KR20200047044A - The Prefabricated Carbonate GreenHouse - Google Patents

Abstract

The present invention relates to a polycarbonate greenhouse having an individual prefabricated structure of frames and panels, in which the frames, which becomes a foundation frame of the greenhouse, and the panels covering the frame to protect the greenhouse from external factors are divided into a plurality of pieces to realize simple and easy assembly and disassembly and a polycarbonate panel having an external light transmissivity are applied in a triple structure to minimize heat loss of the greenhouse. More specifically, according to the present invention, the polycarbonate greenhouse comprises: the frame (10) provided in a state of being divided into a plurality of pieces and including a plurality of vertical frames (11) vertically installed on the ground at predetermined intervals, one or more connection frames (12) laterally disposed in each separated space of the vertical frames, and a ceiling frame (130) coupled to the upper end of the vertical frames to form a dome of the greenhouse; a cover (20) formed by a size corresponding to the separated space of the frame (10), having a plurality of reinforcement ribs (20a) vertically formed on an inner surface, having a protrusion (21) and a groove (22) formed on the upper and lower ends of the reinforcement ribs to be vertically extended and assembled, and covering all separated spaces in the longitudinal direction of the frame; and a clip (30) fixed and coupled to each cover (20) disposed in the longitudinal direction.

Description

Carbonated greenhouse with individual assembly structure of frame and panel {The Prefabricated Carbonate GreenHouse}

The present invention relates to a carbonate greenhouse having a separate assembly structure of a frame and a panel, and more specifically, a frame and a frame that is a basic frame of a greenhouse and is coated on the frame to protect the greenhouse from external factors. It is configured to be easily and easily disassembled, and adopts a triple structure of carbonate panels with excellent light transmittance to minimize heat loss in the greenhouse, and in particular, frames and panels provided for greenhouse assembly using only carbonate panels without framing. It relates to a carbonate greenhouse having an individual assembly structure.

A greenhouse is a facility used for the purpose of cultivating crops. In particular, the interior space of the facility is maintained while maintaining a proper temperature and humidity, and further provided to be able to fine-tune these functions.

For example, a greenhouse protects the interior space from external environments such as rain and wind by coating a transparent vinyl on the front of the facility, and at the same time, it receives solar heat directly and stores it while the stored heat is lost to the outside. It plays a role of blocking.

As an example of the above-mentioned vinyl house, there is a “Vinyl House” published in Public Utility Model Patent Publication No. 20-2001-0017391, and the technical idea is to allow the ceiling to be opened and closed as needed to control the internal temperature. , It is a technology that installs a spray tube to prevent the snow from loading during heavy snowfall and prevents collapse, and to reduce the internal temperature in case of heat.

However, the vinyl house having the above function uses vinyl as a covering material, and these vinyls have low durability, so frequent replacements are made. From this, the cost for repairs continues to occur, and the discarded vinyl pollutes the environment. And other problems.

To solve this problem, glass greenhouses have been developed in recent years.

As an example of a glass greenhouse, there is an “International Utility Model Patent Publication No. 20-2016-0003489”, “A prefabricated building structure for glass greenhouses”, and the technical idea is four posts that are erected in the corner of the vertex to form a square. A sidewall unit for a side wall disposed in each area between two adjacent posts is provided, and a square top frame disposed at the upper end of the four posts and a rear raft disposed at both ends of the top frame and a roof disposed between the front and rear rafts It includes a roof unit, and consists of a profile that is arranged to form the upper sidewall unit and a rope unit, and a glass panel structure coupled to them.

A greenhouse made of glass has been developed as above, but the glass itself is expensive, and for durability, the thicker the glass, the higher the ash value and weight, which burdens the worker. In particular, in the glass greenhouse, another problem was raised, such as when glass fragments fall to the worker, causing serious injury.

In order to solve the above problems, recently, carbonate panels having excellent light transmittance have been developed to replace glass. In order to attach the carbonate panel to the greenhouse frame, a method of drilling a panel and fixing it with a bolt is mainly used, and such a construction method is not only a long working time, but also a secondary failure such as a breakage of the carbonate panel during drilling. As problems have arisen, it is urgent to develop a carbonate greenhouse that is easy to construct while solving these problems.

