JP7017529B2 - Assembled concrete columns - Google Patents

Description

The present invention relates to an assembling concrete column in which an upper column and a lower column are connected.

Conventionally, as an assembly-type concrete column of this type, as shown in Patent Document 1, a pressure receiving plate is provided at the upper end of the lower pole portion, and the upper end of the lower pole portion is press-fitted into the lower end of the upper pole portion. It is known that the tapered connection fitting is provided.

In Patent Document 2, an upper pillar made of prestressed concrete and a lower pillar made of prestressed concrete having a tapered surface continuous with the tapered surface of the upper pillar are provided with the tapered surfaces of the upper pillar and the lower pillar in a state where the end faces are butted against each other. Described is an assembly-type concrete column fitted with a tapered pipe for a joint made of a steel pipe having a tapered surface having the same slope as that of the above.

In Patent Document 3, a prestressed concrete upper pillar and a prestressed concrete lower pillar are provided on the end surface metal fittings provided on the lower end surface of the upper pillar and the upper end surface of the lower pillar in a state where the end faces are butted. An assembling type concrete column is described in which the end face metal fittings are connected by joint metal fittings and further fitted with a tapered pipe.

In Patent Document 4, in a pipe body joining device for a pipe body such as a steel pipe column, a central through hole is provided in the pipe wall of the lower end enlarged portion of the upper pipe body, and a push screw inserted through the central through hole is provided. A configuration is described in which the tip is crimped to the outer peripheral surface of the connection end of the lower tube fitted into the lower end enlarged portion of the upper tube to more firmly fix the joined state.

Japanese Unexamined Patent Publication No. 53-103635 Japanese Unexamined Patent Publication No. 2014-1595 Japanese Patent Application Laid-Open No. 2015-21256 Jitsukaisho 60-182508 Gazette

The above-mentioned assembly-type concrete columns of Patent Document 1 and Patent Document 2 can be easily assembled and installed because the upper column and the lower column are connected by a tubular connecting metal fitting, but the outer surface of the concrete portion and the inside of the steel pipe can be easily assembled. Since it only comes into contact with the side surface, the upper pillar may unintentionally rotate with respect to the lower pillar. Further, if the outer diameter of the concrete portion and the inner diameter of the steel pipe portion are not manufactured accurately, it may cause rattling after assembly.

In the assembling type concrete column of Patent Document 3, since the upper column and the lower column are connected by a joint metal fitting and the tapered pipe is fitted, the upper column and the lower column are fixed to each other and rotation and rattling are less likely to occur. Although the strength of the joint is good, it is necessary to prepare dedicated end face metal fittings, joint metal fittings and tapered pipes, and the assembly work is complicated and the cost increases.

Since the assembly-type pipe body of Patent Document 4 is fixed by a set screw in a state where the upper pipe body and the lower pipe body are connected, the assembly work can be facilitated, and the pipe bodies are fixed to each other to rotate or rattle. However, the tip of the crimped screw may damage the lower tube.

Therefore, there has been a demand for an assembling-type concrete column that can more reliably fix the upper column to the lower column to prevent rotation and rattling, and can be easily assembled.

The present invention has been made in view of such a point, and an object of the present invention is to provide an assembling concrete column which can more reliably fix the upper column to the lower column and can be easily assembled.

The assembly-type concrete pillar according to claim 1 is integrally formed with a lower pillar having a columnar concrete portion formed of concrete, a columnar concrete portion formed of concrete, and the lower side of the concrete portion. In an assembly-type concrete pillar provided with an upper pillar having a tubular steel pipe portion into which the concrete portion of the lower pillar can be fitted, the lower pillar has an upper end portion of the concrete portion on an outer peripheral surface of the concrete portion. It has a concave groove portion formed linearly downward from the concrete portion and an end plate provided at the upper end portion of the concrete portion and having a concave end plate groove portion corresponding to the groove portion on the outer peripheral surface. The upper pillar has a fastening portion protruding from the inner peripheral surface of the steel pipe portion, and the groove portion and the fastening portion are in a state where the concrete portion of the lower pillar is fitted to the steel pipe portion of the upper pillar. It is engageable.

