KR20190016224A - Frame structure of cultivation house - Google Patents

Abstract

The present invention provides a frame structure of a cultivation house which can withstand heavy rainfall, heavy snow, and the like, and can omit cutting and bending work to significantly shorten the installation period. To this end, the frame structure of the cultivation house of the present invention is a frame structure of a cultivation house covered with a cover such as plastic. The frame structure comprises: first and second unit frames having a straight line shape including a frame outer surface facing the cover, a frame inner surface facing the inside of the housing, and a frame center surface connecting the gap between the frame outer surface and the frame inner surface; and a connection unit connecting the first and second unit frames and adjusting and connecting the distance between the first and second unit frames.

Description

Frame structure of cultivation house

The present invention relates to a frame structure of a cultivation house in which crops and the like can be cultivated.

Generally, a cultivated house is used for cultivation of vegetables, flowers, or fruits in a farm, etc., and it has rapidly developed from the fact that it can cultivate forcible cultivation or tropical plants, and it has become the most important horticultural facility nowadays.

Such a cultivating house includes a plurality of main pipes installed at regular intervals on the ground and bending in a substantially semicircular shape, a straight side pipe connecting the plurality of main pipes to each other so as to be supported by each other, Includes vinyl covering the stomach.

In particular, since the size of the cultivating house must be changed according to the installation area, the main pipe is processed and installed directly by the installer in the field. For example, installers should cut a steel pipe that is thinner in the snow to a certain length considering the installation area and the height of the cultivated crop, and consider the installation area and the height of the cultivated crop, The steel pipe is bent in a substantially semicircular shape. Here, the bending work of the steel pipe is performed directly by installers or is made of a separate bending machine.

However, such a cultivating house has a structure in which the slender main pipe constituting the skeleton is difficult to support a large load, and thus it is easily bent or collapsed due to heavy rain accompanied by strong wind in the summer or winter snowfall, to be.

In addition, since a plurality of main pipes are processed and installed directly by the installation workers in the field, the period of time required for installing the cultivation house is considerably long, which leads to an increase in labor costs and a considerable burden on the farmhouse. Also, according to the skill level of the installer, the perfection of the cultivation house can be changed.

The technical problem of the present invention is to provide a framed structure of a cultivating house which can withstand heavy rainfall, heavy snow, etc., and which can cut off the cutting and bending work to shorten the installation period considerably.

Another object of the present invention is to provide a frame structure of a cultivating house which can make the total height of a plurality of frame structures the same regardless of the height of the ground.

In order to achieve the above object, a frame structure of a cultivating house according to an embodiment of the present invention is a frame structure of a cultivating house covered with a lid such as a vinyl or the like, and has a frame outer surface facing the lid, First and second unit frameworks having a straight line shape including a frame inner surface and a frame center surface connecting between the outer surface of the frame and the inner surface of the frame; And a connecting unit connecting the first and second unit frames and adjusting and connecting the interval between the first and second unit frames.

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

Wherein each of the first and second unit frameworks includes a first frame outer surface constituting a part of the outer surface of the frame, a first inner frame inner surface constituting a part of the inner surface of the frame, and an inner surface of the first frame outer surface, A first frame including a first frame center surface connected thereto; And a second frame center surface connecting the second frame outer surface constituting the remainder of the frame outer surface and the second frame outer surface constituting the remainder of the frame outer surface and the rest of the frame inner surface and the inner surface of the second frame outer surface, frame; And a binding portion for binding the first and second framework central planes.

The first frame outer surface and the first frame inner surface may protrude from the first frame center surface in a first direction and the side edges of the outer surface of the first frame and the side edges of the inner surface of the first frame may face each other The outer surface of the second framework and the inner surface of the second framework may protrude from the second framework central surface in a second direction opposite to the first direction, The side edges of the outer surface of the second frame and the side edges of the inner surface of the second frame may be provided with second frame sides bent in a direction facing each other.

For example, the connection unit may include first and second connection brackets provided at ends of the first and second unit frame members, respectively. A fastening member for fastening the first and second connection brackets; And an interval adjuster provided on the first connection bracket to adjust an interval between the first and second unit frameworks.

Wherein the interval adjusting member includes an interval adjusting hole formed to penetrate a portion of the first connection bracket located at an end of the first unit frame and having an elongated shape; An interval adjusting bolt inserted into the interval adjusting hole and passing through an end of the first unit frame; And a gap adjusting nut coupled to a distal end of the gap adjusting bolt and fastening the first connecting bracket to an end of the first unit frame, wherein the gap adjusting nut is loosened, The gap can be adjusted by moving along the gap adjusting hole.

