KR102182296B1 - Assembly house - Google Patents

Abstract

A prefab greenhouse house is disclosed. A prefabricated greenhouse house according to an embodiment of the present invention includes a plurality of vertical pillars intersecting with the ground; A plurality of horizontal lower supports having a different cross-sectional shape from the vertical pillar and horizontally disposed to cross the vertical pillar; At least one horizontal upper support, which is provided in a different cross-sectional shape from the vertical pillar and the horizontal lower support, is disposed at the upper end of the greenhouse house, and is disposed in parallel with the horizontal lower support; A plurality of inclined supports having a cross-sectional shape different from that of the vertical pillar, the horizontal lower support, and the horizontal upper support, and arranged to be inclined between the horizontal lower support and the horizontal upper support; A wall unit for a greenhouse that is disposed between one horizontal lower support and a horizontal upper support and a pair of inclined supports to form a wall, but is detachably coupled to the horizontal lower support, the horizontal upper support, and the inclined support; A fixed connection unit formed as an integral structure connecting the horizontal upper support and the inclined support between the horizontal upper support and the inclined support; And a detachable connection unit that connects the vertical column, the horizontal lower support and the inclined support between the vertical column, the horizontal lower support and the inclined support, but is formed as a detachable structure.

Description

Prefab greenhouse house {Assembly house}

The present invention relates to a prefabricated greenhouse house, and more particularly, because it is a fully prefabricated type, it is not only advantageous in controlling the installation scale, but also can be recycled unlike the prior art. In spite of having a particularly strong assembly strength, assembly is smooth and convenient. It relates to a prefabricated greenhouse house that can increase the efficiency of construction work with time and cost.

The greenhouse house is a term that includes all of a conventional vinyl house, a glass house, and the like. Hereinafter, a plastic house that is commonly encountered in the vicinity will be described as an example.

A plastic house is a greenhouse covered with plastic film to cultivate vegetables or tropical plants. It is most often used for cultivation of vegetables and also for cultivation of flowers and fruit trees.

It can be built at a lower cost than a glass greenhouse, but once installed, it is difficult to move, and due to its structural characteristics, the shape of the plastic house structure varies widely by region and cultivated crops. At the same time, it is weak against typhoons and snowfall, and the difference in temperature and humidity during the day and night is large. There is also a disadvantage of lighting that requires changing the covering material every year.

In gardening, a roof-shaped or semi-circular frame is made of steel (pipe), wood, and bamboo, and the top is covered with vinyl, and vegetables, flowers, fruit trees, etc. are cultivated and seedlings are grown. At this time, as the material for the frame, bamboo or wood was mainly used in the past, but in recent years, iron pipes, iron materials, rigid PVC pipes, and the like are used.

In the basic structure for installing the frame of such a plastic house, a pipe house having a movable structure, that is, a bamboo half-moon house, for example, bury a pipe or a stem in the ground, a wooden house bury wood chips in the ground, and a steel frame house. The pillar, which is the base stone of an imperishable wooden pillar, is driven into the ground and then fixed with steel or aluminum at the end.

On the other hand, fixed-position houses and houses built in rice fields are buried in the ground by making a concrete block foundation with an aluminum angle in the middle.

When explaining an example of the conventional frame installation structure for a plastic house, in general, in the case of installing a plastic house on the ground in a rural area or a flower complex, a frame in which a plurality of pipes having equal intervals in the longitudinal direction are connected with a balance bar. After being provided, a hole of a predetermined depth is dug in the ground according to the longitudinal distance of the pipe, and the left and right ends of the pipe are filled, and then plastic is wrapped around the pipe to cover the soil.

In such a conventional plastic house frame installation structure, in order to prevent the frame of the plastic house from being separated from the ground or damaged in bad weather such as rain, wind, etc., the depth of the pipe should be deepened. Since it is necessary to dig a large number of deep holes, its workability is deteriorated.

In addition, in order to move the once installed plastic house frame to another place, the work is very cumbersome because the left and right ends of the pipe buried deep in the ground must be dug out from the ground one by one. In addition, the conventional plastic house frame installation structure has a limited problem in that it is limited to Japan and China, so that the thermal insulation efficiency cannot be changed according to temperature changes.

