KR101083692B1 - Reinforcing Apparatus for rafter of vinyl house - Google Patents

Abstract

The present invention relates to a rafter reinforcement device of a vinyl house, and more particularly, to a rafter reinforcement device of a vinyl house for preventing the collapse of the vinyl house by snow load exceeding the design load installed at the bent portion of the rafter. will be.

According to a preferred embodiment of the present invention, a plurality of rafters are formed by bending multiple steel pipes to be a ridged protruding roof or an arched roof and are installed across the rafters to fix the positions of the rafters. In a vinyl house frame composed of crossbars, at least one of the bent portions of the rafter has a fitting hole having a hole open at one side to fit the rafter to be formed at the top to support the support portion and the rafter to support the bending point. Grooved support holes are formed at the top to connect the pair of supporting parts supporting the rafters at two points spaced at equal intervals from the bending point, and the support and the bottom of the pair of supporting parts are connected together. Rafter reinforcement device of a plastic house, characterized in that it comprises a connection to be It is a ball.

Green house, rafter, reinforcement, sag, collapse

Description

Reinforcing Apparatus for rafter of vinyl house}

The present invention relates to a rafter reinforcement device of a vinyl house, and more particularly, to a rafter reinforcement device of a vinyl house for preventing the collapse of the vinyl house by snow load exceeding the design load installed at the bent portion of the rafter. will be.

A vinyl house is a frame made of steel pipes or steel rigid PVC pipes and covered with a light-transmissive coating material to be used for the cultivation of vegetables, flowers or fruit trees. Since vinyl chloride film is used as a covering material, it is called a vinyl house. . Recently, in order to improve resistance to external forces such as wind load and snow load, lightweight steel frame is used instead of pipe, and polyethylene film is mainly used instead of vinyl chloride film.

As shown in FIG. 6, the frame of the greenhouse is composed of steel pipes and is provided with a plurality of crossbars 20 installed across the rafters 10 to fix the positions of the rafters 10 and the rafters 10 installed at regular intervals. It consists of. The farmhouse-guided vinyl house design book (published by Rural Development Administration, 2003) suggests 13 standard vinyl houses according to the width, height, rafters spacing, and pipe size of the greenhouse, and snowfall of 9.5cm and wind speed of 17.4m / It is structured to withstand the degree of s and is structurally complemented by referring to the structure analysis by the rafter spacing and pipe standard in strong wind and snowy areas. In addition, the roof frame is based on the ridge projecting type (peach type) shown in the figure, and it is prescribed that it can be processed and installed in an arch shape.

 However, according to the above design, it is not appropriate to supplement by simply adjusting the spacing of rafters or increasing the size of pipe for strong wind or extreme snow, and if the snow load or wind load exceeds the design load, excessive deformation occurs and collapses. Frequent is the reality.

The present invention has been made in view of the problems of the prior art, it is an object of the present invention to provide a reinforcement device that can greatly reduce the sag by increasing its rigidity by simply adding to the bent portion of the rafter constituting the existing vinyl house frame. .

Another problem to be solved by the present invention is to provide a reinforcing device that can suppress the deflection as much as possible when applied to the external force by introducing the tensile force in advance to the bending portion bent in the rafters.

According to a preferred embodiment of the present invention, a plurality of rafters are formed by bending multiple steel pipes to be a ridged protruding roof or an arched roof and are installed across the rafters to fix the positions of the rafters. In a vinyl house frame composed of crossbars, at least one of the bent portions of the rafter has a fitting hole having a hole open at one side to fit the rafter to be formed at the top to support the support portion and the rafter to support the bending point. Grooved support holes are formed at the top to connect the pair of supporting parts supporting the rafters at two points spaced at equal intervals from the bending point, and the support and the bottom of the pair of supporting parts are connected together. Rafter reinforcement device of a plastic house, characterized in that it comprises a connection to be It is a ball.

According to another embodiment of the present invention, the connecting portion is bent so that its lower surface is symmetrical with the shape of the bent portion when coupled to the bent portion of the rafter.

According to another embodiment of the present invention, the pair of supporting portions and the connecting portion are integrally formed and the support portion is a separate member and joined to the connecting portion.

