KR20200033651A - The Prefabricated Carbonate GreenHouse - Google Patents

Abstract

The present invention relates to a carbonate greenhouse having an individual assembly structure of a frame and a panel, which is simply and easily assembled and disassembled by dividing a framework which is a base frame of a greenhouse into a plurality of parts, secures a coupling force of the framework by a connection member horizontally installed at each separation space of the framework while minimizing internal heat loss of a greenhouse by coating a front surface of the framework by adopting a carbonate panel having high light transmittance in a triple structure, reduces an installation range of the carbonate panel by splitting the separation space into two parts by the connection member, and inserts upper and lower surfaces of the carbonate panel into the connection member to firmly restrict a position of the framework and the carbonate panel. The carbonate greenhouse having an individual assembly structure of a frame and a panel of the present invention comprises: a support unit (10) divided into a plurality of parts, and horizontally installed on the ground by a coupling protrusion (10-1) and a coupling hole (10-2) provided at both ends thereof; a framework (100) vertically inserted from the support unit, and including a plurality of standing units (20) installed at intervals in a longitudinal direction to form a dome of a greenhouse; and a cover (200) coated on a front surface of inner and outer surfaces of the framework. The carbonate greenhouse (1) further comprises at least one connection member (300) horizontally disposed at each separation space formed between the standing units (20) to connect the support unit and the standing units or to connect the two standing units so as to secure a coupling force of the framework, and also to split the separation space into two parts to reduce a coating range of the cover. Also, fitting holes (310) are provided in upper and lower surfaces of the connection member (300) to insert upper and lower sides of the cover (200) so as to allow positions of the framework and the cover to be fixed.

Description

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

The present invention relates to a carbonate greenhouse having respective assembly structures of a frame and a panel, and more specifically, it is configured to be easily and easily assembled and disassembled by dividing a plurality of frames that form the basis of the greenhouse, By adopting a high-transmittance carbonate panel as a triple structure and covering it on the front of the frame, the internal heat loss of the greenhouse is minimized, and the coupling force of the frame is secured by the connecting member installed horizontally in each spaced space of the frame. The space between both ends is reduced, and the installation range of the carbonate panel is reduced, and at the same time, the upper and lower surfaces of the carbonate panel are interposed between the connecting members, and each frame has an assembly structure of the frame and the panel so that the positional constraints of the frame and the carbonate panel are solid. It is about carbonate greenhouses.

In general, a greenhouse is a facility provided to allow the interior space of a facility to be properly controlled while further maintaining the proper temperature and humidity for the purpose of growing crops. For example, a greenhouse covers a transparent vinyl on the front of a facility to block wind generated from the outside, while receiving solar heat directly and storing it inside, while blocking stored heat from being lost to the outside.

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 a vertex area to form a square, and four posts 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. The problem occurred, so it is urgent to develop a carbonate greenhouse that is easier to construct.

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 to more actively solve the above-mentioned problems, and it is possible to assemble and disassemble by framing all the framing materials that are framing the greenhouse to a certain size, and further forming coupling protrusions and coupling holes on both sides of the segmented material. The main solution is to provide a carbonate greenhouse that can improve work efficiency through simple and rapid construction by configuring it to be easily made.

In addition, the carbonate greenhouse of the present invention, by arranging the connecting member proposed by the present invention in the spaced space formed between each frame to connect between the frame and the frame, while securing the bonding force in the frame, the spaced space is connected to both connecting members Another solution is to configure the carbonate panel to be more firmly coupled to the inside and outside of the greenhouse by reducing the coverage of the carbonate panel.

In addition, another problem of the present invention is to form a fitting hole to induce coupling of carbonate panels on the upper and lower surfaces of the connecting member, so that the carbonate panel can be easily fixed to the frame without additional drilling or bolting. to be.

In addition, the present invention is a final solution to induce a strong bond between the connecting member and the carbonate panel to actively prevent rainwater from being lost into the greenhouse.

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

The above carbonate greenhouse is divided into a plurality of pieces, which consists of a support part (10) horizontally installed on the ground, and vertically installed from the support part, but a plurality of pieces are installed at intervals in the longitudinal direction to form a dome of a greenhouse. The frame 100; and the cover 200 covered on the inside and outside of the frame; the upper greenhouse 1 is disposed horizontally at least one space apart between the standing sections 20 to support and mouth It further comprises a connecting member 300 that connects the tongue or interconnects the two standing parts to secure the bonding strength of the frame and simultaneously reduces the covering range of the cover by both ends of the separation space. The upper and lower surfaces are provided with fitting holes 310, and the upper and lower sides of the cover 200 are inserted to fix the frame and the cover.