Public Utility Model Patent Publication No. 20-2001-0017391 "Vinyl House" Published Utility Model Patent Publication No. 20-2016-0003489 "Prefabricated building structure for glass greenhouse"

The present invention was created in order to more actively solve the above-mentioned problems, and it is possible to assemble and disassemble, by dividing all the framing and covering materials of a greenhouse into a certain size, and forming protrusions and grooves to be able to be combined for each segmented material. The main solution is to provide a carbonate greenhouse capable of improving work efficiency through simple and rapid construction by configuring it to be easily made.

In addition, the present invention is excellent in durability and actively extends the life of the greenhouse by using a material that is not easily damaged, such as glass, and also uses a material with excellent light transmittance to quickly collect the internal heat of the greenhouse and at the same time Another challenge is to provide a carbonate greenhouse that can actively block the loss of collected internal heat to the outside.

In addition, another problem is to provide a greenhouse that can be manufactured only with a carbonated panel without a frame.

In order to achieve the above solution, the configuration of the carbonate greenhouse having the individual assembly structure of the frame and the panel proposed in the present invention is as follows.

The carbonate greenhouse of the present invention is provided in a segmented state in a plurality of pieces, a plurality of erecting frames 11 vertically installed at regular intervals from the ground, and one or more horizontally arranged connecting frames 12 for each spacing space of the erecting frame, and Frame (10) comprising a ceiling frame (13) to form a dome of the greenhouse by combining with the top of the erecting frame; And, is made of a size corresponding to the spacing space of the frame (10), but a plurality of vertically on the inner surface Reinforcement spokes 20a are provided, and projections 21 and grooves 22 are provided at the top and bottom of the reinforcement spokes, respectively, to assemble and extend in the vertical direction, and cover all spaces in the longitudinal direction of the frame (20); and a clip 30 fixedly coupled to each cover 20 disposed in the longitudinal direction;

In addition, it is fitted using a projection 21, which is a fitting means for bonding the vertical joints 21 and 22 and the horizontal reinforcement ribs 20a of each cover 20 without a frame, but the clip 30, which is a binding means, is fitted. It is characterized by using only the horizontal and vertical cover 20 in combination.

In addition, the clip (30) is characterized in that interposed in the reinforcing ribs (20a) formed close to the facing surfaces of the two lids 20 disposed in the longitudinal direction, respectively.

In addition, the upper cover 20 is made of carbonate stacked at least three or more layers to improve the durability while the packing 40 is further interposed between the two covers arranged in the longitudinal direction to be configured to store the internal heat of the greenhouse for a long time. It is characterized by.

According to the present invention made of the configuration as described above, all of the materials constituting the frame and the cover of the greenhouse are provided in a segmented state with a constant size, and assembling and disassembly are provided with protrusions and recesses so that they can be combined with each other. In addition, the frame and the cover can be extended or reduced as much as desired space in the vertical or horizontal direction, thereby freely modifying the size of the greenhouse.

In addition, the present invention can quickly collect the internal heat of the greenhouse by using a carbonate material having excellent light transmittance as a cover, and furthermore, as the upper cover is adopted as a triple structure, the collected internal heat is lost to the outside. At the same time, it is expected to have another effect that can prolong the life of the greenhouse by improving the durability while simultaneously blocking it actively.

In addition, it is possible to assemble a greenhouse only with a carbonated panel without a frame, and there is another advantage that a greenhouse can be manufactured quickly and inexpensively.

1 is a perspective view of a carbonate greenhouse having a separate assembly structure of a frame and a panel constructed according to a preferred embodiment of the present invention.
Figure 2 is an exploded perspective view of the skeleton.
3 is a perspective view of a skeleton.
Figure 4 is a vertical exploded perspective view of the cover.
5 is a horizontal exploded perspective view of the cover.
Figure 6 is a perspective view of Figure 5;
7 is an exploded perspective view of a cover according to another embodiment.
8 is a perspective view of a clip for connecting and fixing a carbonate panel.
9 is a state diagram of the use of the clip.

