KR200267037Y1 - Tremie pipe for pouring concrete in water into well of foundation of pier - Google Patents

Abstract

The present invention relates to a tremy tube for placing concrete on the well base of the pier, to the tremic tube (100) which is inserted vertically into the well body (4) for placing underwater concrete on the well base of the pier In

An anchor ring 111 attached to an outer circumferential surface thereof, and a lower flange 112 formed at a lower end thereof, such that the fallopian tube 110 of the upper and lower straits is introduced into the upper concrete; A plurality of bent portions formed at a lower portion of the fallopian tube 110, and an upper treble tube 120 having an upper flange 122 and a lower flange 123 formed at upper and lower ends thereof, respectively; A plurality of bent portions formed at a lower portion of the upper treme tube 120, and a plurality of intermediate treme tubes 130 and 140 formed at upper and lower ends, respectively, having upper flanges 132 and 142 and lower flanges 133 and 143, respectively; A lower treme tube 150 having a bent portion formed at a lower portion of the intermediate treme tube 140 and an upper flange 152 formed at an upper end thereof; The lower end of the tremi tube 150 is inserted into the upper end is fastened is provided with a hemispherical protective film 160 of the upper side down light, the concrete outflow,

The lower flanges 112, 123, 133, and 143 are fastened to the upper flanges 122, 132, 142, and 152 by bolts 170, respectively, such that the fallopian tube 110 and each of the tremi tubes 120, 130, 140, and 150 are connected. ) Is balanced left and right, and the center of the inlet of the fallopian tube 110 and the center of the outlet of the hemispherical passivation layer 160 are arranged on a vertical straight line.

Description

TREMIE PIPE FOR POURING CONCRETE IN WATER INTO WELL OF FOUNDATION OF PIER}

The present invention relates to tremi pipes for placing concrete on the foundation of wells of bridge piers. Particularly, pier foundation wells are filled with underwater concrete to prevent segregation of aggregate materials generated when concrete is poured through tremie pipes. It is about dragon tremiter.

Generally, when the foundation of a river or offshore structure such as a bridge is used as a well, the inside is usually designed to be filled with concrete.

In the related art, FIG. 1 illustrates a well body 4 installed vertically over a soft rock layer 1, a soil layer 2, and the water 3, as shown in a cross-sectional view showing an underwater concrete placing state using a conventional straight tremit tube. ) The first barge line 11 mounted with the crane 12 around the well body 4 and the second barge line mounted with the pump car 14 and the ready-mixed concrete 16 mounted thereon The three pants line 15 is arrange | positioned.

Then, the concrete from the ready-mixed concrete 16 through the upper end of the tremi tube 10 in a state of supporting and inserting a straight tremi tube 10 into the center of the well body 4 using the crane 12 The concrete was poured into the lower part of the well body 4 by injecting concrete by the pump car 14 supplied with.

However, in the case of using such a conventional straight tremic tube 10, the well body 4 is considerably long, so that the aggregate has a relatively high specific gravity during the process of dropping the injected concrete to the bottom of the well body 4 Since it is large, the aggregate and mortar are separated before sand or mortar is separated, and the aggregate material separation phenomenon occurs that the strength of concrete decreases.

Due to the aggregate material separation phenomenon, the strength of the underwater concrete is weakened, which causes a problem in the foundation of the piers.

The present invention is designed to solve the problems in the prior art as described above, in order to prevent the aggregate material separation phenomenon, the bridge foundation consisting of connecting a plurality of pipes in the form of a conventional concave-convex pipe to prevent the separation of aggregate materials. It is an object of the present invention to provide a pit tube for filling concrete in wells underwater.

1 is a cross-sectional view showing an underwater concrete pouring state using a conventional straight tremit tube.

Figure 2 is a cross-sectional view showing a state of concrete pouring underwater using the tremi tube according to the present invention.

Figure 3 is a perspective view showing an exploded state of the tremi tube according to the present invention.

<Description of Symbols for Major Parts of Drawings>

100: tremi tube 110: fallopian tube

111, 121, 131, 141, 151: anchor ring 120: upper tremi tube

130, 140: middle tremi tube 150: lower tremi tube

160: hemispherical shield

112, 123, 133, 143: lower flange

122, 132, 142, 152: upper flange

Tremy tube for filling the pier foundation wells underwater concrete of the present invention for achieving the above object, is a vertically inserted into the well body (4) in order to pour the underwater concrete on the foundation of the wells of the piers (100) ),

An anchor ring 111 attached to an outer circumferential surface thereof, and a lower flange 112 formed at a lower end thereof, such that the fallopian tube 110 of the upper and lower straits is introduced into the upper concrete; A plurality of bent portions formed at a lower portion of the fallopian tube 110, and an upper treble tube 120 having an upper flange 122 and a lower flange 123 formed at upper and lower ends thereof, respectively; A plurality of bent portions formed at a lower portion of the upper treme tube 120, and a plurality of intermediate treme tubes 130 and 140 formed at upper and lower ends, respectively, having upper flanges 132 and 142 and lower flanges 133 and 143, respectively; A lower treme tube 150 having a bent portion formed at a lower portion of the intermediate treme tube 140 and an upper flange 152 formed at an upper end thereof; The lower end of the tremi tube 150 is inserted into the upper end is fastened is provided with a hemispherical protective film 160 of the upper side down light, the concrete outflow,

The lower flanges 112, 123, 133, and 143 are fastened with bolts 170 to the upper flanges 122, 132, 142, and 152, respectively, so that the fallopian tube 110 and each of the tremi tubes 120, 130, 140, and 150 are connected. Balance the left and right, the center of the inlet portion of the fallopian tube 110 and the center of the outlet portion of the hemispherical protective film 160 is characterized in that it is configured to lie on a vertical straight line.

