the above-described conventional problems, a leak occurs from the gap t, and partial settlement occurs, and the connection portion loads. The large corrugated steel pipes (1) connected to bend leads to a serious problem that is broken.

In addition, the connector 10, 20 is a structure in which the connection ends of a pair of corrugated steel pipe (1, 1) in common facing at the same time through a single gasket (14, 24) gasket during pipe connection work Since the fastening positions of the 14 and 24 are easy to flow, the fastening of the gaskets 14 and 24 is not smooth.

The present invention was devised to solve the above problems, and the pressing force transmitted from the gasket is evenly transferred to the watertight elastic band wound outside the corrugated steel pipe, thereby greatly improving the watertight performance and having a straight wave form. It is an object of the present invention to provide a connector of a corrugated steel pipe having a lock core portion which can be easily connected to a corrugated steel pipe without a process .

In order to achieve the above object, the connection device of the corrugated steel pipe of the present invention includes a pair of elastic bands surrounding the outer peripheral surface of the connecting end of each corrugated steel pipe adjacent to each other; Comprising a shape corresponding to the connecting end of each corrugated steel pipe is installed so as to surround the outer peripheral surface of the elastic band with both ends overlapped, and when the pressing force is applied in the overlapping direction, the elastic band on the outer peripheral surface of the connecting end of the corrugated steel pipe A pair of steel bands that closely adhere to each other; A pair of gaskets provided in close contact with connection ends of the corrugated steel pipes through separate fastening members to impart pressing force in a direction in which the steel bands overlap; Grooves formed on opposite surfaces of each gasket; A packing fitted into the groove of each gasket to maintain a watertight between the gasket and the gasket; And a gasket fastening means composed of a fastening piece fixed to an outer surface of each gasket, and a fastening bolt and a nut for tightly fixing each gasket through the fastening piece.

According to the connecting device of the corrugated steel pipe according to the present invention configured as described above, since the pressing force transmitted from the gasket is uniformly transmitted to the elastic band wound around the connecting portion of each adjacent corrugated steel pipe, there is an effect that can greatly improve the watertight performance. .

In addition, after the gasket is pre-installed at the connection end of the corrugated steel pipe, only the coupling operation of the gaskets in the field is required. Therefore, unlike the conventional connecting device in which the connecting ends of a pair of corrugated steel pipes facing each other are connected simultaneously through a single gasket, the fastening positions of the gaskets do not flow in the process of connecting the gaskets between the connecting ends. This makes the connection work easy and quick.

In addition, a separate molding process is not required to have a straight wave part, and there is an effect of preventing the occurrence of the lock seam generated during the molding process and the occurrence of the galvanized part of the surface of the corrugated steel pipe.

The features and advantages of the present invention will become more apparent from the following detailed description of preferred embodiments based on the accompanying drawings. Prior to this, the terms or words used in the present specification and claims are defined in the technical spirit of the present invention on the basis of the principle that the inventor can appropriately define the concept of the term in order to explain his invention in the best way. It must be interpreted to mean meanings and concepts.

<First Embodiment>

In this embodiment, the connecting device of the corrugated steel pipe of the present invention is shown and described by way of example to connect the corrugated steel pipe formed with a "c" shaped corrugated spiral in the remaining portion except for the lock core connection portion of the tube body .

5 and 6, the connector 100 of the corrugated steel pipe 1 according to the present invention is a pair of elastic bands 110 surrounding the outer peripheral surface of the connecting end of each corrugated steel pipe 1 adjacent to each other And, made of a shape corresponding to the connecting end of each corrugated steel pipe (1) is installed to surround the outer circumferential surface of the elastic band 110 in a state where both ends overlap and the elastic band 110 when a pressing force is applied in the overlapping direction ) Is a pair of steel bands (120) to closely adhere to the outer circumferential surface of the connection end of the corrugated steel pipe (1) and the steel band 120 by being closely coupled to the connection end of each corrugated steel pipe (1) through a separate fastening member ) Is fitted into a pair of gaskets 130 for applying a pressing force in a direction overlapping with each other, grooves 134 formed on opposing surfaces of each gasket 130, and grooves 134 of each gasket 130. Packing 140 for maintaining the watertight between the gasket 130 and Gasket fastening means consisting of a fastening piece 151 fixed to the outer surface of the gasket 130 and a fastening bolt 152 and a nut 153 for tightly fixing each gasket 130 through the fastening piece 151. It consists of 150.