Hereinafter, with reference to the accompanying drawings, the configuration of the present invention and the effects and effects thereof will be collectively described.

Advantages and features of the present invention, and methods for achieving them will be clarified with reference to embodiments described below in detail together with the accompanying drawings. However, the present invention is not limited to the embodiments disclosed below, and may be implemented in various different forms, and only the present embodiments allow the disclosure of the present invention to be complete, and common knowledge in the technical field to which the present invention pertains. It is provided to completely inform the person having the scope of the invention, and the present invention is only defined by the scope of the claims. And throughout the specification, the same reference numerals refer to the same components.

The present invention relates to a carbonate greenhouse having a separate assembly structure of a frame and a panel.

Above all, it is composed of a number of panels that are covered with the frame and the frame that is the basic frame of the greenhouse to protect the greenhouse from external factors, and is configured to be easily and easily assembled and disassembled, and is a carbonate panel that has excellent light transmittance. It is noted that by adopting a triple structure, the heat loss of the greenhouse is minimized. In particular, it is noted that it is related to a carbonate greenhouse having an individual assembly structure of a frame and a panel capable of assembling the greenhouse with only a carbonate panel without a frame.

1 is a perspective view of a carbonate greenhouse having a separate assembly structure of a frame and a panel constructed according to a preferred embodiment of the present invention.

As shown in FIG. 1, the carbonate greenhouse of the present invention is largely a skeleton 10 which is a basic skeleton of a greenhouse; and a cover that covers the inner and outer front surfaces of the skeleton to distinguish the inner and outer regions of the greenhouse. (20);

2 is an exploded perspective view of a skeleton constructed according to a preferred embodiment of the present invention.

The above frame 10 forms a streamlined frame by interconnecting using a circular pipe or a square pipe, as mentioned above, and provides a cultivation space for the crop. For example, greenhouses are typically made of round pipes or square pipes, but are not limited thereto.

The upper frame 10 is provided in a segmented state in a plurality of pieces, a plurality of standing frames 11 vertically installed at regular intervals from the ground, and one or more connecting frames 12 arranged horizontally in each space of the standing frame, and It can be divided into a ceiling frame 13 that forms a dome of the greenhouse by combining with the top of the erecting frame.

As described above, the frames provided in segments into the standing frame 11, the connecting frame 12, and the ceiling frame 13 are provided with fitting protrusions (A) and fitting holes (B) on the upper and lower surfaces, respectively, so that they can be mutually fastened. do.

Based on Figure 2, for example, after connecting the two standing frames 11 through the fitting protrusions (A) and fitting holes (B), installed in the vertical direction on the ground, and placed on the standing frame 11 stacked on the top The connecting frame 12 is arranged in the longitudinal direction. For example, the number of installed frames 11 may be changed according to the area of the greenhouse, and is not limited to two as mentioned above.

The upper connecting frame 12 is also provided with fitting protrusions (A) and fitting holes (B) at each end, as well as another fitting protrusions (A) and fitting holes on the upper and lower sides of the area where the fitting holes are provided. (B) is further provided, and a fitting hole (B) is formed through the left and right surfaces.

In other words, the upper side of the connecting frame 12 is as shown in FIG. 2, with the first side as the first surface and the second, third, and fourth surfaces in the clockwise direction based on the first surface. The first surface is provided with a fitting protrusion (A), and the second, third and fourth surfaces are formed with fitting holes (B).

The connecting frame 12 configured as described above is disposed in the longitudinal direction on the top of the stand, as described above, and is arranged such that the first side faces the upper side and the third side faces the lower side. From this, the fitting protrusion A formed on the upper surface of the standing frame 11 is coupled to the fitting hole B formed on the third surface of the connecting frame 12.

On the other hand, the upper ceiling frame 13 also connects the two ceiling frames 13 through the fitting projections (A) and the fitting holes (B), and then the connecting frame (12) to the fitting holes (B) formed on the bottom surface of the ceiling frame. The fitting projections (A) formed on the first surface of the are combined.