Accordingly, a plastic house having a structure as shown in FIG. 1 has been proposed. The plastic house of FIG. 1 is designed to facilitate the installation of the pipe 11 constituting the frame, and a rail structure is applied so that the spacing of the pipes 11 can be adjusted.

However, in the case of such a conventional technology, even if a rail structure is applied, a long pipe 11 must be applied, so it is not easy to build a plastic house, and it is difficult to properly adjust the installation scale. Considering that recycling is practically impossible, the need for a new concept of prefabricated greenhouse house that is not known before emerges.

Korean Intellectual Property Office Application No. 10-2011-0028064

Therefore, the technical problem to be achieved by the present invention is that it is not only advantageous in controlling the installation scale because it is fully assembled, but also can be recycled unlike the prior art. In spite of having a particularly strong assembly strength, the assembly is smooth and convenient, so it is built with little time and cost. It is to provide a prefabricated greenhouse house that can increase work efficiency.

According to an aspect of the present invention, a plurality of vertical pillars disposed perpendicular to the ground to cross; A plurality of horizontal lower supports having a cross-sectional shape different from that of the vertical pillar and horizontally disposed to cross the vertical pillar; At least one horizontal upper supporter having a different cross-sectional shape from the vertical pillar and the horizontal lower supporter, and disposed at an upper end of the greenhouse house and parallel to the horizontal lower supporter; A plurality of inclined supports having a cross-sectional shape different from that of the vertical pillar, the horizontal lower support, and the horizontal upper support, and disposed to be inclined between the horizontal lower support and the horizontal upper support; A wall unit for a greenhouse that is disposed between the one horizontal lower support and the horizontal upper support and the pair of inclined supports to form a wall, but is detachably coupled to the horizontal lower support, the horizontal upper support, and the inclined support ; A fixed connection unit formed as an integrated structure connecting the horizontal upper support and the inclined support between the horizontal upper support and the inclined support; And a detachable connection unit that connects the vertical column, the horizontal lower support and the inclined support between the vertical pillar, the horizontal lower support and the inclined support, but is formed as a detachable structure. Can be.

The vertical column may be arranged in a rectangular composition along the circumferential direction at the center thereof to form a rectangular connection hole connected to the detachable connection unit, and the horizontal lower support is arranged in a triangular composition along the circumferential direction from the center of the separate connection A triangular connection hole connected to the unit may be formed, and a one-type connection hole connected to the fixed connection unit may be formed in the horizontal upper support in a shape different from the square connection hole and the square connection hole, The inclined support may have an oval-type connection hole provided in a different shape from the square connection hole, the square connection hole, and the circular connection hole to be connected to the fixed connection unit, and the vertical column, the horizontal lower support, and The inclined support may have a sliding assembly slot in which the greenhouse wall unit is slidably assembled, and the greenhouse wall unit includes: a wall portion formed of a transparent or translucent material; And a sliding assembly portion forming an end portion of the wall portion and being slidably assembled to the sliding assembly slot.

The separate connection unit may include a main body having an assembly hole having the same shape as the triangular connection hole; A column coupling part extending vertically from one side of the main body in the direction of the vertical column, and configured to fit into a rectangular connection hole of the vertical column; A support coupling portion extending obliquely in the direction of the inclined support from the other side of the main body, and coupled to fit into the oval-type connection hole of the inclined support; And an assembly type sub that has the same cross-sectional shape as the assembly hole of the main body but is assembled to the main body so as to be slidable through the assembly hole, is formed longer than the width of the main body, and is selectively assembled with the horizontal lower support at both end regions. It may include a body.

According to the present invention, since it is a fully assembled type, it is not only advantageous in controlling the installation scale, but also can be recycled unlike the conventional one, and in spite of having a particularly strong assembly strength, assembly is smooth and convenient, thus increasing the efficiency of construction work with less time and cost. It can have an effect.

