KR20090103013A - Pipe for frame and frame structure for greenhouse - Google Patents

Abstract

PURPOSE: A greenhouse pillar pipe and a pillar structure showing excellent flexural strength are provided to distribute the flexural strength over whole surfaces of the pillar in order to prevent the pillar pipe from being deformed. CONSTITUTION: A greenhouse pillar pipe comprises a cylindrical body and protrusion. The cylindrical body includes a cylindrical hole inside. The protrusions are formed on one side of the outer surface of the cylindrical body in the longitudinal direction thereof. A pillar(200) comprises an arched pillar(210), vertical pillar(220), and horizontal pillar(230). The arched pillar is smoothly curved to form a roof of the greenhouse. The vertical pillar is fastened with the arched pillar to install the arched pillar at certain height from the ground. The horizontal pillar is fastened such that the arched pillar crosses the vertical pillar. The horizontal pillar connects the arched pillar to the vertical pillar.

Description

Frame and frame construction for green house {PIPE FOR FRAME AND FRAME STRUCTURE FOR GREENHOUSE}

The present invention relates to a plastic house used as a greenhouse, and more particularly, by modifying the shape of the skeleton pipe used to fabricate the frame of the plastic house, the bending strength compared to the circular pipe used in the conventional frame of the minil house. Frames for increased greenhouse frames and frame structures for vinyl houses that are fabricated quickly and inexpensively using said framework pipes.

1 is a perspective view showing a vinyl house according to the prior art, Figure 2 is a front view showing in detail the arch frame of Figure 1, Figure 3 is a perspective view showing a circular pipe used as a vinyl house frame according to the prior art. .

1 to 3, the vinyl house 20 is mainly used for growing vegetables or flowers in rural areas, and uses a thin, light and light-transmitting synthetic resin film as a coating material 500. Due to the lightness of the coating material 500, the frame 400 constituting the vinyl house 20 also has a relatively weak bending strength and a thin round pipe 600 compared to the frame 400 used in a general house or a glass greenhouse. To make). For this reason, the circular pipe 600 used in the conventional vinyl house 20 is generally used around the 20mm round pipe 600 used for water pipes.

Frame 400 of the conventional plastic house 20 is composed of an arch frame 410 and a horizontal frame 420. The arch frame 410 is composed of an arch portion 411 forming a roof of the plastic house 20 and a vertical portion 412 supporting the arch portion 411, and is generally the center of one circular pipe 600. The part is bent by a pipe bending machine to produce the arch part 411 and the vertical part 412.

The arcuate frame 410 has an arch portion 411 having an arc of the same size as the cross section of the tunnel formed in the vinyl house 20 and a vertical portion 412 having a predetermined height in consideration of the size of the vinyl house 20. A plurality of them are manufactured, and both ends of the vertical portion 412 are embedded in the ground at equal intervals in the longitudinal direction in which the vinyl house 20 is to be installed.

The horizontal frame 420 connects the arched frames 410, and is installed orthogonally to the sides of the arched frames 410, and then fixed to the arched frame 410 by a fixing clip (not shown). 410 allows for a firm installation.

When the frame 400 of the vinyl house 20 is completed by the fastening of the arch frame 410 and the horizontal frame 420, the covering material 500 is covered outside the frame 400, and the covering material 500 does not flow. Complete the plastic house 20 by fixing with a rope or the like. At this time, the coating material 500 may be used in various ways, it is preferable to use a transparent synthetic resin film when making the plastic house 20 to be used as a greenhouse.

As such, the vinyl house 20 using the frame 400 made of the circular pipe 600 and the synthetic resin film as the coating material 500 is inferior in performance to the greenhouse made of glass in terms of durability and thermal insulation.

However, it is easy to produce at a much lower cost than expensive glass greenhouses, and durability and warmth are sufficient to grow vegetables or flowers, so facility farmers prefer to use plastic houses over expensive glass greenhouses. It is a reality.

However, the synthetic resin film used as the circular pipe 600 and the cladding material 500 used in the vinyl house 20 has a low durability, and when the weather is not good, the vinyl house 20 is collapsed or broken. there is a problem.

For example, when heavy snow falls, the frame 400 may not support the weight of snow accumulated on the outside of the plastic house 20, and when the strong wind blows, the covering 500 may not tolerate the strong wind and is torn or coated. If the 500 is not torn, there is a problem such that the vinyl house 20 is collapsed because the frame 400 is not supported as in heavy snow.