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

Wherein the gap adjusting member includes a bolt unlocking member positioned between the gap adjusting bolt and the first connecting bracket to prevent the gap adjusting bolt from being loosened; And a nut loosening preventing member positioned between the gap adjusting nut and the end of the first unit frame to prevent the gap adjusting nut from being loosened.

Wherein the first and second connection brackets are provided on the first side of the first unit frame and the first side of the second unit frame, respectively, or the second side of the first unit frame and the second side of the second unit frame Respectively.

The first connection bracket may have a shape in which the length of the first connection bracket is increased in the longitudinal direction of the first unit frame in proportion to the outer surface of the frame from the inner side of the frame.

Wherein the fastener includes first and second fastening fingers vertically protruding from the first and second unit frameworks, respectively, of the first and second connection brackets facing each other; And first and second fastening bolts sequentially disposed at intervals along the direction from the outer surface of the frame to the inner surface of the frame to penetrate the first and second fastening bolts; And first and second fastening nuts coupled to ends of the first and second fastening bolts to fasten the first and second fastening feathers.

As another example, the connecting unit may include: a connecting hole having first and second accommodating spaces at both ends thereof to receive and connect the central surfaces of the respective end portions of the first and second unit frame members; And an interval adjusting unit provided on the connecting hole to adjust the interval between the first and second unit frame members.

The gap adjusting hole may be formed in a shape of an elongated hole formed through a portion of the connecting hole that forms the first accommodating space. An interval adjusting bolt inserted into the interval adjusting hole and passing through an end of the first unit frame; And a short adjustment nut coupled to a distal end of the gap adjusting bolt and fastening the connecting unit to an end of the first unit frame, wherein the first unit frame is connected to the short- So that the interval can be adjusted.

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

Wherein the short adjuster comprises: a bolt loosening preventing member positioned between the gap adjusting bolt and the connecting hole to prevent the gap adjusting bolt from being loosened; And a nut loosening preventing member positioned between the short adjustment nut and the coupling to prevent the short adjustment nut from being loosened.

The connecting portion may have a shape in which the central portion thereof is curved convexly toward the outer surface of the frame.

As described above, the frame structure of the cultivating house according to the embodiment of the present invention can have the following effects.

According to the embodiment of the present invention, since the first and second unit frameworks having the outer surface of the frame and the inner surface of the frame are provided instead of the thin pipe type, they can withstand heavy rainfall or heavy snow. In addition, since the first and second unit frameworks of the separated form are provided, it is possible to provide the first and second unit frameworks at the installation site in a state of being manufactured in the factory, so that no separate cutting operation is required at the installation site, Since the connection unit is provided so that the boundary portion is placed in a bending state by adjusting the interval of the connection portion, the additional bending work at the installation site is not necessary, and the installation period can be shortened considerably.

Further, according to the embodiment of the present invention, since the connecting unit that provides the gap between the first unit frame and the second unit frame is provided, regardless of the height of the ground, that is, whether the ground surface is high or low, The height of the plurality of frame structures installed at intervals along the longitudinal direction of the house with a gap between the first unit frame and the second unit frame can be made uniform as a whole.

1 is a front view schematically showing a frame structure of a cultivating house according to an embodiment of the present invention.
FIG. 2 is a perspective view schematically showing a unit frame of a frame structure of the growing house of FIG. 1. FIG.
FIG. 3 is an enlarged view of the "A" portion of FIG. 1 schematically showing a state where the first and second unit frames are connected by first and second connection brackets or the like.
FIG. 4 is a view showing a state in which the gap between the first and second unit frames is adjusted in a direction in which the interval between the first and second unit frames increases.
5 is a view showing an example of a trapezoidal connection bracket in which the length of the unit frame is increased in the longitudinal direction of the unit frame from the inner surface of the frame to the outer surface of the frame.
6 is a front view schematically showing a frame structure of a cultivating house according to another embodiment of the present invention.
Fig. 7 schematically shows the connector of Fig. 6, wherein (a) is a perspective view of the connector and (b) is a front view of the connector.
FIG. 8 is an enlarged view of the "A" portion of FIG. 6, schematically showing a state where the first and second unit frames are connected to each other by means of a connector and a gap regulator;
FIG. 9 is a view showing a state in which the gap between the first and second unit frames is adjusted in a direction in which the interval between the first and second unit frames is increased by the gap adjusting unit of FIG. 8;
10 is a view showing an example of connectors having a shape in which the central portion is curved convexly 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, which will be readily apparent to those skilled in the art to which the present invention pertains. The present invention may, however, be embodied in many different forms and should not be construed as limited to the embodiments set forth herein.