1 is a structural diagram of a plastic house according to the prior art.
Figure 2a is a perspective view of the state of use of the prefabricated greenhouse house according to an embodiment of the present invention.
2B is a perspective view of the unit body of FIG. 2A.
3 is an exploded perspective view of FIG. 2B.
4 is an enlarged view of a main part of FIG. 3 for explaining the connection structure of the fixed connection unit.
5 is an enlarged view of a main part of FIG. 3 for explaining a connection structure of a separate connection unit.
6 is an exploded perspective view of a separate connection unit.
7 is a view for explaining the assembly process for one side of the greenhouse wall unit.
8 is an assembled cross-sectional view of FIG. 7.
9 and 10 are views for explaining the operation of the separate connection unit, respectively.
11 is a view for explaining an assembly process for one side of the greenhouse wall unit in the prefabricated greenhouse house according to another embodiment of the present invention.
12 is an assembled cross-sectional view of FIG. 11.
13 is an exploded perspective view of a detachable connection unit in a prefabricated greenhouse house according to another embodiment of the present invention.

In order to fully understand the present invention, operational advantages of the present invention, and objects achieved by the implementation of the present invention, reference should be made to the accompanying drawings illustrating preferred embodiments of the present invention and the contents described in the accompanying drawings.

Hereinafter, the present invention will be described in detail by describing a preferred embodiment of the present invention with reference to the accompanying drawings. The same reference numerals in each drawing indicate the same member.

Figure 2a is a perspective view of the state of use of the prefabricated greenhouse house according to an embodiment of the present invention, Figure 2b is a perspective view of the unit body of Figure 2a, Figure 3 is an exploded perspective view of Figure 2b, Figure 4 is a connection structure of a fixed connection unit 3 is an enlarged view of the main part of FIG. 3 for explaining, FIG. 5 is an enlarged view of the main part of FIG. 3 for explaining the connection structure of the detachable connection unit, FIG. 6 is an exploded perspective view of the detachable connection unit, and FIG. 7 is a wall for a greenhouse It is a view for explaining the assembly process for one side of the unit, Figure 8 is an assembly cross-sectional view of Figure 7, Figures 9 and 10 are views for explaining the operation of the separate connection unit, respectively.

Referring to these drawings, the prefabricated greenhouse house according to the present embodiment is fully prefabricated, so it is not only advantageous in controlling the installation scale, but also can be recycled unlike the conventional one, and in spite of having particularly strong assembly strength, assembly is smooth and convenient, so less time As to increase the efficiency of construction work at a cost and a vertical column 110, horizontal lower support 120, horizontal upper support 130, inclined support 140, greenhouse wall unit 150, fixed type It may include a connection unit 160, and a separate connection unit 170.

As described above, the prefabricated greenhouse house is a term that includes all of a conventional vinyl house, a glass house, and a plastic greenhouse.

For example, if the wall portion 151 of the greenhouse wall unit 150 to be described later is vinyl, the prefabricated greenhouse house may be applied as a vinyl house, and if the wall portion 151 of the greenhouse wall unit 150 is glass or plastic The prefab greenhouse house can be applied as a glass greenhouse or plastic greenhouse.

Hereinafter, it will be described that the prefabricated greenhouse house is applied as a plastic house. For reference, although the prefabricated greenhouse house is simply illustrated in FIG. 2B for convenience, when the structure of FIG. 2B is continuously assembled in the lateral direction, a large prefabricated greenhouse house can be constructed as shown in FIG. 2A. Therefore, the scope of the present invention is not limited to the shape of the drawings.

For reference, FIG. 2A is a lateral successive assembly of the structure of FIG. 2B, and a side plate 101 and a front plate 102 are installed, and a door 103 is formed on the front plate 102 for plant cultivation. Can be used

As will be described later in detail, among the components constituting the prefabricated greenhouse house, the vertical column 110 is a kind of bridge supported on the ground.

The horizontal lower support 120, the horizontal upper support 130, and the inclined support 140 form the skeleton of the prefabricated greenhouse house according to the present embodiment, that is, the frame, and the wall unit 150 for the greenhouse has a substantial shielding function.

And the fixed connection unit 160 and the detachable connection unit 170 is a connection means for connecting the vertical column 110, the horizontal lower support 120, the horizontal upper support 130, and the inclined support 140 between neighboring ones. to be.