As such, in order to prevent the vinyl house 20 from being collapsed or damaged in heavy snow and strong winds, the strength of the frame 400 and the covering material 500 constituting the vinyl house 20 must be increased. First, the method of increasing the strength of the coating material 500 is to use the coating material 500 having a high tensile strength, and to cover the other coating material 500 on the outside of the conventional coating material 500 so as to overlap the coating material 500. The tensile strength of can be increased.

However, in the case of the framework 400, unless the circular pipe 600 having a large bending strength is used from the beginning, the strength of the framework 400 cannot be increased. That is, in order to increase the strength of the frame 400, the frame 400 must be manufactured from a circular pipe 600 having a large bending strength from the beginning, and the circular pipe 600 having a large bending strength is used in the conventional bending strength of a material. Larger diameters should be used when producing larger or the same material. However, when the material is changed or the diameter of the round pipe 600 is increased, there is a problem that the material cost increases.

For this reason, the smallest farms among many facility-cultivated farms are still using the reconstructed frame 400 with the conventional round pipe 600 which can be used at low cost due to the burden of facility costs. In case of heavy snow or strong winds, Still, the plastic house 20 is collapsed and is suffering.

The present invention has been made in view of the above point, while producing a low-cost frame pipe used to produce a vinyl house mainly used in facility cultivation farms, the purpose of the bending strength is to be increased compared to the conventional, This aims to prevent the plastic house from collapsing.

In addition, it is easy to transport the framing frame constituting the plastic house, while providing a fastening frame structure for easy installation by providing a fast-tight structure of the vinyl house to reduce the installation cost of the vinyl house.

Frame structure and frame structure for the vinyl house according to the present invention for achieving the above object is continuous in the longitudinal direction and the cylindrical portion formed with a cylindrical hole therein; and continuously on one side of the outer peripheral surface of the cylindrical portion along the longitudinal direction of the cylindrical portion It is characterized in that the skeleton pipe consisting of;

In addition, the protrusion is formed to form a gentle arc continuous from the outer circumferential surface of the cylindrical portion is not raised edges on the side of the cylindrical portion and the projection, the inside is formed with a projection hole connected to the cylindrical hole formed inside the cylindrical portion, The pores are formed along the cylindrical hole in the longitudinal direction of the pipe.

In addition, the arch frame gently bent into an arc to form a roof of the plastic house; A vertical frame fastened to the lower portion of the arch frame such that the arch frame is installed at a predetermined height from the ground; And a horizontal frame fastened orthogonally to the arch frame and the vertical frame to continuously connect the adjacent arch frame and the vertical frame, wherein the frame is configured to include the arch frame, the vertical frame, and the horizontal frame. Is characterized in that the production of the frame pipe for the plastic house of claim 1 or 2.

In addition, the arcuate frame and the vertical frame is fastened by a fastener, the fastener is inserted into and inserted into the cylindrical hole formed in the arcuate frame and the vertical frame, respectively, and protrudes into the outer peripheral surface of the insertion rod Protruding pieces are formed to be inserted into the projections of the arch frame and the vertical frame and protruding to the side of the insertion rod to prevent the insertion rod and the protrusion pieces from being inserted into the cylindrical hole of the arch frame and the vertical frame more than a certain depth It is characterized by including.

In addition, the fastener is characterized in that formed integrally with the end of any one of the arch frame or the vertical frame.

Frame structure and frame structure for the vinyl house according to the present invention configured as described above has a bending strength compared to the circular pipes used in the past because the protrusions raised on the outer peripheral surface of the cylindrical portion of the skeleton pipe serves as a kind of beam to support the cylindrical portion There is an increasing effect.

In addition, since the cylindrical portion and the protrusion constituting the framed pipe are connected in a smooth arc without forming edges, the bending stress applied from the outside is not concentrated in a specific portion and is evenly applied to the front surface of the cylindrical portion and the protrusion. It can be prevented from deforming below the maximum load, and this has the effect of preventing the collapse of the plastic house as much as possible.

1 is a perspective view showing a vinyl house according to the prior art,

Figure 2 is a front view showing in detail the arch frame of Figure 1,

Figure 3 is a perspective view showing a circular pipe used as a vinyl house frame according to the prior art,

4 is a perspective view showing a skeleton pipe according to an embodiment of the present invention,

5 is a front view showing in detail the frame pipe of FIG.