The assembled concrete column according to claim 2 is the assembled concrete column according to claim 1, wherein the fastening portion is formed by a weld bead.

The assembled concrete pillar according to claim 3 is the assembled concrete pillar according to claim 1 or 2, in which the concrete portion of the lower pillar is formed in a taper shape gradually increasing in diameter toward the lower side, and the upper pillar is formed. The steel pipe portion is formed in a tapered shape corresponding to the concrete portion of the lower column.

According to the present invention, the lower pillar has a groove portion downward from the upper end portion of the concrete portion on the outer peripheral surface of the concrete portion, and a concave end plate groove portion corresponding to the groove portion is provided on the outer peripheral surface at the upper end portion of the concrete portion. It has an end plate to be provided , the upper column has an inner peripheral surface fastening part of the steel pipe part, and these grooves and the fastening part are engaged in a state where the concrete part of the lower column is fitted to the steel pipe part of the upper column. Since it is possible, the upper pillar can be more reliably fixed to the lower pillar, and the upper pillar can be easily assembled.

It is a side view which shows roughly the structure of the assembly type concrete column which concerns on one Embodiment of this invention. Same as above It is a side view which shows the assembly state of the assembly type concrete column roughly. It is the top view of the lower column in the same-mentioned assembly type concrete column. It is a bottom view of the upper pillar in the same-mentioned assembly type concrete pillar.

Hereinafter, the configuration of one embodiment of the present invention will be described in detail with reference to the drawings.

In FIGS. 1 and 2, reference numeral 1 denotes a prefabricated concrete pillar, which is used as a pillar for installing equipment such as a communication antenna or a lighting fixture, for example.

The assembly-type concrete pillar 1 includes a lower pillar 2 built in the ground of the installation surface and an upper pillar 3 connected to the upper side of the lower pillar 2. That is, in the assembled state of the assembling type concrete pillar 1, the upper pillar 3 is arranged so that the upper pillar 3 is arranged on the upper side which is one side in the axial direction and the lower pillar 2 is arranged on the lower side which is the other side in the axial direction. And the lower pillar 2 are connected.

The lower pillar 2 has a lower pillar concrete portion 4 as a columnar concrete portion formed of concrete.

The lower pillar concrete portion 4 is formed in a tapered shape gradually increasing in diameter from the upper end portion to the lower end portion downward.

As shown in FIGS. 1 and 3, the lower pillar concrete portion 4 is formed with a groove portion 5 having a concave shape in a cross-sectional view and a linear groove portion in a side view on the outer peripheral surface thereof. That is, the linear groove portion 5 is provided downward from the upper end portion of the lower pillar concrete portion 4.

When the lower pillar concrete portion 4 is molded, the groove portion 5 is formed by installing, for example, a metal groove portion molded part at a position corresponding to the upper end of the lower pillar concrete portion 4 in the formwork, thereby forming the lower pillar concrete portion. It is formed by the molding of 4.

When an end plate (not shown) is provided at the upper end of the lower pillar 2, the end plate has a concave end plate groove portion that is continuous with the groove portion 5 at a portion corresponding to the groove portion 5 on the outer peripheral surface thereof. Is preferable.

The upper pillar 3 is a tubular steel pipe portion integrally provided on the lower side of the upper pillar concrete portion 6 which is the other side in the axial direction of the upper pillar concrete portion 6 as a columnar concrete portion formed of concrete. Has 7 and.

The upper pillar concrete portion 6 is formed in a tapered shape gradually increasing in diameter from the upper end portion to the lower end portion downward.

