KR101563159B1 - Pile coupler - Google Patents

Abstract

The present invention relates to a method and apparatus for quickly joining joints of a file and a file located at upper and lower portions of a pile, without using concrete for a foundation at the time of constructing a pile for supporting a structure such as photovoltaic power generation And to provide a file coupler that can be used.
The file coupler according to the present invention is for connecting two files having different diameters, wherein the file coupler includes a round portion having a semi-circular cross-section and a plurality of semicircular cross- A flat plate portion having bolt holes formed along its longitudinal direction is integrally formed, and the round portion includes a large-diameter portion formed to have a predetermined length; A small diameter portion formed to a predetermined length and having a diameter smaller than that of the large diameter portion; And the inclined portion integrally connecting the large-diameter portion and the small-diameter portion. The pair of pile couplers are connected to each other by fastening the fastening means through bolt holes formed in the flat plate portions, do.

Description

Pile coupler

The present invention relates to a pile coupler, and more particularly, to a pile coupler which can rapidly join a connecting portion of a pile for supporting a structure such as photovoltaic power generation, And more particularly, to a file coupler and a height adjustment method for a file using the same, which can easily adjust the height and inclination of a plurality of supports.

In recent years, interest in and investment in solar energy has increased due to concern about depletion of fossil fuels. In the case of small-scale photovoltaic power generation installed on roofs or roofs of buildings, most photovoltaic power generation equipment is mostly used in hills, slope fields, When installing a solar power generator on a flat ground after a civil engineering work on an uneven terrain, it is very inefficient because it takes a lot of time for the civil works and the construction period is too long. Therefore, it is necessary to use the sloped terrain as it is so that no cost is incurred except the power generation device.

However, in addition to the photovoltaic power generation facilities, ground structures such as trails or stairs made of boards or decks installed on the slopes must support the lower part of the ground. In order to fix the ground, the lower part of the ground is installed on the ground Fixing to foundation concrete is the most traditional method. However, in order to install foundation concrete, it is necessary to excavate the ground to a certain depth and to perform many processes such as formwork installation, framing installation, concrete casting, concrete curing, Not only does it require a lot of manpower, but it also destroys the environment.

In order to solve such a problem, a technology such as patent registration No. 911863, "Fundamentals for installing a solar panel and its construction method" has emerged. Since the ground is made of an inclined surface like a mountain, This is a technique for installing a photovoltaic device in a place, in which a plurality of concrete piles are fixed on a perforated ground, the top surface of the pile is leveled, and then a solar panel is installed. However, this technique does not require work such as excavation of the ground and formwork, but after drilling the ground and fixing the files, the rails are installed so that the tops of the files are connected to each other, and the solar panels are sloped There is a problem in that it is very difficult to adjust the height of the upper end of the plurality of files in the inclined terrain as well as the unnecessary work and facilities.

On the other hand, a file made only of steel without concrete is appeared as in Patent Registration No. 1242476 "Method of building foundation of ground structure and member for building foundation ", and the file (foundation building member) The post portion located on the upper side is cylindrical in shape and the flange portion is integrally formed on the upper end of the post portion. Such a file does not require ground excavation and formwork installation, so it can reduce some of the work process, but there are many problems as follows.

First, if a plurality of struts are installed on the inclined terrain by connecting the upper and lower files together and one structure is fixed on the upper part of the plurality of struts, the height and slope of each strut should be aligned exactly However, there is a problem that it is very difficult for an expert to match it.

Secondly, a support for installing a structure is formed as an upper file and a lower file, respectively, and they are welded or joined together by fastening flange portions. At this time, the flange portions formed at the upper end and the lower end of the cylindrical- So that the height of the support should be precisely adjusted. However, there is a problem that it is almost impossible to precisely match the height and slope of a plurality of pillars because not only the topography is inclined but also the heights protruding to the ground of each lower pile embedded in the ground are different from each other.

Third, the flange must be welded to the end of the post of each file, and after the welding, the welding part must be plated to prevent the file from being corroded. .

SUMMARY OF THE INVENTION The present invention has been made to solve the above problems, and it is an object of the present invention to provide a pile for supporting a structure such as a solar power generator, And a file coupler that can quickly perform a joining operation for joining a file and a file located at a lower portion of the file.

It is a further object of the present invention to provide a structure in which a plurality of struts are installed by connecting upper and lower files to a terrain where land flattening can not be performed such as a hill, The present invention is to provide a method of adjusting a height of a file using a file coupler that can easily adjust the height of the entire pillar by simply adjusting the height of the piles coupled by using the file coupler of the present invention.

