KR102281046B1 - Frame structure of cultivation house - Google Patents

Abstract

It is a technical task of the present invention to provide a framework structure of a cultivation house that can withstand heavy rain or heavy snow, and the like, and can significantly shorten the installation period by eliminating cutting and bending operations. To this end, the frame structure of the cultivation house of the present invention is a frame structure of the cultivation house covered with a cover, and a first straight line shape including an outer surface of the frame facing the cover and an inner surface of the frame facing the inside of the cultivation house. second unit frame; and a main connector connecting the first and second unit frames but connecting them in a bent form, wherein the main connector has a first edge facing the outer surface of the frame longer than a second edge facing the inner surface of the frame a connecting plate having a shape; a first fastening bolt for fastening one end of the connecting plate and the first unit frame; a second fastening bolt for fastening the other end of the connecting plate to the second unit frame; and a reinforcing part having a central portion protruding from an edge portion thereof from one end to the other end of the connecting plate.

Description

Frame structure of cultivation house

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

In general, the cultivation house is used for cultivation of vegetables, flowers, or fruit trees, etc. at farms, etc., and has rapidly developed in that it can grow succulent or tropical plants, and has become the most important horticultural facility at present.

Such a cultivation house, a plurality of frame pipes installed at regular intervals on the ground and bent in a substantially semicircular shape, a plurality of frame pipes connected therebetween to support each other, a straight support pipe, a plurality of frame pipes Includes vinyl covering.

In particular, since the size of such a cultivation house should be changed according to the installation area, the frame pipe is directly processed and installed in the field by installation workers. For example, the installation workers cut a thin river pipe to a certain length to the snow mass in consideration of the installation area and the height of the cultivated crop, and consider the installation area and the height of the cultivated crop again to cut the cut into the snow mass. Bending the steel pipe. Here, the bending operation of the steel pipe is performed directly by installation workers or through a separate bending machine.

However, in such a cultivation house, the thin framed pipe constituting the framework has a structure that is difficult to support a large load, so it is easily bent or collapsed due to heavy rain accompanied by strong wind in summer or heavy snow in winter, causing considerable damage to farmhouses. am.

In addition, since a plurality of frame pipes are directly processed and installed in the field by the installation workers, the period required to install the cultivation house is considerably long, which leads to an increase in labor costs, which is a considerable burden on the farms. In addition, the degree of completion of the cultivation house may vary according to the skill level of the installation workers.

US Patent Publication US4974387 (Announcement Date: Dec. 04, 1990)

It is an object of the present invention to provide a frame structure of a cultivation house that can withstand heavy rain or heavy snow, and the like, and can significantly shorten the installation period by eliminating cutting and bending operations.

In order to achieve the above object, the frame structure of the cultivation house according to an embodiment of the present invention is a frame structure of the cultivation house covered with a cover, and the outer surface of the frame facing the cover and the inner surface of the frame facing the inside of the cultivation house are provided. first and second unit frames of a straight line comprising; and a main connector connecting the first and second unit frames but connecting them in a bent form, wherein the main connector has a first edge facing the outer surface of the frame longer than a second edge facing the inner surface of the frame a connecting plate having a shape; a first fastening bolt for fastening one end of the connecting plate and the first unit frame; a second fastening bolt for fastening the other end of the connecting plate to the second unit frame; and a reinforcing part having a central portion protruding from an edge portion thereof from one end to the other end of the connecting plate, wherein the frame structure of the cultivation house is formed by connecting the first and second unit frames first row framing; a second row frame provided to be spaced apart from the first row frame; and a side connector connecting the first row frame and the second row frame, wherein the side connector includes: a side connection bracket bent on the connecting plate to face the outer surface of the frame; and a side bar fastened to the side connection bracket by a third fastening bolt, wherein the side bar has a hollow square pillar shape, and the head of the third fastening bolt is located on the first surface of the side bar. A hole through which the head passes is formed, and a fastening hole through which the head of the third fastening bolt does not pass is formed on a second surface of the side bar opposite to the first surface. The head through hole and the fastening hole are positioned on the shaft of the third fastening bolt, the head of the third fastening bolt is positioned inside the side bar, and the frame structure of the cultivation house is, the first fastening bolt It further comprises a position setting unit for setting the position of the connecting plate to the first unit frame before being fastened, wherein the position setting unit includes: a position setting hole formed in the first unit frame; and an embossing protrusion formed on the connecting plate to fit into the positioning hole, wherein the embossing protrusion protrudes convexly through press working.

The connecting plate may have a sectoral shape.

The reinforcing part may protrude in a "C" shape through press working.