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

FIG. 3 is an enlarged view of the "A" portion of FIG. 1, schematically showing a state where the first and second unit frames are connected by first and second connection brackets or the like, FIG. 4 is a cross- And the distance between the first unit frame and the second unit frame is increased.

5 is a view showing an example of a trapezoidal connection bracket in which the length of the unit frame is increased in the longitudinal direction of the unit frame from the inner surface of the frame to the outer surface of the frame.

The frame structure SS of the cultivating house according to an embodiment of the present invention is a framed structure of a cultivating house covered with a lid such as a vinyl or the like. As shown in Figs. 1 to 5, And includes a frame (U1) (U2) and a connection unit (200). Hereinafter, each of the constituent elements will be described in detail with continued reference to Figs. 1 to 5. Fig.

As shown in Figs. 1 to 5, the first and second unit frames U1 and U2 each have a straight line shape. Therefore, the first unit frame U1 and the second unit frame U2, And includes frame outer surfaces 101a and 102a and frame inner surfaces 101b and 102b 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 the strength. As an example of the double frame structure, each of the first and second unit frames U1 and U2 includes a first frame 110, a second frame 120, a binding unit (not shown) ).

The first frame 110 includes a first frame outer surface 101a constituting a part of the frame outer surfaces 101a and 102a, a first frame inner surface 101b constituting a part of the inner frame surfaces 101b and 102b, And a first frame center surface 101c connecting the frame outer surface 101a and the first frame inner surface 101b. More specifically, the first frame 110 may have a "C" -shaped cross section. That is, the first frame outer surface 101a and the first frame inner surface 101b can be vertically protruded from the first frame center surface 101c in the first direction, and the side edges of the first frame outer surface 101a First side walls 101d may be provided on the side edges of the inner side wall 101b.

The second frame 120 includes a second frame outer surface 102a constituting the remainder of the frame outer surfaces 101a and 102a and a second frame inner surface 102b constituting the remainder of the inner frame surfaces 101b and 102b, And a second frame center face 102c connecting the frame outer face 102a and the second frame inner face 102b. More specifically, the second frame 120 may have a cross-section of "C" like the first frame 110. That is, the second outer frame surface 102a and the second inner frame surface 102b can be vertically protruded in the second direction opposite to the first direction on the second frame center surface 102c, The second side wall 102d and the side wall edge of the second side wall 102b may be provided with a second side wall 102d bent in a direction facing each other.

The binding portion can bind the first and second frame center faces 101c and 102c, though not shown. For example, a welding or bolting method can be used as the binding portion.

Therefore, since the first and second unit frames U1 and U2 are smaller in size than the conventional thin pipe and are provided in a straight line shape, they can be easily transported. Since the first and second unit frames U1 and U2 having the outer frame surfaces 101a and 102a and the inner frame surfaces 101b and 102b are not provided in a narrow pipe shape, have. Since the first and second unit frames U1 and U2 are separately provided, they can be provided at the installation site in a state of being manufactured in the factory, and no separate cutting operation is required at the installation site. Can be significantly shortened.

The connection unit 200 includes first and second connection brackets 210 and 220, a fastener 230, and an interval adjuster 600, as shown in FIGS. 1 to 5 .

3 and 4, the first and second connection brackets 210 and 220 are plate-shaped and are provided at the ends of the first and second unit frames U1 and U1, respectively, do. More specifically, the first and second connection brackets 210 and 220 are mounted on the first frame side 101d of the first frame 110 (or / and the second frame side 102d of the second frame 120) 3 to 5, the first connection bracket 210 is arranged in a direction from the first inner frame surface 101b to the first outer frame surface 101a, The second connection bracket 220 may have a trapezoidal shape in which the length of the second connection bracket 220 is longer than the first connection bracket 220. The second connection bracket 220 may also have such a trapezoidal shape, 210 and 220 are placed in the bending state, the bending operation is not required at the installation site, and the installation period can be shortened considerably. The second connection brackets 210 and 220 are installed between the first and second unit frames U1 and U2 The first and second connection brackets 210 and 220 can be used between the first and second unit frames U1 and U2 regardless of the height of the ground, that is, The height of the plurality of frame structures SS installed at intervals along the longitudinal direction of the house can be made uniform.