In order to solve the above problems, a file coupler according to the present invention is for connecting two files having different diameters, wherein the file coupler includes a round section having a semicircular cross section, And a bolt hole formed along the longitudinal direction, the round portion being integrally formed with the large-diameter portion having a predetermined length; A small diameter portion formed to a predetermined length and having a diameter smaller than that of the large diameter portion; And a tapered portion integrally connecting the large-diameter portion and the small-diameter portion. The large-diameter portion and the small-diameter portion are each formed with a compression portion for compressing the outer peripheral surface of the pile when the pile coupler is fastened, Wherein the pile coupler is provided with a pair of fasteners which are fastened to each other through bolt holes formed in the flat plate portions and are coupled to each other to connect the pile .

Preferably, a slot may be formed along the apex portion of the protrusion.

Preferably, the connecting portion connecting the round portion and the flat plate portion is further provided with a reinforcing portion protruding from the outer side along the longitudinal direction.

A method for adjusting a height of a file using a file coupler according to the present invention includes: fixing a position by putting a lower file on a ground; Placing the large-diameter portion inner circumferential surface of the round portion of the file coupler so as to be in contact with the outer peripheral surface of the lower end portion of the upper file to fasten the large-diameter portions of the pair of pile couplers with the fastening means; The upper portion of the upper and lower portions of the pile coupler is fastened to the lower portion of the lower portion of the pile coupler and the upper portion of the lower portion of the pile is inserted into the smaller portion of the pile coupler, The other upper and lower files are fastened together and the entire height of the file is adjusted by adjusting the upper position of the lower file while fastening the small files together.

The pile coupler according to the present invention having the above-described characteristics is used for installing piles of various structures such as photovoltaic power generation, wind power generation, road sign, etc. When a file for supporting the structure is constructed, Since it does not destroy the environment, it is environmentally friendly as well as the construction period is shortened remarkably. In addition, the flange and the flange are welded to the upper and lower ends of the file, respectively. Instead of connecting the flanges to each other, the upper and lower ends of the file and the ends of the file are wrapped with a filer coupler, Due to the joining operation, the connecting operation itself is very simple and quick, and there is no need to form flanges and ribs, so there is no need to weld them and do not need to plate them after welding, No need.

Since the upper and lower diameters of the pile coupler according to the present invention are different, it is possible to move the pile which is located on the smaller diameter side by a necessary length toward the larger diameter pile while performing the clamping operation. Accordingly, in the method of adjusting the height of a file using a file coupler according to the present invention, when a plurality of pillars are installed on a terrain where land flattening is not possible, such as a hill top, The file height and inclination can be easily adjusted by moving the position of the small diameter file while fastening the coupling part of the coupling part of the coupling part of the coupling part of the coupling part. Thus, the manpower, the period and the cost for the construction are saved and shortened remarkably.

Fig. 1 is a view showing a state in which a structure is installed at the upper end of a pillar secured with a pile coupler of the present invention.
2 is a view showing a file coupler.
3 is a view showing a state in which the height of a support is adjusted by a pile coupler.

The most important technical feature of the file coupler and the height adjustment method of a file using the file coupler according to the present invention is that a flange is formed at a connecting portion of a file and a file, And the coupling between the upper and lower parts of the pile coupler are made different, so that a small diameter file can be moved by a required length toward a large diameter file during joining operation So that it is very easy to adjust the height and inclination of the entire file.

In the specification of the present invention, "holding" may be a pillar consisting of only one pile, and when two or more files are connected, it means that one file is connected to one pillar.

The file coupler 20 of the present invention basically connects two files having different diameters. It is also possible to connect two files having the same diameter, and the cross-sectional shape of the file is generally circular, It may not necessarily be circular but may have a polygonal cross section. A structure 30 such as a photovoltaic power generation device is installed at the upper end of a plurality of columns formed by connecting to a file coupler 20.

The pair of file couplers 20 of the same shape are fastened while being faced to each other by fastening means. Each of the pile couplers 20 has a round portion 21 having a semicircular cross section, A plurality of bolt holes 221 are formed along the circumferential direction of the round portion 21 and the flat portion 22 protruding outward from both ends of the semicircular shape of the round portion 21 are integrally formed, and the flat portions 22 are abutted against each other, And is fastened by fastening means such as a bolt and a nut through the formed bolt hole 221.

The round portion 21 basically includes a large diameter portion 211 and a small diameter portion 212 and an inclined portion 213 integrally connecting them. The large diameter portion 211 is formed in a semicircular shape with a predetermined length and the small diameter portion 212 has a semicircular shape in cross section and is formed to have a constant length. The large diameter portion 211 and the small diameter portion 212 It is expressed by distinguishing whether the diameter is relatively large or not. When the file is vertically positioned, when the file having a large diameter is located at the upper portion, the large-diameter portion 211 is located at the upper side, the small-diameter portion 212 is located at the lower position, The position where the large diameter portion 211 and the small diameter portion 212 are placed is changed.