According to another embodiment of the present invention, the support portion, the connection pipe is machined on the inner surface of one side of the screw on one side and the other side of the screw on the other side relative to the center of the entire length, the lower end of the connecting portion is connected to the upper end The outer surface further includes a fixed part which is screwed to be screwed to the connecting pipe, and a movable part which is screwed to the lower surface of the lower part to be screwed to the connecting pipe and supports the support point, when the connecting pipe is rotated in one direction, the movable part is moved. The overall length they make is configured to be short, and the fitting is joined to the upper end of the movable part.

According to another suitable embodiment of the present invention, a plurality of rafters and rafters, which are formed by bending multiple steel pipes to be a ridge protrusion roof or an arcuate roof and are installed at regular intervals, are installed across the rafters. In a vinyl house frame composed of a plurality of crossbars, at least side of the bent portion of the rafters, the supporting portion, the rafters are formed at the top to support the bending point is formed with a groove formed in the upper end to support the rafters A fitting hole having a hole open at one side to be formed is formed at the top, and a pair of supporting parts supporting the rafters at two points spaced at equal intervals from the bending point, and the support and the bottom of the pair of supporting parts are joined together And a pair of supporting portions, each having a center of the full length On one side, one side of the screw and one side of the opposite side of the connecting pipe is machined on the inner surface, the lower end is connected to the connecting portion, the fixing portion is screwed to be screwed into the connecting pipe on the outer surface, and the connecting pipe It further comprises a movable part that is screwed on the outer surface of the lower end portion to be screwed on the support and supports the support point, when the connecting pipe is rotated in any one direction, the movable part moves to shorten the overall length of the vinyl house, characterized in that configured to shorten Is provided.

According to the present invention, by simply adding to the bent portion of the rafter constituting the existing vinyl house frame, it is possible to greatly reduce the sag by increasing its rigidity. In addition, by introducing a tensile force in advance to the bending portion bent in the rafters can be reduced to the maximum sag when applied to the external force.

Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings. In the drawings, the same components or parts are denoted by the same reference numerals as much as possible, and detailed descriptions of related known functions or configurations are omitted.

Figure 1a is a front view showing a state before the rafter reinforcement device is coupled to the rafters according to the present invention, Figure 1b is a front view showing a state after the rafter reinforcement device is coupled.

First, referring to Figure 1a, the rafters 10 constituting the vinyl house frame is formed by multi-stage bending of the steel pipe to be a ridge projecting roof. In other words, a single steel pipe is bent three times so that the roof becomes a ridge-protruding shape, and the vertical portion on both sides and the inclined portions extending inclined from the upper end of the vertical portion. Therefore, the bending point 111c where the left vertical portion 11 and the upward slope 12 and the downward slope 13 and the right vertical portion 14 meet, the upward slope 12 and the downward slope, based on the drawing. Based on the bending point 112c where the part 13 meets, each of the bending parts 111 and 112 bent at a constant curvature on both sides is formed. In the present specification, the bent portion formed by the left vertical portion and the upward inclined portion and the downwardly inclined portion and the right vertical portion is called the side bent portion 111 and the bent portion formed by the upwardly inclined portion and the downwardly inclined portion is called the roof bent portion 112. . Meanwhile, in the drawing, since the roof is a ridge-protrusion type, two side bent portions 111 and one roof bent portion 112 are formed, but when the roof is arched, there are only two side bent portions 111 and even in the case of an arch type. It goes without saying that the present invention can be applied.

The reinforcing device 30 is coupled to the bent portions of the rafter constructed as shown in FIG. 1B. The reinforcement device 30 is coupled to the bent portion of the rafter to prevent the bending portion is deformed by the external force to prevent the rafter from sagging as a whole. When the reinforcing device is coupled, the results of analyzing the deflection in each part of the rafter using the structural analysis program MIDAS are shown in FIGS. 2A to 2C. The maximum deflection is 110.9mm when there is no reinforcement device by applying vertical load (snow load), while the reinforcement device is installed at the side bend and roof bend at 61.0mm when the reinforcement is installed at the side bend. One case was 40.1 mm. In addition, the sagging of each part of the rafter shows that sufficient reinforcing effect can be obtained even when the reinforcing device is installed only at the side bends.

3 is a perspective view showing the rafter reinforcement device according to an embodiment of the present invention.