The elastic band 110 is a planar member having an elastic force itself, such as a rubber material or a soft synthetic resin, is wound on the connecting end of each corrugated steel pipe (1) adjacent to each other. Therefore, the elastic band 110 is installed in contact with the outer circumferential surface of the corrugated steel pipe (1).

Steel bands 120 are wrapped around the elastic bands 110. The steel bands 120 are manufactured in a shape in which the corrugated steel pipe 1 corresponds to the connection end. That is, the spiral protrusion which has a shape corresponding to the corrugation 1b formed in the corrugated steel pipe 1 is formed. In particular, the elastic band 110 is mounted so as to surround the outer circumferential surface of the elastic band 110 in a state where both ends are overlapped, when the pressing force is applied in a direction overlapping from the outside afterwards, the amount of overlap increases and the inner elasticity The band 110 is pressed toward the corrugated steel pipe 1 side.

And the gasket 130 is wrapped around the outside of each steel band 120. These gaskets 130 form a cylindrical body with one side open to surround the outer circumferential surface of the elastic band 110. The gaskets 130 are formed with a pair of flanges 131 perpendicular to the open ends, respectively, so as to be secured while wrapping the outer circumferential surface of the elastic band 110. Therefore, when the fixing bolt 132 is passed through the pair of flanges 131 and then fastened with the nut 153, the pressing force is applied in a direction in which the steel band 120 overlaps while forming a circular ring shape.

A flange 131 is formed at the other end of the gasket 130, and the gasket 130 is fitted by the fixing bolt 132 and the nut 153 through the flange 131. As the tightening degree of the nut 133 fastened to the fixing bolt 132 is increased, the pressing force toward the center of the corrugated steel pipe 1 is increased.

In addition, grooves 134 are formed on opposite surfaces of the respective gaskets 130. The recess 134 is fitted with a single packing 140. The packing 140 is fitted into one side of the groove 134 of the gasket 130 and the other side of the packing 140 is fitted into the groove 134 of the other side gasket 130 and is coupled to the gasket 130 when the corrugated steel pipe 1 is connected. Watertightness is maintained between the gaskets 130.

And, each gasket 130 has a separate gasket fastening means 150 to be firmly coupled to each other. The fastening means 150 is composed of a fastening piece 151 fixed to the outer surface, and a fastening bolt 152 and a nut 153 for tightly fixing each gasket 130 through the fastening piece 151. The fastening piece 151 has a through hole through which the head of the fastening bolt 152 or the nut 153 is supported and the body of the fastening bolt 152 passes.

On the other hand, it is preferable that the watertight adhesive band 160 is further attached to the outer circumferential surface of the connection end of each corrugated steel pipe (1). The adhesive band 160 is a rubber material or a soft synthetic resin is suitable, and the bottom is coated with an adhesive like a scotch tape can be wound around the corrugated steel pipe (1) and attached. In addition, the adhesive band 160 may be attached in a divided form because the surface of the corrugated steel pipe 1 is non-uniform due to a wave shape or a lock core. The adhesive band 160 maintains the watertight between the outer peripheral surface of the connecting end of each corrugated steel pipe 1 and the elastic band 110.

On the other hand, at least one support jaw 125 is preferably formed on the upper surface of the steel band 120 to remove the gap with the inner surface of the gasket 130. The support jaw 125 is a steel band 120 ) May be formed through molding, or may be separately manufactured and welded to the upper surface of the steel band 120 in the longitudinal direction of the corrugated steel pipe 1. In this embodiment, for example, three support jaws 125 are formed at uniform intervals along the circumferential direction of the steel band 120.

In addition, one of the support jaw 125 is to be formed on the upper surface of the overlap section of the steel band (120). In this case, the support jaw 125 is strongly adhered to the inner surface of the steel band 120 so that the overlapped portion is not lifted while the gasket 130 is fastened. And although the support jaw 125 may be formed on the inner side of the gasket 130, the gasket 130, considering that the assembly position is not constant with respect to the outer circumferential direction of the steel band 120, steel band 120 It is preferable to form on the upper surface of the).