The crimping portion 24 is formed so as to compress the outer circumferential surface of the pile by the coupler 20 when the pile coupler 20 is fastened. Respectively. 2, the crimping portion 24 is formed by a protrusion 241 having a large diameter portion 211 and a small diameter portion 212 of a round portion 21 protruding inward along a semicircular shape, A slot 242 may be formed along the apex portion of the protrusion 241. In addition, the protruding portion of the crimping portion 24 does not have a constant length, and a plurality of protruding portions may be formed in a point shape such as a circle or an ellipse

Since the portion of the connecting portion 23 to which the round portion 21 made of a steel plate and the flat plate portion 22 are connected is bent and weakened in strength, when the large force is applied while the pile coupler 20 is tightened, It is preferable to form the reinforcing portion 231 because the reinforcing portion 231 may be deformed, cracked or broken. The reinforcing portion 231 is formed with embossed shapes protruding outward along the longitudinal direction of the pile coupler 20 at regular intervals.

A method for adjusting a height of a file using a file coupler according to the present invention will now be described. First, after a step S1 of fixing a position by lowering a lower file 10 on a ground, The inner circumferential surface of the large-diameter portion 211 is positioned so as to be in contact with the outer circumferential surface of the lower end portion of the upper pile 15 in the round portion of the pile 20 and the step (S2) of fastening the large- The upper file in which the large diameter portions 211 of the coupler 20 are fastened is positioned above the lower file 10 and the lower file upper portion is inserted into the small diameter portion 212 of the pile coupler, And the upper file 15 and the lower file 10 are fastened through the fastening step S3. Of course, steps S1 and S2 do not matter if the order is changed.

The upper end of the lower pile 10 having a relatively small diameter is adjusted while the small diameter portions 212 are fastened while the pile coupler 20 is fastened to adjust the overall height of the pile. 3, a tilted step is formed at a portion where the structure of the pile coupler 20 leads from the lower end of the large diameter portion 211 to the inclined portion 213. Thus, the upper pile 15 Is fastened to the large diameter portions 211 of the pair of pile couplers by fastening means.

The upper file having the large diameter portions 211 of the pile couplers fastened to each other is positioned on the lower side of the lower pile 10 having a relatively small diameter and the upper end of the lower pile 10 is placed on the small diameter portion 212 of the pile coupler . In this case, the upper end of the lower pile 10 may be fixed to the upper end of the small-diameter portion 212 of the pile coupler by considering the height of the pillar 10, (See FIG. 3 (b) of FIG. 3), the entire height of the support can be easily adjusted.

The upper file 15 may be circular or polygonal in cross section and the lower file 10 is preferably circular rather than polygonal because the lower portion is fixed by being buried in the ground. The upper portion may have a circular cross section and the lower portion may have a spiral shape. In the case of the lower spiral shape, since the lower file 10 is rotated while the file is piled up, there is no noise like an impact sound and the file can be firmly fixed even if there is no rock on the ground.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is to be understood that the invention is not limited to the disclosed exemplary embodiments. Therefore, the embodiments disclosed herein are for the purpose of describing rather than limiting the technical spirit of the present invention, and the technical scope of the present invention is not limited by these embodiments. The scope of protection of the present invention should be construed according to the following claims, and all technical ideas within the scope of equivalents thereof should be construed as falling within the scope of the present invention.

10: lower file 15: upper file
20: File coupler 21: Round section
211: large-diameter portion 212: small-
213:
22: flat plate portion 221: bolt hole
23: connection part 231: reinforcement part
24: Crimp portion 241:
242: slot
30: Structure

Claims (6)

A file coupler for connecting two files having different diameters,
The file coupler includes:
A flat portion integrally formed with a round portion protruding from both ends of the semicircular shape of the round portion and formed with bolt holes along the longitudinal direction,
In the round section,
A large-diameter portion formed in a predetermined length;
A small diameter portion formed to a predetermined length and having a diameter smaller than that of the large diameter portion;
An inclined portion integrally connecting the large-diameter portion and the small-diameter portion;
And,
The large-diameter portion and the small-diameter portion are each formed with a compression portion for compressing the outer circumferential surface of the pile when the pile coupler is fastened to increase the coupling force. The compression portion has a semicircular shape protruding inward And is formed as a protrusion,
Wherein the pile coupler is configured to have a pair and to fasten the fastening means through the bolt holes formed in the flat plate portions and to couple the piles to each other to connect the piles.
delete The method according to claim 1,
Wherein a slot is formed along a vertex portion of the protrusion.
The method according to claim 1,
And a reinforcing portion protruding from the outer side along the longitudinal direction is further formed in the connection portion where the round portion and the flat plate portion are connected.
delete delete

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