KR102077085B1 - Frame structure of cultivation house - Google Patents

Abstract

It is a technical problem of the present invention to provide a framework structure for a cultivated house that can withstand heavy rain, heavy snow, etc., and can significantly shorten the installation period by eliminating cutting and bending operations. To this end, the framework structure of the cultivation house of the present invention is a frame structure of the cultivation house covered with a cover such as vinyl, and includes a frame of a straight form including an outer surface facing the cover and a frame inner surface facing the inside of the house. First and second unit skeletons; A connector connecting the first and second unit frames; A spacing adjuster provided in the connector to adjust a spacing between the first and second unit frames; And a convex line part provided at the connector and extending from one end to the other end of the connector to reinforce the rigidity of the connector.

Description

Frame structure of cultivation house

The present invention relates to a framework structure of a cultivation house capable of growing crops and the like.

In general, the cultivation house is used for cultivation of vegetables, flowers, or fruit trees in farms, etc., and has been rapidly developed in the point that it can grow cultivated plants or tropical plants, and has now become the most important gardening facility.

Such a cultivation house has a plurality of framed pipes which are installed at regular intervals on the ground and are bent in a substantially semi-circular shape, linear support pipes connected therebetween so that the plurality of framed pipes are supported by each other, and a plurality of framed pipes. Contains vinyl covering the stomach.

In particular, since the size of the cultivated house has to be changed according to the installation area, the installation pipes are processed and installed by the installation workers. For example, the installation workers cut a thin steel pipe to a certain length in consideration of the installation area and the height of the cultivated crop, and cut it into the eye mass in consideration of the installation area and the height of the cultivated crop. The steel pipe is bent. Here, the bending work of the steel pipe is done directly by the installation workers or through a separate bending machine.

However, these cultivated houses have a structure in which the thin framed pipes of the skeleton are difficult to support large loads, which are easily bent or collapsed by heavy rains in winter or heavy snowfall in winter, causing considerable damage to farmhouses. to be.

In addition, since a plurality of framed pipes are directly processed by the installation workers and installed in the field, the time required for installing the cultivation house is considerably long, which leads to an increase in labor costs, which is a significant burden on the farmhouse. In addition, the completeness of the cultivation house may vary depending on the skills of the installation workers.

The technical problem of the present invention is to provide a framework structure for a cultivated house that can withstand heavy rain, heavy snow, etc., and can significantly reduce the installation period by eliminating cutting and bending operations.

Another technical problem of the present invention is to provide a framework structure of a cultivation house which can make the overall height of a plurality of framework structures the same regardless of the height of the ground.

In order to achieve the above object, the frame structure of the cultivation house according to an embodiment of the present invention, the frame structure of the cultivation house is covered with vinyl, includes a frame outer surface facing the vinyl and the frame inner surface facing the interior of the house First and second unit skeletons having a straight line shape; A connector connecting the first and second unit frames; A spacing adjuster provided in the connector to adjust a spacing between the first and second unit frames; And a convex line part provided at the connector and extending from one end to the other end of the connector to reinforce the rigidity of the connector, wherein the connector comprises one body and the center thereof is convex toward the frame outer surface. It has a curved shape.

The spacing adjustor, the spacing adjuster is formed through the portion of the connector is located at the end of the first unit frame and has a long shape; A spacing adjusting bolt inserted into the spacing adjusting hole and penetrating the end of the first unit frame; And a gap adjusting nut coupled to an end of the gap adjusting bolt and fastening the connector to an end of the first unit frame, wherein the gap adjusting nut is loosened from the first unit frame in a state where the gap adjusting nut is loosened. The interval can be adjusted by moving along.

The gap adjusting hole may be formed long in the longitudinal direction of the first unit frame.

The gap adjusting device may include a bolt loosening prevention member positioned between the gap adjusting bolt and the connector to prevent loosening of the gap adjusting bolt; And a nut loosening prevention member positioned between the gap adjusting nut and the end of the first unit frame to prevent loosening of the gap adjusting nut.

The connector may have a plate shape and may be provided on a frame side which is placed between the frame outer surface and the frame inner surface.

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Each of the first and second unit frames may have a double frame structure.