The fastening tool 230 fastens the first and second connection brackets 210 and 220. 3 and 4, the fastener 230 includes first and second fastening feathers 231 and 232, first and second fastening bolts 233 and 234, And may include first and second fastening nuts 235 and 236. Hereinafter, with reference to FIGS. 3 and 4, each of the components constituting the fastener 230 will be described in detail.

The first fastening collar 231 may protrude perpendicular to the first unit frame U1 at a portion facing the second connection bracket 220 of the first connection bracket 210. [ The second fastening collar 232 may protrude perpendicular to the second unit frame U2 at a portion of the second connection bracket 220 facing the first connection bracket 210. [ The first and second fastening bolts 233 and 234 are sequentially placed at intervals along the direction from the first framework outer surface 101a toward the first framework inner surface 101b to form first and second fastening bolts 231, (Not shown). Further, a portion corresponding to the first and second fastening bolts 233 and 234 of the first fastening collar 231 and a portion corresponding to the first fastening bolt 233 and the second fastening bolt 233 234 may be formed through the insertion hole T, respectively. The first and second fastening nuts 235 and 236 are coupled to the ends of the first and second fastening bolts 233 and 234 to fasten the first and second fastening nails 231 and 232 have.

3, in order to strengthen the binding force of the first and second connection brackets 210 and 220, the above-described fastening tool 230 has an intermediate fastening bolt 435 and an intermediate fastening nut (437). The intermediate fastening bolt 435 is interposed between the first and second fastening bolts 233 and 234 and can penetrate the first and second fastening fingers 231 and 232. Further, the insertion hole T is passed through a portion of the first fastening collet 231 corresponding to the intermediate fastening bolt 435 and a portion of the second fastening collet 232 corresponding to the intermediate fastening bolt 435 . The intermediate fastening nut 437 is coupled to the distal end of the intermediate fastening bolt 435 to fasten the first and second fastening fasteners 231 and 232.

In addition, the fastener 230 described above may further include a bolt releasing member N1 and a nut releasing preventing member N2, as shown in FIG. 4, to prevent loosening. The bolt loosening preventing member N1 is located between the bolts of at least one of the first fastening bolt 233, the second fastening bolt 234 and the intermediate fastening bolt 235 and the first fastening bolt 231, Thereby preventing the bolt from loosening. For example, the bolt releasing member N1 may be a washer having a slip function. The nut fastening preventing member N2 is positioned between at least one nut of the first fastening nut 235, the second fastening nut 236 and the intermediate fastening nut 437 and the second fastening bolt 232, Thereby preventing the nut from loosening. For example, the nut releasing member N2 may be a washer having a slip prevention function.

The gap adjuster 500 is provided on the first or second connection bracket 210 or 220 to adjust the interval between the first unit frame U1 and the second unit frame U2. For example, the gap adjuster 500 may include a gap adjusting hole 510, a gap adjusting bolt 520, and a gap adjusting nut 530, as shown in FIGS. 3 and 4. Hereinafter, with reference to FIG. 3 and FIG. 4, each component of the gap adjusting member 500 will be described in detail. For convenience, only the spacing adjustment tool 500 provided in the first connection bracket 210 will be described

The gap adjusting hole 510 may be formed to penetrate a portion of the first connection bracket 210 located at the end of the first unit frame U1 and may have an elongated shape. In particular, the gap adjusting hole 510 may be formed long in the longitudinal direction of the first unit frame U1. Accordingly, the interval adjusting bolt 520 can move along the interval adjusting hole 510 in the longitudinal direction of the first unit frame U1. That is, as shown in FIG. 4, the first unit frame U1, in which the gap adjusting bolts 520 are fastened, can be moved in the longitudinal direction thereof through the gap adjusting hole 510.

The gap adjusting bolt 520 may be inserted into the gap adjusting hole 510 to penetrate the end of the first unit frame U1. The gap adjusting nut 530 may be coupled to the end of the gap adjusting bolt 520 to fasten the first connecting bracket 210 to the end of the first unit frame U1. Particularly, in a state where the interval adjusting nut 530 is loosened, the interval can be adjusted by moving the first unit frame U1 along the interval adjusting hole 510.