Hereinafter, Figure 2 is a cross-sectional view showing a state of concrete pouring underwater using the tremi tube according to the present invention, Figure 3 will be described in detail with respect to the present invention with reference to a perspective view showing an exploded state of the tremi tube according to the present invention.

The present invention is to improve the shape of the trem tube for placing concrete in the lower portion of the well body (4) is inserted vertically in the well body (4) in order to place underwater concrete on the foundation of the well of the piers, Tremi tube 100 according to the present invention has a technical feature that is configured in a concave-convex shape by connecting a plurality of tubes formed with a plurality of bent portions.

Tremi tube 100 according to an embodiment of the present invention is largely connected to the upper tremi tube 120, a plurality of intermediate tremi tube (130, 140) and the lower tremi tube (150), the upper part The upper end of the tremi tube 120 is connected to the fallopian tube 110 of the upper and lower straits to facilitate the inflow of concrete, and the lower end of the lower tremi tube 150 is suppressed from being directly mixed with water when the concrete is spilled to separate the aggregate material. In order to minimize the phenomenon, the hemispherical passivation layer 160 is connected.

In this case, the number of the intermediate treme tubes 130 and 140 need not be limited to two, as shown in FIGS. 2 and 3, and the number may be increased or decreased according to the depth of the well body 4.

First, the fallopian tube 110 is installed at the top of the upper end of the upper opening is formed to facilitate the inflow of concrete, the upper end of the fallopian tube 110 so as to be lifted by being coupled to the wire connected to the crane 12 The anchor ring 111 is attached to the outer peripheral surface to be symmetrical, the lower flange 112 is formed at the lower end.

Next, the upper tremi tube 120, a plurality of bent portion is formed in the lower portion of the fallopian tube 110, based on each bent portion of the tube is formed at the same time inclined and perpendicular to each other.

Therefore, when the concrete is introduced through the fallopian tube 110, because the concrete is stirred while passing through the bent portion, the aggregate, sand and cement contained in the concrete is maintained in a uniformly mixed state.

An upper flange 122 and a lower flange 123 are formed at upper and lower ends of the upper treme tube 120, and the upper flange 122 abuts against the lower flange 112 of the fallopian tube 110 to fasten bolts ( 170).

The intermediate tremble tubes 130 and 140 are also formed with a plurality of bent portions in the same manner as the upper tremble tube 120, and upper and lower flanges 132 and 142 and lower flanges 133 and 143 are respectively formed.

The number of intermediate tremor tubes 130 and 140 configured as described above is determined according to the depth of the well body 4 as described above.

On the other hand, the lower tremi tube 150 also has the same bent portion as the upper tremi tube 120 and the middle tremi tube (130, 140), the lower portion is formed vertically, the upper tremi tube (140) The upper flange 152 is formed so as to be in contact with the lower flange 143 formed at the bottom of the coupling bolt 170.

Finally, the bottom is installed at the lower end and the lower part is fastened in a state where the lower end of the lower tremi tube 150 is inserted into the upper portion of the hemispherical protective film 160 having a shape of upper and lower light, so that concrete flows out to the lower part of the well body 4. do.

Looking at the overall shape of the fallopian tube 110, the upper tremi tube 120, the middle tremi tube (130, 140), the lower tremi tube 150 and the hemispherical protective film 160 configured as described above, the center of gravity of the left and right is the fallopian tube ( The center of the inlet of the inlet 110 and the center of the outlet of the protective film 160 are arranged on the same straight line, thereby minimizing the vibration of the tremney tube 100 when the concrete is discharged, thereby allowing the concrete to be disposed under the well body 4. It can be discharged uniformly.

On the other hand, according to an embodiment of the present invention, the anchor ring (121, 131, respectively) on the upper surface of the bent portion of the bent portion of the upper tremi tube 120, the middle tremi tube (130, 140) and the lower tremi tube (150) It is preferable to install 141 and 151 to facilitate connection with the wire of the crane 12.

As described in detail above, when using the pit tube well for underwater concrete filling pier foundation of the present invention, a plurality of bent rim tube to form a concave-convex shape as a whole as a result of the concrete is agitated while falling down, By uniformly injected into the lower portion of the well body, aggregate material separation does not occur, thereby preventing the strength of the concrete in the water from being weakened.

Claims (1)

In the tremic tube 100 is inserted vertically in the well body (4) in order to pour the underwater concrete on the well base of the pier, An anchor ring 111 attached to an outer circumferential surface thereof, and a lower flange 112 formed at a lower end thereof, such that the fallopian tube 110 of the upper and lower straits is introduced into the upper concrete; A plurality of bent portions formed at a lower portion of the fallopian tube 110, and an upper treble tube 120 having an upper flange 122 and a lower flange 123 formed at upper and lower ends thereof, respectively; A plurality of bent portions formed at a lower portion of the upper treme tube 120, and a plurality of intermediate treme tubes 130 and 140 formed at upper and lower ends, respectively, having upper flanges 132 and 142 and lower flanges 133 and 143, respectively; A lower treme tube 150 having a bent portion formed at a lower portion of the intermediate treme tube 140 and an upper flange 152 formed at an upper end thereof; The lower end of the tremi tube 150 is inserted into the upper end is fastened is provided with a hemispherical protective film 160 of the upper side down light, the concrete outflow, The lower flanges 112, 123, 133, and 143 are fastened to the upper flanges 122, 132, 142, and 152 by bolts 170, respectively, such that the fallopian tube 110 and each of the tremi tubes 120, 130, 140, and 150 are connected. ) Is balanced left and right, the center of the inlet portion of the fallopian tube 110 and the center of the outlet portion of the hemispherical protective film 160 is placed on a vertical straight line bridge piers wells underwater concrete filling tremic tube.