And the fitting projection (A) formed on the upper surface of the upper ceiling frame 13 is coupled to the fitting hole (B) formed on the second surface of another connecting frame 12 disposed in the longitudinal direction on the upper portion of the ceiling frame.

3 is a perspective view of a completed frame by interconnecting the standing frame 11 and the connecting frame 12 and the ceiling frame 13 according to a preferred embodiment of the present invention.

As illustrated in FIG. 3, the frame connected to the standing frame 11, the connecting frame 12, and the ceiling frame 13 may be extended in the longitudinal direction to adjust the area of the greenhouse.

4 is an exploded perspective view of a cover constructed according to a preferred embodiment of the present invention.

As shown in Figure 4, the cover 20 of the present invention is made of a size corresponding to the spacing space of the frame 10, but is provided with a plurality of reinforcing spokes 20a in the vertical direction on the inner surface, the top and bottom of the reinforcing spokes Each of the projections 21 and the grooves 22 is provided to extend the assembly in the vertical direction, and serves to cover all the spaces in the longitudinal direction of the frame.

As described above, the cover 20 is formed with several or more semicircular reinforcement ribs 20a on the inner surface in the vertical direction, thereby forming an air layer while improving durability, thereby inducing the internal heat of the greenhouse to be stored for a long time.

In addition, the upper cover 20 uses a carbonate panel having a very good light transmittance, and adopts a three-layered structure to quickly collect and store heat in the greenhouse while preventing the collected heat from being lost to the outside. .

Accordingly, the housing may be configured by assembling in the vertical and horizontal directions only with the cover 20.

5 is an exploded perspective view of the cover in the longitudinal direction according to a preferred embodiment of the present invention.

As shown in Figure 5, the cover 20 of the present invention is provided with projections 21 and recesses 22 on the left and right surfaces, respectively, as in the case where the projections and recesses are formed on the upper and lower surfaces, thereby inducing extended coupling in the longitudinal direction. , It is configured to cover the skeleton (10) as a whole.

Then, the plurality of lids 20 arranged in the longitudinal direction is coupled to the clip 30 to the reinforcing ribs 20a formed close to the surfaces facing each other. The clip is provided with two grooves having an inner diameter corresponding to the reinforcing ribs so as to be able to be coupled to the reinforcing ribs 20a between the lids, thereby firmly coupling both lids.

Meanwhile, a packing 40 made of synthetic resin such as rubber, urethane, or PVC is further inserted between the abutting surfaces of the cover 20 closely arranged in the longitudinal direction.

The upper packing 40 is provided closely to the entire contact surface between the two lids 20 and provides a gripping portion so that the user can easily replace the packing by gripping it as a round head is provided on the inner side of the lid.

7 relates to a cover according to another embodiment of the present invention, by further forming a fitting piece and a fitting hole on the upper, lower, left, and right sides of the cover, and staggeringly coupling them to each other, thereby inducing a double bond of the cover, resulting in a more robust bonding force. It is a given perspective view and sectional view.

As shown in FIG. 7, the cover 20 of the present invention is further provided with fitting pieces 23 protruding outwardly from the lower side and the right side, respectively, and formed recesses to correspond to the fitting pieces on the upper side and the left side, respectively. The fitting hole 24 is further provided.

Thus, the fitting piece 23 is staggered and coupled to the fitting hole 24, and the fitting piece 23 has a separate fastening protrusion 23a and a separate fastening hole 24a for the fitting hole 24. It is further provided to induce mutual coupling, thereby inducing a more robust coupling.

On the other hand, the fitting piece 23 is formed to protrude in the same line as the outer surface of the cover 20, on the contrary, the fitting hole 24 is preferably formed to be recessed in the same line as the inner surface of the cover. This is because rainwater flows along the outer surface of the cover 20 and serves to block rainwater from easily penetrating into the coupling region of the cover 20.