Accordingly, since the interval between the first and second unit frames U1 and U2 can be adjusted through the gap adjusting unit 500, the gap between the first and second unit frames U1 and U2 can be adjusted regardless of the height of the ground, The height of the plurality of frame structures SS installed at intervals along the longitudinal direction of the house can be made uniform by adjusting the distance between the first and second unit frames U1 and U2 have.

3, the gap adjusting member 500 may further include a bolt loosening preventing member 540 and a nut loosening preventing member 550. As shown in FIG.

The bolt loosening preventing member 540 is positioned between the gap adjusting bolt 520 and the first connecting bracket 210 to prevent loosening of the gap adjusting bolt 520. For example, the bolt releasing member 540 may be a washer having a slip function.

The nut releasing member 550 is positioned between the gap adjusting nut 530 and the end of the first unit frame U1 to prevent loosening of the gap adjusting nut 530. [ For example, the nut releasing member 550 may be a washer having a slip prevention function.

Hereinafter, a frame structure S of a cultivating house according to another embodiment of the present invention will be described with reference to FIGS. 6 to 10. FIG.

FIG. 6 is a front view schematically showing a frame structure of a cultivating house according to another embodiment of the present invention, FIG. 7 is a schematic view of the connection port of FIG. 6, wherein (a) is a perspective view of a connection port, FIG.

8 is an enlarged view of the "A" portion of FIG. 6, schematically showing a state where the first and second unit frames are connected by a connecting port and a gap regulating member, FIG. 9 is an enlarged view of the " FIG. 3 is a view showing a state in which the distance between two unit frames is adjusted to be increased. 10 is a view showing an example of connectors having a shape in which the central portion is curved convexly toward the outer surface of the frame.

The frame structure S of the cultivating house according to another embodiment of the present invention is a framed structure of a cultivating house covered with a cover such as a vinyl or the like and comprises a connecting unit 300 or 600, The same as the embodiment of the present invention described above, so that the connection unit will be mainly described below.

The connection unit may include a connector 300 and a gap adjuster 600.

7 to 9, the connector 300 includes first and second receiving spaces U1 and U2 for receiving and connecting ends of the first and second unit frames U1 and U2, respectively, 310) 320 at both ends thereof. In particular, each of the first and second receiving spaces 310 and 320 can receive the frame center faces 101c and 102c of the first and second unit frames U1 and U2. Accordingly, since the frame center faces 101c and 102c are connected while being accommodated in the first and second accommodating spaces 310 and 320, the connector 300 is separated from the first and second unit frames U1 and U2 So that the connection operation can be performed more easily. Furthermore, when the first and second receiving spaces 310 and 320 are formed to be slightly smaller than the sum of the thicknesses of the first and second frame center faces 101c and 102c, You will be able to stop it further.

In addition, as shown in FIGS. 7 to 10, the connecting portion 300 may have a shape in which the central portion thereof is curved convexly toward the frame outer surfaces 101a and 102a. Therefore, when the first and second unit frames U1 and U2 are connected by the connector 300 due to the curved shape, the boundary is bended. Therefore, No work is required, and the installation period can be shortened considerably. Since the gap 300 is provided between the first unit frame U1 and the second unit frame U2 due to the connection 300, the connection 300 can be used regardless of the height of the ground, that is, So that the height of the plurality of frame structures S provided at intervals along the longitudinal direction of the house with a gap between the first and second unit frames U1 and U2 can be made uniform as a whole.

The spacing adjuster 600 may be provided at the connector 300 to adjust the interval between the first and second unit frames U1 and U2. For example, the spacer 600 may include an interval adjusting hole 610, an interval adjusting bolt 620, and a gap adjusting nut 630, as shown in FIGS. 8 and 9. Hereinafter, with reference to FIGS. 8 and 9, the constituent elements of the gap adjuster 600 will be described in detail. For convenience, only the spacing adjuster 600 provided at the connection portion of the connector 300 with the end of the first unit frame U1 will be described

The interval adjusting hole 610 may be formed to penetrate through a portion of the connector 300 located at the end of the first unit frame U1, that is, a portion forming the first accommodating space 310, and may have an elongated shape. In particular, the gap adjusting hole 610 may be formed long in the longitudinal direction of the first unit frame U1. Therefore, the gap adjusting bolt 620 can move along the gap adjusting hole 610 in the longitudinal direction of the first unit frame U1. That is, as shown in FIG. 9, the first unit frame U1 having the gap adjusting bolts 620 fastened through the gap adjusting holes 610 can 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 connecting hole 300 to the end of the first unit frame U1. Particularly, in a state where the interval adjusting nut 630 is loosened, the interval can be adjusted by moving the first unit frame U1 along the interval adjusting hole 610.