Referring to FIG. 3, the reinforcement device 30 according to the present embodiment includes a support part 310, a pair of support parts 320a and 320b, and a connection part 330 integrally connecting them. The support part 310 is a member for supporting a bending point, and a fitting hole 311 having a hole 312 at which one side is opened so that the rafter is fitted therein is formed at an upper end thereof. The opening of the hole 312 of the fitting hole 311 is slightly smaller than the diameter of the rafters and the inside is formed slightly larger than the diameter of the rafters so that the rafters are forcibly inserted into the holes so that they can be easily attached and secured. The support parts 320a and 320b are formed in a pair so as to be symmetrical with each other based on the support part 310. At the upper end of the support portion, a support hole 321 having grooves formed thereon to support the rafters is formed. It is preferable that the groove formed in the support hole 321 has a shape corresponding to the shape of the steel pipe forming the rafter. The rafters inserted into the fitting hole 311 of the support 310 are supported by a pair of supporting portions at two points spaced at equal intervals from the bending point. The lower end of the support part 310 and the pair of support parts 320a and 320b are bonded to the connection part 330. The connecting portion 330 is preferably bent so that the bottom surface thereof is symmetrical to the shape of the bent portion when coupled to the bent portion of the rafter to more effectively resist external forces. And the support portion 310, except the fitting hole 311, a pair of supporting portion (320a, 320b) and the connecting portion 330 except for the support 321 is composed of a single member through the die casting manufacturing method and the support (310) Welding the fitting hole 311 on the upper end of the pair of supporting parts 320a, 320b by welding the support 321 on the upper end of the reinforcement apparatus according to the present invention can be configured. However, the pair of support parts 320a and 320b and the connection part 330 may be integrally formed, and the support part 310 may be formed as a separate member and bonded to the connection part 330.

Figure 4 is a perspective view showing a part of the rafter reinforcement device according to another embodiment of the present invention.

As shown in FIG. 4, the rafter reinforcement device 30a according to the present embodiment has a pair of supporting parts 320a and 320b and the connection part 330 formed integrally, and the support part 310 is formed as a separate member. Bonded to the connecting portion 330, wherein the support 310 is configured as follows. That is, the support 310 is composed of a connecting pipe 313, a fixed portion 314 and a movable portion 315. The connection pipe 313 has a left screw on one side and a right screw on the other side of the center of the entire length, respectively. The fixing part 314 is connected to the lower end of the connection part 330 and the left hand thread is processed to be screwed to the connection pipe 313 on the outer surface of the upper end. The fixing part 314 may be integrally formed with the connection part 330. In addition, the movable part 315 is machined with a right-hand screw on the outer surface of the lower end so as to be screwed into the connecting pipe 313, and a fitting hole is joined to the upper end thereof. Therefore, when the connection pipe 313 is rotated in the counterclockwise direction, the overall length formed by the coupling of the fixed part, the connection pipe, and the movable part is reduced. The direction of the screws formed on the fixed part and the movable part is not limited to those described above, and the rotating part of the connection pipe 313 may be formed such that the length of the fixed part, the connecting pipe and the movable part is reduced. In order to facilitate the rotation of the connection pipe 313, as shown in the drawing, the connection pipe 313 may be previously drilled and rotated using a T-shaped tool. In this way, the length of the support part 310 is variable so that the support part and the support part of the reinforcement device more reliably support the bends of the rafters corresponding to the shape of the bends of the rafters, thereby more effectively preventing the bent parts from being deformed by external force. have.

Figure 5 is a perspective view showing a part of the rafter reinforcement device according to another embodiment of the present invention.

As shown in FIG. 5, the rafter reinforcement device 30b according to the present embodiment is configured such that the length of the support part 310 is fixed and the length of the pair of support parts 320a and 320b is variable. In the embodiment shown in FIG. 4, the length of the support part 310 is varied so that the support part and the support part of the reinforcement device more reliably support the bend part of the reinforcement device corresponding to the shape in the bend ripple part. The length of the support portion 320a, 320b of the variable. The configuration of varying the length is the same as the length adjustment configuration of the support portion 310 shown in FIG. 4. That is, the supporting part 320a, 320b is composed of a connecting pipe 323, a fixed part 324 and a movable part 325, respectively. The connection pipe 313 has a left screw on one side and a right screw on the other side of the center of the entire length, respectively. The fixing part 324 is connected to the lower end portion of the connecting portion 330, and the left side thread is processed to be screwed to the connecting pipe 323 on the outer surface of the upper end. The fixing part 324 may be integrally formed with the connection part 330. The movable part 325 is machined with a right hand thread on the outer surface of the lower end so as to be screwed to the connection pipe 323, and the support hole 321 is joined to the upper end thereof. Therefore, when the connection pipe 323 is rotated in the counterclockwise direction, the overall length of the fixed part, the connection pipe and the movable part is reduced. The direction of the screws formed on the fixed part and the movable part is not limited to those described above, and the rotating part of the connection pipe 323 may be formed such that the length of the fixed part, the connecting pipe and the movable part is reduced. Meanwhile, in the present embodiment, unlike the above-described embodiments, the support hole 321 is coupled to the upper end of the support 310, and the fitting hole 311 is coupled to the upper end of the support 320a and 320b, respectively.