Figure 6 is a perspective view sequentially showing a process in which the skeleton pipe is manufactured by bending molding according to an embodiment of the present invention,

7 is a perspective view showing a frame structure for a vinyl house according to an embodiment of the present invention,

8 is a front view and an enlarged perspective view illustrating main parts of an arched frame and a vertical frame and fasteners according to an exemplary embodiment of the present invention;

9 is an exploded perspective view showing that the arch frame and the vertical frame of FIG. 8 are fastened by fasteners.

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

10: green house 200: framing

210: arch frame 220: vertical frame

230: horizontal frame 240: fastener

241: insertion rod 242: protrusion

243: step 300: framed pipe

310: cylinder 311: cylinder hole

320: protrusion 321: protrusion

Figure 4 is a perspective view showing a skeleton pipe according to an embodiment of the present invention, Figure 5 is a front view showing in detail the skeleton pipe of Figure 4, Figure 6 is a skeleton pipe according to an embodiment of the present invention by bending molding Figure 7 is a perspective view showing the manufacturing process sequentially, Figure 7 is a perspective view showing a frame structure for the vinyl house according to an embodiment of the present invention, Figure 8 is an arched frame and vertical frame and fastener according to an embodiment of the present invention 9 is an exploded perspective view showing that the arch frame and the vertical frame of FIG. 8 are fastened by fasteners.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings.

4 to 6, the skeleton pipe 300 according to an embodiment of the present invention is formed in the cylindrical portion 310 and the outer peripheral surface of the cylindrical portion 310, the cylindrical hole 311 is formed continuously in the longitudinal direction It is composed of a protrusion 320 continuously raised in the longitudinal direction.

Looking at the cross section of the skeleton pipe 300 configured as described above, the connecting portion of the cylindrical portion 310 and the protrusion 320 is formed so that the edge is not formed on the outside, the inner portion is also a cylindrical portion 310 The cylindrical hole 311 and the protrusion hole 321 formed in the protrusion 320 connected to the cylindrical hole 311 is formed in the longitudinal direction of the skeleton pipe 300, so that the cross-sectional shape is a water droplet shape and Formed together.

As described above, the skeleton pipe 300 having a cross-sectional shape may be manufactured by extrusion molding, and the curved steel plate may be gradually formed on the iron plate in the final step after manufacturing a round pipe using a steel plate. It can also be manufactured by bending molding manufactured by welding both ends.

First, in the case of manufacturing the skeleton pipe 300 by extrusion molding, a mold (not shown) manufactured in the same manner as the cross section of the skeleton pipe 300 is installed in an extruder (not shown), and then molten metal is continuous. It is produced by extruding through the mold while supplying.

When the frame pipe 300 is manufactured by bending molding, the iron plate 350 continuous to a predetermined thickness and width is supplied to a bending machine (not shown), and the iron plate 350 supplied to the bending machine is sequentially formed in a roller. After bending through (not shown), both ends of the iron plate 350 are bonded to each other.

In more detail, the first curved surface 351 is formed by using a forming roller on both sides of the iron plate 350 supplied to the bending molding machine. In the iron plate 350 moved to the next step, the second curved surface 353 for manufacturing the cylindrical portion 310 sequentially from the center portion is formed through a plurality of forming steps through each forming roller.

At this time, the raised direction of the second curved surface 353 formed to manufacture the cylindrical portion 310 is in a direction opposite to the raised direction of the first curved surface 351 formed to manufacture the protrusion 320. It is formed to rise.

As described above, when the first curved surface 351 and the second curved surface 353 are completed and the cylindrical portion 310 and the protrusion 320 are completed, both ends of the iron plate 350 face each other and are in contact with each other. By welding the frame 300 by bending bending is completed.

Framed pipe 300 according to an embodiment of the present invention produced by the above method is used to produce a circular pipe because it forms a cylindrical portion 310 with the same diameter as the conventional circular pipe 600 (see FIG. 3) It is possible to manufacture with almost the same material as the material to be produced, and the manufacturing process can also be manufactured in the same manner as the manufacturing process for producing a conventional round pipe, so that it can be produced without providing a separate production equipment, as well as the production cost It can be produced almost the same as the round pipe of the effect that the production cost does not increase.