The process of connecting a pair of corrugated steel pipes facing by using the corrugated steel pipe connecting device of the present invention configured as described above is as follows.

First, attaching the watertight adhesive band 160 to the connection end of each corrugated steel pipe (1) to be connected, and then the elastic band at the connection end of each corrugated steel pipe (1) to overlap with the watertight adhesive band (160) 110) rolled and wrapped in a roll form.

On the other hand, the watertight adhesive band 160 is preferably attached to a position spaced a predetermined distance from the connecting end of the corrugated steel sheet. This is to maximize the watertight effect by allowing the elastic band 110 to be primarily watertight after the connecting end of the corrugated steel pipe (1) and then to the second watertight elastic band (110).

Steel band 120 is wrapped around the outer side of the elastic band 110 in a state in which the elastic band 110 is rolled around the connecting end of each corrugated steel pipe 1 in the form of a roll. The operator applies a constant force to open both ends of the steel band 120 to the outside to open both ends of the overlapped steel band 120, the outer peripheral surface of the elastic band 110 in the lower inner peripheral surface of the steel band 120 By slowly removing the force applied by closely contacting the lower portion, the steel band 120 may be restored to its original shape by its restoring force, so that the elastic band 110 is naturally wrapped.

In this state, the elastic band 110 is pressed against the steel band 120 and elastically deformed along the outer circumferential surface shape of the connection end of the corrugated steel pipe 1 while being in close contact with the outer circumferential surface of the connecting end of the corrugated steel pipe 1. The spiral protrusion formed in the circular body of the steel band 120 is not in close contact with the corrugations 1b formed in the corrugated steel pipe 1 but is in close proximity. This is because the steel band 120 is wrapped in the elastic band 110 only by its restoring force since the pressing force is transmitted from the outside to the steel band 120.

As shown in FIG. 6, the gasket 130 is wrapped around the outer circumferential surface of the steel band 120, and the fixing bolt 132 passes through the flange 131 of each gasket 130 and fastens the nut 153. When the gasket 130 is gradually tightened in a state where the gasket 130 is aligned, the pressing force toward the center of the corrugated steel pipe 1 starts to increase gradually.

And when the pressing force is more than a certain amount of steel band wrapped around the inside of the gasket 130 while pulling the gasket 130 while moving to the flange 131 side of the gasket 130 to the center of the corrugated steel pipe (1) ( 120) is tightened.

When the steel band 120 is tightened, since both ends of the steel band 120 are in an overlapped state, the overlapping width of the steel band 120 is widened, and the uniform elastic force is transmitted to the inner elastic band 110. As a result, the elastic band ( 110) to be in close contact.

In this process, the spiral projection of the steel band 120 is gradually approached to the corrugation (1b) formed in the corrugated steel pipe (1) and then seated in the corrugation (1b) of the corrugated steel pipe (1) as shown in FIG. . The steel band 120 in this state is in a state of being completely in contact with the elastic band 110 while pressing the outer surface of the elastic band 110 of the corrugated steel pipe 1 with a uniform pressing force, as a result of each adjacent corrugated steel pipe The gasket 130 is firmly fixed to the outer side of the connection part of (1) while making a perfect watertight state.

On the other hand, when the support jaw 125 formed on the upper surface of the overlap section of the steel band 120 is formed, the support jaw 125 is strongly in close contact with the inner surface of the gasket 130 and the gap with the steel band 120 Since the overlap section of the steel band 120 is not lifted, the elastic band 110 is strongly adhered to the outer circumferential surface of the connection end of the corrugated steel pipe 1 without lifting.

As such, when the mounting of the gasket 130 is completed on the outer surface of each of the adjacent corrugated steel pipes 1, the packing 140 is inserted into the groove 134 formed on the opposite surface of the gasket 130 on one side, and each gasket ( 130). And passing through the fastening bolt 152 to the fastening piece 151 fixed to the outer surface of each gasket 130, and then fastened with a nut 153, the two corrugated steel pipe (1) is firmly connected.

In this case, as shown in FIG. 8, the watertight between the gasket 130 and the gasket 130 is completely formed by the packing 140, and each corrugated steel pipe 1 may be firmly connected.