In addition, the upper cover 200 is made of a carbonate panel stacked at least three or more layers, and the reinforcing ribs 201 are provided at regular intervals on each stacking surface to improve durability and form an air layer to store internal heat of the greenhouse. It has a characteristic.

In addition, the upper cover 200, the upper and lower ends are respectively bent in the form of an inverse translator to form a stepped 201, and the connecting member 300 has a fitting hole 310 from a position outside the upper stepped 201. It is characterized in that when the cover is connected to the connecting member, the front surface of the cover and the front surface of the connecting member are formed in the same line to induce rainwater to flow on the front surface to prevent leakage of rainwater.

In addition, the upper cover 200 includes protrusions 202 at the upper and lower ends, and a groove 311 corresponding to the protrusion is provided inside the fitting hole 310 of the upper connection member 300 to combine the protrusion and the groove. Characterized in that the cover is fixed to the connecting member.

According to the present invention made of the configuration as described above, all of the skeleton materials are provided in a segmented state, so it is easy to prepare for transportation and construction, and the coupling protrusions and coupling holes are provided at both ends of the segmented skeleton material, thereby providing simple and rapid construction. It has the effect of maximizing the efficiency of the work.

In addition, the present invention adopts a carbonate panel having a triple structure excellent in light transmittance to cover the inside and outside of the frame to preserve the internal heat formed from solar heat for a long time, and the internal heat is not discharged to the outside. There is another effect that the reinforcing flesh is formed on each of the stacked surfaces of the carbonate panel of the middle structure so that an air layer is formed to secure heat retention on the cover itself.

In addition, according to the present invention, a connecting member is horizontally installed in a space formed between each frame to connect between the frame and the frame, thereby securing the bonding strength of the frame itself, and the covering range of the cover is covered by a connecting member that crosses the space apart laterally. Another advantage is that the shroud is more tightly coupled to the inside and outside of the frame.

In addition, the present invention is provided with a fitting hole for inducing the coupling of the cover on the upper and lower surfaces of the connecting member, so that the cover can be quickly and easily fixed to the frame without tightening the bolt, and furthermore, a drill is not used to drill the cover. Therefore, there is another effect that can fundamentally block the damage of the cover.

In addition, the present invention is configured to recess the fitting hole of the connecting member in an S-shape, and actively prevent leakage of rainwater by bending both ends of the cover fastened to the fitting hole in a shape corresponding to the fitting hole recessed in the S-shape. There is another effect.

1 is a perspective view of a carbonate greenhouse having respective assembly structures 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 cover and the connecting member.
3 is an exploded perspective view constructed according to another embodiment of FIG. 2.
4 is a partially exploded perspective view of FIG. 1.

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 an individual assembly structure of a frame and a panel.

Above all, it is configured to easily and easily assemble and disassemble by dividing a number of skeletons that form the basis of the greenhouse, and adopts a triple structure of carbonate panels with high light transmittance as a triple structure to cover the entire surface of the greenhouse. While minimizing the internal heat loss of the frame, the bonding force of the frame is secured by the connecting member installed horizontally in each space of the frame, and the space of separation between the spaces is reduced by the connecting member, thereby reducing the installation range of the carbonate panel and at the same time, the top surface of the carbonate panel. Note that the lower and lower surfaces are interposed in the connecting member and are related to the carbonate greenhouse having respective assembly structures of the frame and the panel so that the positional restraint of the frame and the carbonate panel is solid.

1 is a perspective view of a carbonate greenhouse having respective assembly structures 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 100 that 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. (200); in particular, the carbonate greenhouse of the present invention is composed of a plurality of connecting members 300 that serve to fix the cover to the frame while inducing the coupling between the frames.

The above frame 100 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 (100) is installed on the ground and guides the greenhouse from the ground while inducing the horizontal, and the support (10) of the square frame is installed and installed on both sides opposite to the support to form the interior space of the greenhouse and a streamlined dome. It is divided into a standing section 20, and in particular, the skeleton 100 of the present invention is provided in a segmented state in multiple pieces for ease of transport or assembly of materials.

The upper support portion 10 is a foundation frame that is installed so as to be horizontally maintained on the ground for the construction of the greenhouse 1, for example, the size of the greenhouse is determined according to the construction width of the support portion, and the support portion 10 of the present invention Is provided in a segmented state, and the construction area of the support is reduced or expanded according to the number of connections of the segmented support.

The above standing portion 20 is provided in a segmented state for every predetermined length, like the supporting portion, and according to an embodiment of the present invention, at the top of the supporting portion 10, the standing table 21 and the end of the standing table It is segmented into a dome portion 22 that is bent toward the center and forms a streamlined roof. For example, the dome portion 22 made of a streamlined shape is not limited to this shape only in relation to a preferred embodiment of the present invention.