In the frame pipe 300 according to the present invention, the bending stress applied from the outside is supported by being dispersed in the cylindrical portion 310 and the protrusion 320. At this time, the cylindrical portion 310 supports the bending stress with the same strength as the conventional circular pipe, and further supports the bending stress by the strength of the protrusion 320. That is, the strength is increased compared to the conventional round pipe as much as the bending stress that can be supported by the protrusion 320.

In addition, since the connection surface of the cylindrical portion 310 and the protrusion 320 forms a gentle arc so that no edge is formed, the bending stress applied from the outside is not concentrated at a specific point, and the cylindrical portion 310 and the protrusion 320 are not formed. Evenly distributed in the skeleton pipe 300 has the effect of preventing the fracture under the maximum load.

7 to 9, the frame 200 of the vinyl house 10 manufactured using the frame pipe 300 configured as described above is an arched frame 210 made of the frame pipe 300, vertical. It is composed of a type frame 220 and a horizontal frame (230).

First, the arcuate frame 210 forms a roof of the vinyl house 10 and is bent to form a predetermined arc in consideration of the size of the vinyl house 10. At this time, the arcuate frame 210 is preferably bent so that the protrusion 320 is located inside. That is, when the arcuate frame 210 is installed, the protrusion 320 is bent to be perpendicular to the ground.

The projection 320 is perpendicular to the ground, which is the same as the purpose of bending the arcuate frame 210 to form an arc, in order to facilitate supporting the load because the load acts vertically toward the ground.

Vertical frame 220 is to space the arcuate frame 210 to a predetermined height from the ground, in consideration of the size of the plastic house 10 to be produced by cutting the frame pipe 300 to a certain length .

The arch frame 210 and the vertical frame 220 produced as described above are fastened by the fastener 240.

The fastener 240 is composed of an insertion rod 241, a protruding piece 242 and the stepped 243, the insertion rod 241 is the end of the arch frame 210 and the vertical frame 220 It is inserted into and fixed in the cylindrical hole 311 formed in, and is manufactured to the same diameter as the cylindrical hole 311 of the arch frame 210 and the vertical frame 220.

Protruding piece 242 is formed to protrude on the outer circumferential surface of the insertion rod 241, is inserted into the protrusion 321 formed at the end of the arch frame 210 and the vertical frame 220, the arch frame 210 serves to align the protrusion 320 of the vertical frame 220 to be matched.

The protruding piece 242 is preferably made of the same shape as the projection hole 321 inside the projection 320, such that the insertion rod 241 is made of the same diameter as the cylindrical hole 311, so that It is not necessarily, it may be made of an appropriate shape in the range that the protrusions 320 of the arch frame 210 and the vertical frame 220 can be aligned to match.

The step 243 divides the insertion rod 241 and the protruding piece 242 and is formed to protrude at a predetermined position on the side of the insertion rod 241. The stepped portion 243 formed as described above is provided to prevent the fastener 240 from being biased toward one side of the arch frame 210 and the vertical frame 220, and the fastener 240 is the arch frame 210. ) Or a length allocated to one side of the vertical frame 220 prevents further insertion.

The fastener 240 configured as described above is manufactured independently from the arcuate frame 210 and the vertical frame 220 as described above. However, the present invention is not limited thereto. That is, the fastener 240 may be formed integrally with the arcuate frame 210 or the vertical frame 220.

In order to integrally form the fastener 240 and the arcuate frame 210 or the vertical frame 220, the fastener 240 separately manufactured may be formed at the end of the arcuate frame 210 or the vertical frame 220. An end portion of the skeleton pipe 300 may be joined to the end by welding or the like, or in the process of manufacturing the arch frame 210 and the vertical frame 220 using the skeleton pipe 300. It can also be molded integrally with the skeleton pipe 300.

Horizontal frame 230 is used to cut the skeleton pipe 300 to fit the size of the plastic house 10, in general to use as it is without going through the forming step of cutting or bending the skeleton pipe 300 do.

However, when the length of the vinyl house 10 is longer than the length of one frame pipe 300, it is used by connecting a plurality of frame pipe 300, in this case, each of the frame pipe 300 is the fastener mentioned above It is preferable to connect using 240.