Each of the first and second unit frames may include: a first frame constituting the outer surface of the frame; A second frame forming the frame inner surface; And it may include a binding bracket for binding the first and second frame.

Each of the first and second frames may have a cross-section having a “C” shape and may be disposed in a direction in which inner surfaces thereof face each other.

As described above, the framework structure of the cultivation house according to the embodiment of the present invention may have the following effects.

According to an embodiment of the present invention, since the first and second unit frames having a frame outer surface and a frame inner surface that are not thin pipes are provided, the first and second unit frames can be sufficiently endured in heavy rain or heavy snow. In addition, since the first and second unit frames are provided in a separate form, they can be provided to the installation site in a pre-fabricated state at the factory, so that no separate cutting work is required at the installation site, and between the first and second unit frames. By providing a connector or a spacing device that adjusts the spacing of the boundary so that the boundary portion is in a bent state, there is no need for a separate bending work at the installation site, thereby significantly shortening the installation period. In particular, the connector is provided with a convex line portion for reinforcing the rigidity of the connector can further reinforce the rigidity of the frame structure of the cultivation house of the present invention.

In addition, according to an embodiment of the present invention, since it provides a connector or a gap adjusting device that provides a gap between the first and second unit frame, regardless of the height of the ground, that is, the high or low of the ground The height of the plurality of frame structures installed at intervals along the longitudinal direction of the house while giving a gap between the first and the second unit frame using the control can be made to be the same as a whole.

1 is a front view schematically showing a skeleton structure of a cultivation house according to an embodiment of the present invention.
FIG. 2 is a perspective view schematically illustrating a unit frame of a frame structure of the cultivation house of FIG. 1.
3 is an enlarged view of part “A” of FIG. 1 schematically showing a state in which the first and second unit frames are connected by the connector and the spacing device.
4 is a view illustrating a state in which the distance between the first and second unit skeletons is adjusted in a direction in which the interval adjusting device of FIG. 3 increases.
5 is a view showing an example of the connector having a central shape convexly curved toward the outer surface of the frame.

Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings so that those skilled in the art may easily implement the present invention. As those skilled in the art would realize, the described embodiments may be modified in various different ways, all without departing from the spirit or scope of the present invention.

1 is a front view schematically showing a frame structure of the cultivation house according to an embodiment of the present invention, Figure 2 is a perspective view schematically showing a unit frame of the frame structure of the cultivation house of FIG.

1 is a front view schematically showing a frame structure of the cultivation house according to an embodiment of the present invention, Figure 2 is a perspective view schematically showing a unit frame of the frame structure of the cultivation house of FIG.

FIG. 3 is an enlarged view of part “A” of FIG. 1 schematically showing a state in which the first and second unit frames are connected by the connector and the spacing device, and FIG. 4 is the first and second portions of FIG. 2 is a view showing a state in which the distance between the two frame skeleton is adjusted in the direction of increasing.

5 is a view showing an example of the connector having a central shape convexly curved toward the outer surface of the frame.

Frame structure (S) of the cultivation house according to an embodiment of the present invention, the skeleton structure of the cultivation house covered with vinyl, as shown in Figures 1 to 4, the first and second unit frame (U1) ) U2, a connector 300, a gap adjusting device 600, and a convex line part 301.

Since the first and second unit frames U1 and U2 each have a straight line shape, as shown in FIGS. 1 to 4, the first and second unit frames U1 and U2 face a cover (not shown) such as vinyl (that is, the outside of the house). A frame outer surface 111 and a frame inner surface 121 facing the inside of the house. Specifically, each of the first and second unit frames U1 and U2 may have a double frame structure to reinforce strength. As an example of the dual frame structure, each of the first and second unit frames U1 and U2 may include a first frame 110 constituting the outer frame 111 and an inner frame 121, as shown in FIG. 2. The second frame 120 and a binding bracket 130 for binding the first and second frames 110 and 120 may be included. In addition, each of the first and second frames 110 and 120 may have a cross-section having a “C” shape as shown in FIG. 2 to further reinforce the strength, and may be placed in a direction in which inner surfaces thereof face each other. have. In addition, the binding bracket 130 may be placed perpendicular to the first and second frames 110 and 120 as shown in FIG. 2, and although not shown, the first and second frames 110 may be disposed. It may be laid across 120 in a zigzag or " X " shape.