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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, a first frame forming the outer surface of the frame; a second frame forming the inner surface of the frame; and a plurality of binding brackets binding the first and second frames together.

The plurality of binding brackets may be arranged in a zigzag shape.

Each of the first and second frames may have a “C”-shaped cross-section, and may be placed in a direction with inner surfaces facing each other.

As described above, the frame 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 an outer surface and an inner frame are provided, which are not in the form of a thin pipe, they can sufficiently withstand heavy rain or heavy snow. In addition, since the first and second unit frames in a separate form are provided, they can be provided to the installation site in a pre-fabricated state, eliminating the need for a separate cutting operation at the installation site, and the first and second unit frames Since the main connector to be placed in a bent state is provided, there is no need for a separate bending operation at the installation site, thereby significantly shortening the installation period. In particular, since the main connector is provided with a reinforcing part for reinforcing the rigidity of the main connector, the rigidity of the frame structure of the cultivation house of the present invention can be further reinforced.

In addition, according to the embodiment of the present invention, since the position setting unit is provided, the position of the connecting plate can be set to the unit frame before the fastening bolt is fastened, so that the connection operation can be facilitated.

In addition, according to the embodiment of the present invention, even if a hollow square pillar-shaped side bar is employed to connect the first and second row frames, a head through hole through which the head of the fastening bolt passes is formed on the first surface of the side bar Since the technical configuration is provided, it is possible to easily fasten the fastening bolt to the fastening hole of the second surface opposite to the first surface through the head through hole formed on the first surface.

In addition, according to the embodiment of the present invention, the first frame constituting the outer surface of the frame and the second frame constituting the inner surface of the frame to make the unit frame provide a technical configuration for binding in a zigzag form with a plurality of binding brackets, so the truss Since it can form a truss structure, it can effectively support loads applied in various directions without bending the unit frame.

1 is a front view schematically showing a frame structure of a cultivation house according to an embodiment of the present invention.
2 is a perspective view schematically showing a unit frame among the frame structures of the cultivation house of FIG. 1 .
3 is a perspective view schematically showing a state in which the first and second unit frames are connected by a main connector.
4 is a cross-sectional view taken along the IV-IV line of the main connector of FIG. 3 .
5 is a perspective view schematically showing a state in which the third and fourth unit frames are connected by a main center connector.

Hereinafter, with reference to the accompanying drawings, the embodiments of the present invention will be described in detail so that those of ordinary skill in the art to which the present invention pertains can easily implement them. However, the present invention may be embodied in many different forms and is not limited to the embodiments described herein.

1 is a front view schematically showing a frame structure of a cultivation house according to an embodiment of the present invention, FIG. 2 is a perspective view schematically showing a unit frame among the frame structures of the cultivation house of FIG. 1, and FIG. 3 is a first and A perspective view schematically showing a state in which the second unit frame is connected by a main connector, and FIG. 4 is a cross-sectional view taken along the IV-IV line of the main connector of FIG. 3 . 5 is a perspective view schematically showing a state in which the third and fourth unit frames are connected by a main center connector.

The frame structure (S) of the cultivation house according to an embodiment of the present invention, as shown in FIGS. 1 to 4, the first and second unit frames (U1) (U2) and the main connector (300) do. Hereinafter, each component will be described in detail with continued reference to FIGS. 1 to 4 .

The first and second unit frames (U1) and (U2), as shown in FIGS. 1 to 3, each have a straight shape, so plastic, glass, vinyl, etc. covers (not shown) (that is, of the house It includes a frame outer surface 111 facing the outside) 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 a double frame structure, each of the first and second unit frames (U1) and (U2) is, as shown in FIG. 2 , the first frame 110 forming the outer surface 111 of the frame, and the inner surface of the frame 121 ) may include a second frame 120 and a binding bracket 130 for binding the first and second frames 110 and 120 to each other. Furthermore, each of the first and second frames 110 and 120 has a “C”-shaped cross section as shown in FIG. 2 to further reinforce the strength, and the inner surfaces can be placed in a direction facing each other. there is. In addition, the binding bracket 130 may be disposed across the first and second frames 110 and 120 in a zigzag form as shown in FIGS. 1 and 3 as an example, as shown in FIG. 2 as another example. It may be placed vertically across the first and second frames 110 and 120 as described above, and although not shown as another example, the first and second frames 110 and 120 are horizontally arranged in an “X” shape. may be laid out.