The upper cover 200 is covered on the inside and outside of the skeleton 100 to safely protect the inside of the greenhouse from external factors to provide a space for crops to be grown. The cover 200 in the present invention is composed of a carbonate panel having excellent light transmittance, and in particular, prevents the internal heat formed from being lost to the inside while inducing the internal heat to be actively formed in the interior space of the greenhouse, and furthermore, the cover itself In order to improve the durability, a laminate of carbonate panels in a triple structure is used.

Particularly, as shown in FIG. 2, the panel located at the innermost of the triple structure of the carbonate panel has a reinforcing rib 201 banding at regular intervals to secure durability to the cover 200 itself, and makes contact with the panel having the reinforcing rib An air layer is formed on the mutually laminated surface by the second panel to be laminated to actively prevent internal heat formed inside the greenhouse from escaping to the outside. Furthermore, the air layer itself also collects and stores heat, and further serves to promote the internal heat formed in the greenhouse to be maintained for a long time.

The above connecting member 300 interconnects the spaces formed on the frame 100 laterally to increase the bonding strength of the frame itself, and also interconnects the frame and the cover 200 to securely fix the cover to the front of the frame. And plays the most important and key role in the present invention.

The above connecting member 300 is installed in a region where the bonding strength of the frame is poor or the covering range of the cover is rather wide, rather than being assembled at a specific location, thereby strengthening the bonding strength of the frame and reducing the covering range of the cover.

In the present invention, mainly, at least one side is horizontally installed on the front surface of the frame 100 in order to distinguish the boundary between the roof and the entrance, thereby reducing the covering area of the cover to be coated on the front surface of the frame.

In addition, the connecting member 300 is transversely disposed in a plurality of separation spaces formed on the sides of the frame 100 due to the plurality of standing portions 20 vertically installed and installed at positions spaced apart at regular intervals on the support portion 10. It is arranged, and mutually solid coupling is made by the coupling protrusions 301 provided at both ends of the connecting member, and the coupling holes 21-1 formed on either side of both sides of the standing portion 20 that are in contact with the coupling protrusions.

Through the connecting member 300 as described above, the side connection between the standing portion and the standing portion is made, so that the side bonding force of the standing portion is improved, and accordingly, the standing portion can be fixedly and vertically arranged from the support portion.

In addition, in the case of the general greenhouse 1 without the connecting member 300, one carbonate panel must be covered from the support portion 10 to the roof of the standing portion 20. In this situation, the bending strength in the longitudinal direction is strongly applied. It is difficult to assemble, and the center of gravity of the cover itself is weighted at the bent portions of the stand 21 and the dome 22, so there is a risk of shape deformation or damage.

However, according to the present invention, since the connecting member 300 is installed on the boundary line between the standing table 21 and the dome portion 22 to separate the covering area of the cover 200 of the standing bed from the covering area of the dome portion, the length of the cover is vertical. Since the length is reduced and the bending strength is blocked, and the cover does not need to be bent to correspond to the bending part of the stand and the dome, the phenomenon that the center of gravity of the cover is weighted in one place can be blocked.

On the other hand, the connecting member 300 of the present invention is provided with a fitting hole 310 in a shape corresponding to the upper and lower portions of the cover, respectively, on the upper and lower surfaces for easy assembly of the cover 200 as shown in FIG. 2. In other words, by simply fitting the upper or lower portion of the cover 200 to the fitting hole 310 of the connecting member 300 disposed transversely between the placing table 21 and the dome portion 22, the inside and outside of the frame On the cover is fixed firmly in position.

For example, the upper fitting hole 310 is not formed on the center line of the connecting member 300 as shown in FIG. 2, but is formed eccentrically to one side, and the eccentric position of the fitting hole on the upper surface and the fitting hole on the lower surface are opposite. Able to know.

In more detail, the upper cover 200 has upper and lower ends each bent in the form of a counter-translator to form a stepped jaw 201, and the upper connecting member 300 is fitted from a position outside the upper stepped jaw 201 ( 310) is formed so that when assembling the cover to the connecting member, the front surface of the cover and the front surface of the connecting member are formed in the same line, so that rainwater is formed on the front surface of the cover and the front surface of the connecting member. This is to induce the flow in order to flow naturally.

As described above, the reason that the front of the cover and the front of the connecting member are arranged in the same line to naturally induce the flow of rainwater is to actively prevent the rainwater from leaking between the coupling gap between the cover and the connecting member.