Therefore, since the first and second unit frames U1 and U2 have a smaller size than the conventional thin pipes and are provided in a straight line shape, it may be easy to carry. In addition, since the first and second unit frames U1 and U2 having the frame outer surface 111 and the frame inner surface 121 that are not slender pipes are provided, the first and second unit frames U1 and U2 may be sufficiently endurable to heavy rain or heavy snow. In addition, since the first and second unit skeletons U1 and U2 in separate forms are provided, they can be provided to the installation site in a factory-produced state, thus eliminating the need for separate cutting work at the installation site. It can be shortened considerably.

The connector 300 connects the first and second unit frames U1 and U2, as shown in FIGS. 3 and 4. That is, one end of the connector 300 is connected to the end of the first unit frame U1, and the other end of the connector 300 is connected to the end of the second unit frame U2. Frame U1 and U2 are connected by connector 300. More specifically, the connector 300 has a plate shape, and between the frame outer surface 111 (eg, the outer surface of the first frame 110) and the frame inner surface 121 (eg, the inner surface of the second frame 120). It may be provided at the frame side (100a) (eg, the sides of the first and second frame 110, 120) lying in the. In particular, as shown in FIGS. 3 to 5, the connector 300 may have a shape in which a central portion thereof is convexly curved toward the outer frame 111. Therefore, when the first and second unit frames U1 and U2 are connected by the connector 300 due to the curved shape, the boundary part is in a bent state, and thus, a separate bending at the installation site No work is required, which significantly shortens the installation time. In addition, since the connector 300 provides a gap between the first and second unit skeletons U1 and U2, the connector 300 is used regardless of the height of the ground, that is, the high and low ground. By giving a distance between the first and second unit frame (U1) (U2) it can be made the same height as a whole of the plurality of frame structures (S) installed at intervals along the longitudinal direction of the house.

The above-described spacing adjuster 600 is provided in the connector 300 to adjust the spacing between the first and second unit frame (U1) (U2). For example, the gap adjusting device 600 may include a gap adjusting hole 610, a gap adjusting bolt 620, and a gap adjusting nut 630, as shown in FIGS. 3 and 4. Hereinafter, referring to FIGS. 3 and 4, each component of the spacing device 600 will be described in detail. In addition, for convenience, only the spacing adjuster 600 provided in the connection portion with the end of the first unit frame U1 of the connector 300 will be described.

The gap adjusting hole 610 is formed by penetrating through a portion located at the end of the first unit frame U1 of the connector 300 and may have a long shape. In particular, the gap adjusting hole 610 may be formed long in the longitudinal direction of the first unit frame (U1). Accordingly, the gap adjusting bolt 620 may move along the gap adjusting hole 610 in the longitudinal direction of the first unit frame U1. That is, as shown in FIG. 4, the first unit frame U1 to which the gap adjusting bolt 620 is fastened through the gap adjusting hole 610 may be moved in the longitudinal direction thereof.

The gap adjusting bolt 620 may be inserted into the gap adjusting hole 610 to penetrate the end of the first unit frame U1. The gap adjusting nut 630 may be coupled to the end of the gap adjusting bolt 620 to fasten one end of the connector 300 to the end of the first unit frame U1. In particular, in a state in which the gap adjusting nut 630 is loosened, the gap may be adjusted by moving the first unit frame U1 along the gap adjusting hole 610.

Therefore, the interval between the first and second unit frame (U1) (U2) can be adjusted through the interval adjusting device 600, so that the interval adjusting device (regardless of the height of the ground, that is, high and low of the ground) The height of the plurality of frame structures S installed at intervals along the longitudinal direction of the house may be made the same as a whole while adjusting the distance between the first and second unit frames U1 and U2 using the 600. have. Further, although not shown, the first and second movements of the spacing adjusting bolt 620 of the spacing adjuster 600 may be moved relatively more than those located on the frame inner surface 121. Since the boundary between the unit frames U1 and U2 is in a bent state, there is no need for a separate bending work at the installation site, and the bending effect by the connector 300 of the curved shape described above is provided. The installation period can be shortened considerably.