Second Embodiment

On the other hand, as shown in Figures 9 to 11, the corrugated steel pipe connecting device 100 of the present invention forms a waveform directly on the galvanized steel sheet itself, and then roll the tube body in a spiral to the longitudinal direction around the tube body Accordingly, the corrugated steel pipes 2 and 2 having the spiral curved portions 2a may be connected to each other.

As compared with the steel band 120 in the first embodiment, the steel band 170 in this case is different in appearance from the shape of the corrugation bend 2a and the shape of the corrugation 1b. All except the same have the same configuration and action.

The support jaw 175 may be formed on the upper surface of the overlap section of the steel band 170 to remove a gap with the inner surface of the gasket 130. Since the support jaw 175 has the same configuration and operation as the support jaw 125 in the first embodiment, detailed description thereof will be omitted.

Therefore, the present invention can be connected to various kinds of corrugated steel pipe as long as the steel band separately manufactured and managed according to the waveform shape.

As described above, preferred embodiments of the present invention are described above with reference to the drawings, but the present invention is not limited to the above-described embodiments, and those skilled in the art to which the present invention pertains can make modifications without departing from the spirit of the present invention. Possible, such modifications will fall within the scope of the invention.

1 is an exploded perspective view showing the configuration of a conventional corrugated steel pipe connection device.

2 is a cross-sectional view of the state of use of FIG.

Figure 3 is an exploded perspective view showing the configuration of another conventional corrugated steel pipe connection device.

4 is a cross-sectional view of the state of use of FIG.

Figure 5 is an exploded perspective view for showing the configuration of the connection device of the corrugated steel pipe according to the present invention.

Figure 6 is a longitudinal cross-sectional view of the state of use of Figure 5, showing a state before the gasket is fastened.

FIG. 7 is a longitudinal cross-sectional view of the state of use of FIG. 5, illustrating a state in which the gasket is fastened. FIG.

FIG. 8 is a cross-sectional view of a state of use of FIG. 5, illustrating a state in which a gasket is fastened.

Figure 9 is an exploded perspective view showing the configuration according to another embodiment of the corrugated steel pipe connection device according to the present invention.

FIG. 10 is a longitudinal cross-sectional view of the state of use of FIG. 9, illustrating a state in which a gasket is fastened. FIG.

FIG. 11 is a cross-sectional view of the state of use of FIG. 9, illustrating a state in which a gasket is fastened. FIG.

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

Connection device for 1,2, ..., corrugated steel pipe 100 ..., corrugated steel pipe

110 ... Elastic band 120,170 ... steel band

125,175 Support Jaw 130 Gasket

134 groove 140 packing

150 ... Gasket tightening means 151 ... fastening

152 Tightening Bolt 153 Nut

160 ... Watertight Adhesive Bands

Claims (4)

A pair of elastic bands surrounding the outer circumferential surface of the connecting end of each corrugated steel pipe adjacent to each other; Comprising a shape corresponding to the connecting end of each corrugated steel pipe is installed so as to surround the outer peripheral surface of the elastic band with both ends overlapped, and when the pressing force is applied in the overlapping direction, the elastic band on the outer peripheral surface of the connecting end of the corrugated steel pipe A pair of steel bands that closely adhere to each other; A pair of gaskets provided in close contact with connection ends of the corrugated steel pipes through separate fastening members to impart pressing force in a direction in which the steel bands overlap; Grooves formed on opposite surfaces of each gasket; A packing fitted into the groove of each gasket to maintain a watertight between the gasket and the gasket; And And a gasket fastening means comprising a fastening piece fixed to an outer surface of each gasket, and a fastening bolt and a nut for fastening and fixing each gasket to each other through the fastening piece. The method of claim 1, Connection device for corrugated steel pipe, characterized in that the watertight adhesive band is further attached to the outer peripheral surface of the connecting end of each corrugated steel pipe to maintain the watertight between the outer peripheral surface of the connecting end of each corrugated steel pipe and the elastic band. The method of claim 1, Corrugated steel pipe connecting device characterized in that at least one support jaw is formed on the upper surface of the steel band to remove the gap with the inner surface of the gasket. The method of claim 3, wherein One of the support jaw is connected to the corrugated steel pipe, characterized in that formed on the upper surface of the overlap section of the steel band.

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