Therefore, since these first and second unit frames (U1) and (U2) have a smaller size than a conventional thin pipe and are provided in a straight shape, it can be easily transported. In addition, since it provides the first and second unit frames (U1) (U2) having a frame outer surface 111 and a frame inner surface 121, which are not in the form of a thin pipe, it can sufficiently withstand heavy rain or heavy snow. In addition, since the first and second unit frames U1 and U2 in separate form are provided, they can be provided to the installation site in a pre-fabricated state, eliminating the need for a separate cutting operation at the installation site, shortening the installation period. can be shortened considerably. In addition, when the plurality of binding brackets 130 are arranged in a zigzag form, a truss structure can be formed, so that the unit frame does not bend and can more effectively support loads applied in various directions.

As shown in FIGS. 1 and 3 , the main connector 300 connects the first and second unit frames U1 and U2 in a bent form. That is, one end of the main connector 300 is connected to the end of the first unit frame (U1), and the other end of the main connector 300 is connected to the end of the second unit frame (U2), the first and the first Two unit frames (U1) (U2) are connected by the main connector (300).

More specifically, as shown in FIGS. 1 and 3 , the main connector 300 includes a connecting plate 310 , a first fastening bolt 320 , a second fastening bolt 330 , and a reinforcing part 340 . may include.

The connecting plate 310, the first edge facing the outer surface of the frame 111 may have a longer shape than the second edge facing the inner frame 121. For example, the connecting plate 310 may have a substantially sectoral shape. In other words, as shown in FIGS. 1 and 3 , the connecting plate 310 may have a shape in which the center thereof is convexly curved toward the outer surface of the frame 111 . Therefore, when the first and second unit frames U1 and U2 are connected by the connecting plate 310 due to such a curved shape, the boundary portion is placed in a bent state, so that a separate Since no bending work is required, the installation period can be significantly shortened.

The first fastening bolt 320 may fasten one end of the connecting plate 310 to the first unit frame U1 , and the second fastening bolt 330 may be connected to the other end of the connecting plate 310 and the second unit. The frame (U2) can be fastened. Although not shown, the first and second fastening bolts 320 and 330 are passed through one end and the other end of the connecting plate 310, and the first and second unit frames U1 and U2 are fastened. A ball (not shown) and a fastening hole (not shown) may be formed, respectively.

As shown in FIGS. 3 and 4 , the reinforcing part 340 may have a shape in which a central portion of the connecting plate 310 protrudes from an edge portion from one end to the other end. For example, as shown in FIG. 4 , the reinforcing part 340 may protrude in a “C” shape through press working. Therefore, it is possible to further reinforce the rigidity of the frame structure (S) of the cultivation house of the present invention through the reinforcing part 340.

In addition, the frame structure (S) of the cultivation house according to an embodiment of the present invention described above, as shown in Figures 3 and 4, may further include a position setting unit (400). This position setting unit 400 may serve to set the position of the connecting plate 310 to the first unit frame U1 before the first fastening bolt 320 is fastened.

For example, the position setting unit 400, as shown in FIG. 4, the position setting hole 410 formed in the first unit frame U1 and the embossing protrusion formed on the connection plate 310 to be fitted thereto. 420 may be included. Therefore, the position of the connecting plate 310 can be set to the first unit frame U1 before the first fastening bolt 320 is fastened, so that the connection operation can be facilitated.

Here, the embossing protrusion 420 may protrude convexly through press working or the like. On the other hand, this position setting unit 400 may be configured in the same manner as the second unit frame (U2) and the other end of the connecting plate (310).

In addition, the frame structure (S) of the cultivation house according to an embodiment of the present invention described above, as shown in FIGS. 1 and 3, the first and second unit frames (U1) (U2) are connected, A first row frame (L1) made of, a second row frame (L2) provided with an interval from the first row frame (L1), and the first row frame (L1) and the second row frame (L2) are connected It may further include a side connector 400 that does.

The side connector 500, as shown in FIG. 3, is bent on the connecting plate 310 to the side connecting bracket 510 facing the outer surface 111 of the frame, and the third fastening to the side connecting bracket 510 It may include a side bar 520 fastened by bolts 530 .

Furthermore, in order to increase rigidity, as shown in FIG. 3 , the side bar 520 may have a hollow quadrangular pole shape. In particular, a head through hole 521 through which the head of the third fastening bolt 530 passes may be formed on the first surface of the side bar 520 , and a second side bar 520 opposing the first surface may be formed. A fastening hole (not shown) through which the head of the third fastening bolt 530 does not pass may be formed on the surface. Therefore, even if the side bar 520 in the shape of a hollow square column is adopted, the fastening hole (not shown) of the second surface opposite to the first surface through the head through hole 521 formed on the first surface of the side bar 520 . ) can be easily fastened to the third fastening bolt 530 .

In addition, the frame structure (S) of the cultivation house according to an embodiment of the present invention described above, as shown in FIGS. 1 and 4 , may further include a main center connector 600 .