On the other hand, the cover 20 of the present invention is excellent in durability by stacking three layers of carbonates, and a plurality of reinforcing ribs 20a are further formed at regular intervals on the inner surface of the cover to produce a greenhouse with only a cover without a separate frame 10 This is possible.

8 is a perspective view of a cover that combines clips constructed according to another embodiment of the present invention, and FIG. 9 is a use state diagram sequentially showing a process of combining the clips.

As shown in FIG. 8, the clip 30 of the present invention engages the reinforcing ribs 31 of the left cover 20 and the reinforcing ribs 20a of the right cover 20. It consists of the right high government (32) and is integrally combined by a mutual hinge, and consists of the auxiliary high government (33) which hinges from the left high government (31) but extends from the left high government to the right high government and pressurizes the high government.

As shown in Figure 9, the left and right fixing portions 31 and the right and right fixing portions 32 are retracted to the rear by fixing the left and right fixing portions 31 and the right and left fixing portions 20a based on the hinged portion. In the intervening, the auxiliary fixing portion 33 is rotated as if pulling, and is inserted into the end portion of the right fixing portion 32 to be fixed.

For example, the auxiliary fixing portion 33 is made of a material having a certain elasticity, and the auxiliary fixing portion is made shorter than the distance from the joining surface of the left fixing portion to the end of the right fixing portion by the length of the auxiliary fixing portion. By fitting the government somewhat tightly, the role of actively improving the bonding force between the left cover 20 and the right cover 20 is intended.

Carbonated greenhouses having the individual assembly structure of the frame and the panel composed of the above structure are provided in a state of being segmented to a certain size in all the materials constituting the frame and the cover of the greenhouse, and protrusions and grooves are provided to be able to be combined with each material. It is easy to assemble and disassemble, and the frame and cover can be extended or reduced as much as you like in the vertical or horizontal direction, so you can freely modify the size of the greenhouse. Also, by using a carbonate material with excellent light transmittance as a cover, the greenhouse It is possible to quickly collect the internal heat of, and furthermore, by adopting the upper cover as a triple structure, it can actively prevent the internal heat collected from being lost to the outside, and at the same time, improve the durability and extend the life of the greenhouse. .

The present invention described above has been described with reference to one embodiment shown in the drawings, but this is only an example, and various modifications and equivalent other embodiments are possible from those skilled in the art. Should be clarified. Therefore, the true technical protection scope of the present invention should be interpreted by the appended claims, and all technical spirits within the equivalent scope should be interpreted as being included in the scope of the present invention.

10. Frame 11. Entry frame
12. Connecting frame 13. Ceiling frame
13a. Ceiling 20. Cover
20a. Reinforcement 20b. Arched cover
21. Protrusion 22. Groove
30. Clip 40. Packing

Claims (3)

It is provided in a segmented state in a plurality of pieces, and a plurality of covers 21 vertically installed at regular intervals from the ground, and one or more transverse spaces 21 and arcuate covers 20b spaced apart from each other. A ceiling 13a combined with the parallel cover 20 to form a dome of the greenhouse;
A plurality of reinforcing ribs 20a are provided on the inner surface of the cover 21 in the vertical direction, and projections 21 and recesses 22 are provided at the upper and lower ends of the reinforcing ribs, respectively, to extend assembly in the vertical direction. A cover 20 covering all spaces in the direction;
A clip 30 fixedly coupled to each cover 20 disposed in the longitudinal direction;
Carbonate greenhouse having a separate assembly structure of the frame and the panel, characterized in that consisting of.
According to claim 1,
The clip 30 is a carbonate greenhouse having a separate assembly structure of a frame and a panel, characterized in that they are interposed in reinforcing ribs 20a formed close to opposite surfaces of the two covers 20 arranged in the longitudinal direction, respectively. .
According to claim 1,
The top cover 20 is composed of at least three layers of stacked carbonates, while improving the durability, while the packing 40 is further interposed between the two covers arranged in the longitudinal direction to be configured to store the internal heat of the greenhouse for a long time. Carbonate greenhouse with individual assembly structure of frame and panel.

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