The steel pipe portion 7 is a fitting located on the upper side, which is one side in the axial direction, and is integrated with the concrete portion 6 of the upper column, and is located on the lower side, which is the other side of the integrally molded portion 8 in the axial direction. It has a joint portion 9.

When the upper pillar 3 is molded, the integrally molded portion 8 is arranged in advance at a corresponding portion in the formwork and is integrally molded with the upper pillar concrete portion 6. That is, the steel pipe portion 7 is integrated by integrally molding the integrally molded portion 8 with the upper pillar concrete portion 6 of the upper pillar 3 in the formwork. The outer peripheral surface of the integrally molded portion 8 integrated with the upper pillar concrete portion 6 has a tapered shape continuous with the outer peripheral surface of the upper pillar concrete portion 6.

The fitting portion 9 can be externally fitted to the upper end portion of the lower pillar concrete portion 4 of the lower pillar 2. That is, for example, by lowering the upper pillar 3 from the suspended state toward the lower pillar 2, the lower pillar concrete portion 4 of the lower pillar 2 is inserted and fitted into the fitting portion 9 of the steel pipe portion 7.

As shown in FIGS. 1 and 4, the inner peripheral surface of the fitting portion 9 is provided with a fastening portion 10 that protrudes from the inner peripheral surface and can be engaged with the groove portion 5.

The fastening portion 10 has a straight bar shape having a width corresponding to the groove portion 5, and is provided so as to face upward from the lower end portion of the fitting portion 9.

Here, when the steel pipe portion 7 is formed of, for example, a single steel plate, it is formed into a tubular shape by abutting both ends of the steel plate and welding the abutted portions. Then, it is preferable that the fastening portion 10 is formed by the welding bead generated by the welding.

Next, the operation and effect of the above embodiment will be described.

When constructing the assembly type concrete pillar 1, first, the lower pillar 2 is built in the ground which is the installation surface.

Further, the upper pillar 3 is lifted by, for example, a building pillar wheel, and the upper pillar 3 is positioned with respect to the lower pillar 2 so as to align the position of the fastening portion 10 of the upper pillar 3 with the position of the groove portion 5 of the lower pillar 2. The upper pillar 3 is lowered so as to insert the upper end portion of the lower pillar 2 into the fitting portion 9 in the steel pipe portion 7 of the upper pillar 3.

As the upper pillar 3 descends, the fastening portion 10 moves downward in the groove portion 5, and the tapered inner peripheral surface of the fitting portion 9 of the upper pillar 3 is below a substantially same gradient. It is fitted in close contact with the outer peripheral surface of the lower pillar concrete portion 4 of the pillar 2. That is, in a state where the lower pillar concrete portion 4 of the lower pillar 2 and the steel pipe portion 7 of the upper pillar 3 are fitted and the lower pillar 2 and the upper pillar 3 are connected (assembled state), the groove portion 5 and the fastening portion 10 And are engaged.

According to the assembly type concrete column 1, the lower column 2 has a groove 5 on the outer peripheral surface of the lower column concrete portion 4, and the upper column 3 has a fastening portion 10 on the inner peripheral surface of the steel pipe portion 7. Since the groove 5 and the fastening portion 10 can be engaged with the lower column concrete portion 4 fitted to the steel pipe portion 7, the lower column concrete portion 4 and the steel pipe portion 7 are fitted and fitted in the assembled state. Not only that, the groove 5 and the fastening portion 10 are engaged with each other so that the upper pillar 3 can be more reliably fixed to the lower pillar 2, for example, preventing the upper pillar 3 from rotating or rattling with respect to the lower pillar 2. can.

Further, the upper pillar 3 is simply lifted, the groove portion 5 and the fastening portion 10 are aligned, and the upper pillar 3 is lowered so that the lower pillar concrete portion 4 is inserted into the steel pipe portion 7 of the upper pillar 3. The lower pillar concrete portion 4 and the fitting portion 9 can be fitted, and the groove portion 5 and the fastening portion 10 can be engaged with each other, so that they can be easily assembled.