In addition, the above-described gap adjusting device 600 may further include a bolt loosening prevention member 640 and a nut loosening prevention member 650, as shown in FIG. 3.

The bolt loosening prevention member 640 is positioned between the gap adjusting bolt 620 and the connector 300 to prevent loosening of the gap adjusting bolt 620. For example, the bolt loosening member 640 may be a washer having an anti-slip function.

The nut loosening prevention member 650 is positioned between the gap adjusting nut 630 and the end of the first unit frame U1 to prevent loosening of the gap adjusting nut 630. For example, the nut loosening member 650 may be a washer having an anti-slip function.

The convex line part 301 is formed convexly on the center line portion of the connector 300 through press working or the like, but is formed from one end to the other end of the connector 300 to reinforce the rigidity of the connector 300.

As described above, the framework structure of the cultivation house according to an embodiment of the present invention may have the following effects.

According to an embodiment of the present invention, since the first and second unit frames U1 and U2 having the frame outer surface 111 and the frame inner surface 121 that are not in the form of slender pipes are provided, the present invention is also suitable for heavy rainfall or heavy snow. It can bear enough. In addition, since the first and second unit skeletons U1 and U2 of the separated form are provided, the first and second unit skeletons U1 and U2 may be provided to the installation site in a pre-fabricated state at the factory, so that no separate cutting work is required at the installation site. And a connector 300 or a gap adjusting device 600 which adjusts the interval between the second unit frames U1 and U2 so that the boundary part is in a bent state, so that a separate bending work at the installation site is performed. There is no need to significantly shorten the installation period. In particular, the connector 300 is provided with a convex line portion 301 for reinforcing the rigidity of the connector can further reinforce the rigidity of the frame structure (S) of the cultivation house of the present invention.

In addition, according to an embodiment of the present invention, since the connector 300 or the spacing adjuster 600 to provide a gap between the first and second unit frame (U1) (U2), the height of the ground ), Ie, using the connector 300 or the spacing device 600 regardless of whether the ground is high or low, spaces along the longitudinal direction of the house while spacing between the first and second unit skeletons U1 and U2. It is possible to make the height of the plurality of frame structures (S) to be installed to be the same as a whole.

Although the preferred embodiments of the present invention have been described in detail above, the scope of the present invention is not limited thereto, and various modifications and improvements of those skilled in the art using the basic concepts of the present invention defined in the following claims are also provided. It belongs to the scope of right.

S: frame structure U1: first unit frame
U2: second unit frame 110: first frame
111: frame outer surface 100a: frame side
120: second frame 121: frame inner surface
300: connector 600: spacer
610: spacing hole 620: spacing bolt
630: gap adjusting nut 640: bolt loosening prevention member
650: nut loosening prevention member 301: convex line portion

Claims (3)

Framed structure of a cultivated house covered with a cover such as vinyl,
First and second unit skeletons having a straight shape including an outer surface of the frame facing the cover and an inner surface of the frame facing the inside of the house;
A connector for connecting the first and second unit frames;
A spacing adjuster provided in the connector to adjust a spacing between the first and second unit frames; And
Convex line part provided at the connector, and provided from one end to the other end of the connector to reinforce the rigidity of the connector.
Including,
The connector,
Consists of one body,
The central portion has a convexly curved shape toward the outer surface of the frame
Framing structures of cultivated houses. In claim 1,
The gap adjusting device,
A gap adjusting hole formed through the connector and penetrated at a portion located at the end of the first unit frame and having a long shape;
A spacing adjusting bolt inserted into the spacing adjusting hole and penetrating the end of the first unit frame; And
A gap adjusting nut coupled to an end of the gap adjusting bolt and fastening the connector to an end of the first unit frame,
Frame structure of the cultivation house to move the first unit frame along the gap adjusting hole in the state that the gap adjusting nut is loosened to adjust the gap. In claim 2,
The spacing adjustment hole is a skeleton structure of the cultivation house is formed long in the longitudinal direction of the first unit frame.

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