Although the present invention has been described above with reference to the drawings, the present invention is not limited to the embodiments and drawings disclosed herein, and various modifications may be made by those skilled in the art within the scope of the technical idea of the present invention. Can be done.

The following drawings, which are attached in this specification, illustrate the preferred embodiments of the present invention, and together with the detailed description thereof, serve to further understand the technical spirit of the present invention. It should not be construed as limited.

1 is a front view showing a state in which the rafter reinforcement device is coupled to the rafter according to the present invention.

Figure 2 is a perspective view showing a rafter reinforcement device according to an embodiment of the present invention.

Figure 2 is a perspective view showing a modification of the rafter reinforcement device according to an embodiment of the present invention.

3 is a perspective view showing a rafter reinforcement device according to another embodiment of the present invention.

Figure 4 is a perspective view showing a modified example of the rafter reinforcement device according to another embodiment of the present invention.

5 is a perspective view showing a modified example of the rafter reinforcement device according to another embodiment of the present invention.

6 is a perspective view showing a conventional vinyl house frame.

Claims (5)

It is formed by bending steel pipes in multiple stages to be a ridged roof or arched roof, and is arranged in a vinyl house frame composed of a plurality of rafters installed at regular intervals and a plurality of cross bars installed across the rafters to fix the positions of the rafters. In At least the side bends of the bends of the rafter, Support portion for supporting the bending point is formed in the upper end of the fitting hole having a hole that one side is opened so that the rafter is fitted, A pair of supporting portions are formed at the top to support the rafters to support the rafters at two points spaced at equal intervals from the bending point, and A support portion and a pair of base portions joined to each other so that they are integrally connected, The pair of supporting portions and the connecting portion are integrally formed, and the supporting portion is a separate member and joined to the connecting portion, The support part, Connecting pipes in which one side is screwed on one side and the other side is screwed on the inner side based on the center of the entire length, A fixing part which is screwed so that its lower end is connected to the connecting part and is screwed to the connecting pipe on the outer surface of the upper part, and The screw is machined on the outer surface of the lower end to be screwed to the connecting pipe and further includes a movable part for supporting the support point. When the connecting pipe is rotated in one direction, the movable part moves to shorten the overall length of the connecting pipe. The fitting hole is a rafter reinforcement device of a plastic house, characterized in that bonded to the top of the movable part. The method according to claim 1, The connecting part is a rafter reinforcement device of a plastic house, characterized in that the bottom surface is bent to be symmetrical to the shape of the bent part when coupled to the bent part of the rafter. delete delete It is formed by bending steel pipes in multiple stages to be a ridged roof or arched roof, and is arranged in a vinyl house frame composed of a plurality of rafters installed at regular intervals and a plurality of cross bars installed across the rafters to fix the positions of the rafters. In At least the side bends of the bends of the rafter, A support portion formed with a groove formed on the top to support the rafters to support the bending point, A pair of supporting portions are formed at the top of the fitting hole having a hole open to one side to fit the rafters to support the rafters at two points spaced at equal intervals from the bending point, and A support portion and a pair of base portions joined to each other so that they are integrally connected, Each pair of supports is Connecting pipes in which one side is screwed on one side and the other side is screwed on the inner side based on the center of the entire length, A fixing part which is screwed so that its lower end is connected to the connecting part and is screwed to the connecting pipe on the outer surface of the upper part, and The lower part of the plastic house, characterized in that the screw is machined on the outer surface of the lower end to be screwed to the connection pipe, and further comprising a movable part for supporting the support point, when the connection pipe is rotated in one direction, the movable part moves to shorten the overall length of the plastic house. Reinforcement.

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