Further, by forming the fastening portion 10 with a weld bead when forming the steel pipe portion 7 using a steel plate, it is not necessary to prepare materials and tools for forming the fastening portion 10, and it is a minimum. It can be manufactured efficiently with the number of operations.

The groove portion 5 is formed in a straight line downward from the upper end portion of the lower pillar concrete portion 4, so that when the upper pillar 3 and the lower pillar 2 are connected, the upper pillar 3 is relative to the lower pillar 2. Since the groove portion 5 and the fastening portion 10 can be engaged with each other simply by lowering the rod straight, the work can be easily performed without complicating the work.

By providing the end plate groove portion corresponding to the groove portion 5 in the end plate provided at the upper end portion of the lower pillar 2, when the lower pillar 2 and the upper pillar 3 are connected, the fastening portion 10 provides the end plate groove portion. Since it passes through and engages with the groove portion 5, the end plate does not hinder the engagement between the groove portion 5 and the fastening portion 10, and the assembly work can be easily performed.

The lower pillar concrete portion 4 is formed in a tapered shape gradually increasing in diameter toward the lower side, and the steel pipe portion 7 is formed in a tapered shape corresponding to the lower pillar concrete portion 4, so that the lower pillar 2 and the upper pillar 3 are formed. The lower column concrete portion 4 can be easily inserted into the steel pipe portion 7 and the assembly work can be easily performed.

In the above embodiment, the lower pillar concrete portion 4, the upper pillar concrete portion 6 and the steel pipe portion 7 have a tapered configuration, but the configuration is not limited to this, and the lower pillar concrete portion 4 and the steel pipe are not limited to such a configuration. Any structure may be used as long as it can be fitted with the portion 7.

The groove portion 5 is not limited to the configuration formed downward from the upper end portion of the lower pillar concrete portion 4, and can be engaged with the fastening portion 10 in a state where the lower pillar concrete portion 4 and the steel pipe portion 7 are fitted. If the configuration is simple, the arrangement can be changed as appropriate.

Further, the configuration is not limited to the configuration in which only one groove portion 5 is provided on the outer periphery of the lower pillar concrete portion 4, and the number of the groove portions 5 can be appropriately determined.

The fastening portion 10 is not limited to the configuration formed by the weld bead, and may be configured so as to be able to engage with the groove portion 5 in a state where the lower column concrete portion 4 and the steel pipe portion 7 are fitted.

1 Assembled concrete pillar 2 Lower pillar 3 Upper pillar 4 Lower pillar concrete part as concrete part 5 Groove part 6 Upper pillar concrete part as concrete part 7 Steel pipe part
10 Fastener

Claims (3)

A lower pillar with a columnar concrete part formed of concrete,
An assembly type including a columnar concrete portion formed of concrete and an upper pillar having a tubular steel pipe portion integrally provided under the concrete portion and into which the concrete portion of the lower pillar can be fitted. In concrete columns
The lower pillar is provided on the outer peripheral surface of the concrete portion with a concave groove portion formed linearly downward from the upper end portion of the concrete portion and on the upper end portion of the concrete portion, and corresponds to the groove portion on the outer peripheral surface. With an end plate having a concave end plate groove ,
The upper column has a fastening portion protruding from the inner peripheral surface of the steel pipe portion.
The groove portion and the fastening portion are assembly-type concrete pillars, characterized in that the concrete portion of the lower pillar can be engaged with the concrete portion of the lower pillar in a state of being fitted to the steel pipe portion of the upper pillar. The assembled concrete column according to claim 1, wherein the fastening portion is formed of a weld bead . The concrete part of the lower pillar is formed in a taper shape with a gradually larger diameter toward the bottom.
The assembly-type concrete pillar according to claim 1 or 2 , wherein the steel pipe portion of the upper pillar is formed in a tapered shape corresponding to the concrete portion of the lower pillar.

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