The main center connector 600 is the same as the main connector 300 described above, except that, as shown in FIG. 4 , the highest part facing the frame outer surface 111 has a recessed shape (see 600a). . Here, the reason that the highest part of the main center connector 600 is recessed is to prevent interference with a cover (not shown) covered on the outer surface of the frame 111 even if the side bar 520 is positioned.

As described above, the frame structure (S) 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 it provides the first and second unit frames (U1) (U2) having a frame outer surface 111 and a frame inner surface 121, which are not in the form of a thin pipe, even in heavy rain or heavy snow. can bear enough. In addition, since the first and second unit frames U1 and U2 in a separated form are provided, it can be provided to the installation site in a pre-fabricated state, eliminating the need for a separate cutting operation at the installation site, and the first And the second unit frame (U1) (U2) is provided with a main connector 300 to be placed in a bent state, so there is no need for a separate bending operation at the installation site, the installation period can be significantly shortened. . In particular, since the main connector 300 is provided with a reinforcing part 340 for reinforcing the rigidity of the main connector 300, the rigidity of the frame structure S of the cultivation house of the present invention can be further reinforced.

In addition, according to an embodiment of the present invention, since the position setting unit 400 is provided, the position of the connecting plate 310 before the fastening bolts 320 and 330 are fastened to the unit frames U1 and U2. This can make connection work easier.

In addition, according to an embodiment of the present invention, even if the side bar 520 in the shape of a hollow square column is employed to connect the first and second row frames L1 and L2, the first of the side bar 520 is Since it provides a technical configuration in which a head through hole 521 through which the head of the third fastening bolt 530 is passed is formed on the surface, the first facing the first surface through the head through hole 521 formed on the first surface. It is possible to easily fasten the third fastening bolt 530 to the fastening hole of the two surfaces.

In addition, according to an embodiment of the present disease, the first frame 110 forming the outer surface 111 of the frame to make the unit frames (U1, U2) and the second frame 120 forming the inner surface 121 of the frame (120) Since it provides a technical configuration for binding in a zigzag form with a plurality of binding brackets 130, it is possible to form a truss structure, so that the unit frames U1 and U2 do not bend, and loads applied in various directions can be effectively supported.

Although the preferred embodiment of the present invention has been described in detail above, the scope of the present invention is not limited thereto, and various modifications and improvements by those skilled in the art using the basic concept of the present invention as defined in the following claims are also provided. is within the scope of the

S: Frame structure of the cultivation house U1: Frame of the first unit
U2: 2nd unit frame L1: 1st row frame
L2: second row frame 300: main connector
310: connection plate 320: first fastening bolt
330: second fastening bolt 340: reinforcing part
400: position setting unit 410: position setting hole
420: embossing projection 500: side connector
510: side connection bracket 520: side bar
521: head through ball

Claims (3)

As a framing structure of a covered growing house,
first and second unit frames in a straight line including an outer surface of the frame facing the cover and an inner surface of the frame facing the inside of the cultivation house; and
Including; and a main connector connecting the first and second unit frames in a bent form.
The main connector is
a connecting plate having a first edge facing the outer surface of the frame longer than the second edge facing the inner surface of the frame;
a first fastening bolt for fastening one end of the connecting plate and the first unit frame;
a second fastening bolt for fastening the other end of the connecting plate to the second unit frame; and
A reinforcing portion having a shape in which a central portion of the connecting plate protrudes from an edge portion from one end to the other end
including,
The frame structure of the cultivation house is,
a first row frame in which the first and second unit frames are connected;
a second row frame provided to be spaced apart from the first row frame; and
a side connector connecting the frame in the first row and the frame in the second row;
further comprising,
The side connector,
a side connection bracket bent on the connection plate to face the outer surface of the frame; and
a side bar fastened to the side connection bracket by a third fastening bolt;
including,
The side bar is
It has a hollow square pillar shape,
A head through hole through which the head of the third fastening bolt passes is formed on the first surface of the side bar,
A fastening hole through which the head of the third fastening bolt does not pass is formed on a second surface of the side bar opposite to the first surface,
The head through hole and the fastening hole
located on the axis of the third fastening bolt,
The head of the third fastening bolt is located inside the side bar,
The frame structure of the cultivation house is,
A position setting unit for setting the position of the connecting plate to the first unit frame before the first fastening bolt is fastened
further comprising,
The position setting unit,
a positioning hole formed in the first unit frame; and
an embossing protrusion formed on the connecting plate to fit into the positioning hole;
including,
The embossing protrusion is convexly protruding through press working.
The frame structure of the growing house. delete delete

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