Thus, in order to produce the frame 200 of the vinyl house 10 using the arch frame 210 and the vertical frame 220 and the horizontal frame 230, first, the arch frame 210 and the vertical frame ( 220 is connected using the fastener 240. The structure in which the arch frame 210 and the vertical frame 220 are connected is produced in a certain amount in consideration of the length of the vinyl house 10 and the vertical frame 220 on the ground at regular intervals where the vinyl house 10 is to be installed. Install the bottom part of

Then, the horizontal frame 230 connecting the central portion of the adjacent arched frame 210 is installed using a fixing clip (not shown), and the other horizontal frame 230 is installed on both sides of the arched frame 210. It is installed using a fixed clip in the horizontal direction on top of the vertical frame 220 fastened to.

As a result, the frame 200 of the vinyl house 10 is completed, and in the next step, the covering material 100 is covered on the outside of the frame 200, and then the fixing material 100 is not fixed by the fixing string to fix the plastic house 10. ) To complete the installation.

The structure of the frame 200 for the vinyl house 10 manufactured as described above is different from the vinyl house used in the prior art, because the arch frame 210 and the vertical frame 220 are manufactured without being integrally manufactured to produce vinyl as in the prior art. In the field of installing the house 10 can be eliminated the inconvenience of having to be manufactured by bending the circular pipe. That is, since the arch frame 210 and the vertical frame 220 are all manufactured at a factory, the vinyl house 10 can be installed by transporting it to a place where the vinyl house 10 is installed. The plastic house 10 can be manufactured.

This does not need to install a bending machine for manufacturing the arch frame 210 in the place where you want to install the plastic house 10, as well as the installation time is reduced because only the pre-arranged arch frame 210 is used in advance. This can reduce labor costs, while reducing installation time.

In addition, since the protrusion part 320 is formed in the frame pipe 300, when the arch frame 210 is manufactured, the protrusion part 320 may be manufactured based on the protrusion part 320 of the frame pipe 300 so that the arch frame 210 is not twisted. It can be produced, and even when installed, there is an effect that can proceed quickly by fastening the arch frame 210 and the vertical frame 220 around the protrusion 320.

In addition, even after the vinyl house 10 is completed, the load acting on the vinyl house 10 is primarily supported by the arc portion of the arcuate frame 210, and the protrusions projecting inside the arcuate frame 210 secondarily. Since it is supported at 320, the strength of the plastic house 10 is also increased.

As described above, a preferred embodiment of the present invention has been described in detail with reference to the accompanying drawings. However, the present invention is not limited to the above specific embodiments, and a person of ordinary skill in the art to which the present invention pertains has many modifications to the present invention without departing from the spirit and scope of the appended claims. Modifications are possible, and all such modifications and equivalents should be considered to be within the scope of the present invention.

Claims (5)

In the frame pipe used to make the frame of a green house, A cylindrical portion continuous in the longitudinal direction and having a cylindrical hole formed therein; and Frame frame for a plastic house, characterized in that consisting of; projections formed to be continuously raised on one side of the outer peripheral surface of the cylindrical portion along the longitudinal direction of the cylindrical portion. The method of claim 1, The protrusions are formed to form a gentle arc continuous from the outer circumferential surface of the cylindrical portion so that the edges are not formed on the side of the cylindrical portion and the protrusion, and a protrusion is connected to the cylindrical hole formed inside the cylindrical portion, and the protrusion is formed. Frame frame for a vinyl house, characterized in that formed along the cylindrical hole in the longitudinal direction of the pipe. In the frame constituting the plastic house, An arched frame gently bent into an arc to form a roof of a green house; A vertical frame fastened to the lower portion of the arch frame such that the arch frame is installed at a predetermined height from the ground; And And a horizontal frame fastened orthogonally to the arch frame and the vertical frame to continuously connect the adjacent arch frame and the vertical frame to each other. The arch frame, the vertical frame and the horizontal frame is a frame structure for a vinyl house, characterized in that made of the frame pipe for the vinyl house of claim 1 or 2. The method of claim 3, wherein The arched frame and the vertical frame is fastened by a fastener, The fastener is formed to protrude on the insertion rod of a predetermined length and the outer circumferential surface of the insertion rod is inserted into the cylindrical hole formed in the arch frame and the vertical frame, respectively, and a protrusion piece inserted into the projection of the arch frame and the vertical frame; Protruding to the side of the insertion rod is a frame structure for a vinyl house, characterized in that the insertion rod and the protrusion comprises a step that prevents the insertion of a predetermined depth or more into the cylindrical hole of the arch frame and the vertical frame. The method of claim 4, wherein The fastener is a frame structure for a vinyl house, characterized in that integrally formed at the end of any one of the arched frame or the vertical frame.