As another example, the connecting member 300 of the present invention is S-shaped as shown in Figure 3, but includes a shape bent at a right angle, the upper portion of the connecting member is disposed to face the inside of the greenhouse, the lower portion Arranged so as to face the outside of the greenhouse, the cover 200 of the dome portion 22 is assembled close to the inside of the greenhouse, and the cover of the stand 21 is arranged to face the outside of the greenhouse so that rainwater leaks into the greenhouse. Was blocked.

On the other hand, as another example of the connecting member, the upper fitting hole 310 is configured to be recessed in various bent shapes, such as a translator or a translator to an S-shape, as shown in FIG. 2, and the upper and lower portions of the cover 200 are fitted as above. As it is provided in the form corresponding to the ball, it was constructed so as not to be easily disassembled while firmly bonding to each other.

As another example, the upper cover 200 includes a protrusion 202 formed to protrude at a certain height at the end as shown in FIG. 2, and a groove 311 corresponding to the protrusion is provided inside the fitting hole 310 of the connection member 300. It is further provided so that the cover is inserted and fixed in the correct position by the combination of the projection and the groove, so that it is not easily disassembled.

The carbonate greenhouse having each assembly structure of the frame and panel of the present invention constituted as above is provided in a state in which all the frame materials are segmented, so it is easy to prepare for transport and construction, and the coupling protrusions and coupling holes are provided at both ends of the segmented frame material. Simple and rapid construction allows the worker to maximize work efficiency. In addition, the cover that covers the inside and outside of the frame adopts a triple-structure carbonate panel with excellent light transmittance, which not only preserves the internal heat formed from solar heat for a long time, but also has a triple structure without discharging the internal heat to the outside. An air layer is formed by reinforcing spokes on each of the laminated surfaces of the carbonate panel, so that the cover itself can be kept warm. In addition, a connecting member is horizontally installed in a spaced space formed between each frame to connect between the frame and the frame, thereby securing the bonding strength of the frame itself, while reducing the covering range of the cover by a connecting member that crosses the spaced space laterally. There is another advantage that the frame is more firmly coupled to the inside and outside of the frame, and a fitting hole is provided on the top and bottom surfaces of the connecting member to guide the coupling of the cover, so that the cover can be quickly and easily fixed to the frame without fastening bolts. Further, since the drill is not drilled in the cover, damage to the cover can be fundamentally blocked. In addition, the fitting hole of the connecting member is recessed in an S-shape, and leakage of rainwater is actively blocked by bending both ends of the cover fastened to the fitting hole in a shape corresponding to the S-shaped recessed ball.

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. Support section 20. Standing section
21. Entrance stand 22. Dome
100. Frame 200. Cover
201.Reinforcement 202. Protrusion
300. Connecting member 301. Coupling projection
310. Insertion hole 311.
1. Greenhouse

Claims (4)

The frame 100 is divided into a plurality of pieces, and is composed of a supporting part 10 horizontally installed on the ground, and a vertically erected part from the support part, and a plurality of pieces are installed at intervals in the longitudinal direction to form a dome of a greenhouse. In the prefabricated greenhouse consisting of; And, the cover 200 is covered on the inside and outside of the skeleton;
The above greenhouse (1) is arranged in one or more transverse spaces formed between the standing sections (20) to connect the supporting section and the standing section or by interconnecting the two standing sections to secure the bonding strength of the frame, and at the same time, to separate the separation space. Further comprising a connecting member 300 for reducing the covering range of the cover,
The upper and lower surfaces of the upper connecting member 300 are provided with fitting holes 310 to insert the upper and lower sides of the cover 200 so that the frame and the cover are fixed in position. Carbonate greenhouse.
According to claim 1,
The upper cover 200 is made of carbonate panels stacked at least three or more layers,
Reinforced flesh 201 is provided at regular intervals on each stacked surface to improve durability and form an air layer to store the internal heat of the greenhouse.
According to claim 1,
The upper cover 200, the upper and lower ends are respectively bent in the form of an inverse translator to form a stepped 201,
The upper connecting member 300 is formed with a fitting hole 310 from a position outside the upper stepped 201, and when the cover is connected to the connecting member, the front surface of the cover and the front surface of the connecting member are formed on the same line. Carbonate greenhouse with a structure of each frame and a panel to prevent rainwater from leaking by inducing rainwater to flow on the front surface.
According to claim 1,
The upper cover 200 includes protrusions 202 at upper and lower ends,
Inside the fitting hole (310) of the above connecting member (300) has a groove (311) corresponding to the protrusion, and a carbonate having each assembly structure of the frame and the panel, characterized in that the cover is fixed to the connecting member by the combination of the protrusion and the groove. greenhouse.

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