Accordingly, since the interval between the first and second unit frames U1 and U2 can be adjusted through the gap adjuster 600, the gap between the first and second unit frames U1 and U2 can be adjusted regardless of the height of the ground, The height of a plurality of frame structures S installed at intervals along the longitudinal direction of the house can be made uniform by adjusting the distance between the first and second unit frames U1 and U2 have.

In addition, the gap adjuster 600 may further include a bolt loosening preventing member 640 and a nut loosening preventing member 650, as shown in FIG.

The bolt loosening preventing member 640 is positioned between the gap adjusting bolt 620 and the connecting hole 300 to prevent loosening of the gap adjusting bolt 620. For example, the bolt releasing member 640 may be a washer having a non-slip function.

The nut unlocking 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 releasing member 650 may be a washer having a non-slip function.

As described above, the frame structure of the cultivation house according to the embodiments of the present invention can have the following effects (SS) (S).

According to the embodiments of the present invention, first and second unit frames U1 and U2 having a frame outer surface 101a, a frame inner surface 101b, and a frame center surface 101c are provided, So it can withstand heavy rain and heavy snow. Since the first and second unit frames U1 and U2 are separately provided, it is possible to provide the unit frames U1 and U2 in a state of being manufactured in the factory so that no separate cutting operation is required at the installation site. And the second unit frame U1 and the second unit frame U2, so that the boundary unit is in a bend state. Therefore, it is not necessary to perform a separate bending operation at the installation site, Can be significantly shortened.

Further, according to the embodiments of the present invention, since the connecting unit 200 that provides the space between the first and second unit frames U1 and U2 is provided, the height of the ground, that is, the height of the ground A plurality of frame structures SS (S) spaced apart from each other along the longitudinal direction of the house with a gap between the first unit frame U1 and the second unit frame U2 by using the connecting unit 200, Can be made uniform in height as a whole.

According to another embodiment of the present invention, since the first and second accommodating spaces 310 and 320 are provided in the connector 300, the frame center faces 101c and 102c are formed in the first and second accommodating spaces The coupling 300 can be prevented from being detached from the first and second unit frames U1 and U2, so that the connecting operation can be performed more easily.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is to be understood that the invention is not limited to the disclosed exemplary embodiments, Of the right.

SS, S: Frame structure U1: First unit frame
U2: second unit frame 110: first frame
101a: first frame outer surface 101b: first frame inner surface
101c: first frame center plane 120: second frame
102a: second frame outer surface 102b: second frame inner surface
102c: second frame center face 102d: second frame side face
200: connection unit 210: first connection bracket
220: second connection bracket 230: fastener
231: first fastening collar 232: second fastening collar
233: first fastening bolt 234: second fastening bolt
235: first fastening nut 236: second fastening nut
435: intermediate fastening bolt 437: intermediate fastening nut
N1, 540: Bolt loosening preventing member N2, 550: Nut loosening preventing member
500: Spacing adjuster 510: Spacing adjuster
520: Spacing bolt 530: Spacing nut
300: connector
310: first accommodation space 320: second accommodation space
600: Spacer 610: Spacer
620: Spacing bolt 630: Spacing nut
640: Bolt loosening preventing member 650: Nut loosening preventing member

Claims (3)

It is a framed structure of cultivated house covered with plastic cover.
First and second unit frameworks having a straight line shape including an outer surface of a frame facing the cover, a frame inner surface facing the inside of the house, and a frame central surface connecting between the outer surface of the frame and the inner surface of the frame; And
And a second unit frame connecting the first unit frame and the second unit frame,
Containing
Frame structure of growing house. The method of claim 1,
The connecting unit includes:
First and second connection brackets provided respectively at the ends of the first and second unit frame members;
A fastening member for fastening the first and second connection brackets; And
And an interval adjusting unit provided on the first connecting bracket for adjusting an interval between the first and second unit frames,
Containing
Frame structure of growing house. The method of claim 1,
The connecting unit includes:
A connector having first and second accommodating spaces at both ends thereof for respectively receiving and connecting the center faces of the respective end portions of the first and second unit frame members; And
And an interval adjusting unit provided in the connector for adjusting an interval between the first and second unit frames,
Containing
Frame structure of growing house.

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