In particular, when assembling one unit as shown in FIGS. 9 and 10, the detachable connection unit 170 provides convenience of assembly by being assembled last. In fact, if the detachable connection unit 170 having structural characteristics according to the present embodiment is not applied, the role of the detachable connection unit 170 is very important in that it is impossible to assemble the prefabricated greenhouse house as shown in FIG. 1. I can.

Hereinafter, for convenience of explanation, the vertical column 110, the horizontal lower support 120, the horizontal upper support 130, the inclined support 140, the wall unit 150 for the greenhouse, the fixed connection unit 160, and the detachable type It will be described in the order of the connection unit 170.

The vertical pillar 110 is a metal structure that is vertically disposed to cross the ground. The height of the ceiling may vary depending on the height of the vertical pillar 110. Of course, although the vertical pillar 110 may be made of plastic, it is advantageous in terms of strength to be made of metal. The same applies to the horizontal lower support 120, the horizontal upper support 130, and the inclined support 140.

A rectangular connection hole 111 is formed in the vertical column 110 in a rectangular configuration along the circumferential direction at the center thereof and connected to the column coupling portion 173 of the separate connection unit 170. The structure of all vertical pillars 110 shown in the drawings is the same.

The horizontal lower support 120 is provided in a different cross-sectional shape from the vertical pillar 110 and is a metal structure disposed horizontally to cross the vertical pillar 110.

A triangular connection hole 121 is formed in the horizontal lower support 120 in a triangular composition along the circumferential direction at the center thereof and connected to the prefabricated sub-body 175 of the detachable connection unit 170.

The horizontal upper support 130 is provided in a cross-sectional shape different from the vertical pillar 110 and the horizontal lower support 120, is a metal structure disposed at the upper end of the greenhouse house and arranged parallel to the horizontal lower support 120.

The vertical pillar 110 and the horizontal lower support 120 are applied in a structure with an angled outer wall, whereas the horizontal upper support 130 is applied in a structure with a round outer wall. This may serve to prevent snow or foreign matter from accumulating because the horizontal upper support 130 is a structure forming the top of the prefabricated greenhouse house.

The horizontal upper support 130 is provided in a different shape from the square connection hole 111 and the square connection hole 111 and a circular connection hole 131 connected to the fixed connection unit 160 is formed. The one-type connection hole 131 is not completely circular, but has a shape close to a circle.

The inclined support 140 has a cross-sectional shape different from that of the vertical pillar 110, the horizontal lower support 120 and the horizontal upper support 130, and is inclined between the horizontal lower support 120 and the horizontal upper support 130. It is a metal structure to be placed.

The inclined support 140 has a rectangular connection hole 111, a square connection hole 111, and an oval-type connection hole 141 that is provided in a different shape from the one-type connection hole 131 and is connected to the fixed connection unit 160 do.

The greenhouse wall unit 150 is a wall disposed between them in a state in which the horizontal lower support 120, the horizontal upper support 130, and the inclined support 140 are disposed on the outside as shown in FIGS. 9 and 10, that is, shielding It is a means.

In other words, it is a portion that is disposed between a total of four metal structures including one horizontal lower support 120 and horizontal upper support 130 and a pair of inclined support 140 to form a wall. The greenhouse wall unit 150 is slidably coupled to the circumferential wall surface of the horizontal lower support 120, the horizontal upper support 130, and the inclined support 140.

A sliding assembly slot 155 is formed for sliding assembly (combination) of the greenhouse wall unit 150.

The sliding assembly slot 155 is provided on both the vertical pillar 110, the horizontal lower support 120 and the inclined support 140, and provides a place where the greenhouse wall unit 150 is slidably assembled. The structure of the sliding assembly slot 155 provided in the vertical pillar 110, the horizontal lower support 120 and the inclined support 140 is the same.

The greenhouse wall unit 150 includes a wall unit 151 formed of a transparent or translucent material, and a sliding assembly unit that forms an end of the wall unit 151 but is slidably assembled in the sliding assembly slot 155 Includes 152.

As previously described, the wall portion 151 may be applied with vinyl. In this structure, the sliding assembly portion 152 may include an end winding portion 152a in which the end of the vinyl is rolled and fused, and a core member 152b provided in the end winding portion 152a. The sliding assembly part 152 can be a solid part of a certain volume by rolling and fusion bonding the end of the vinyl to form the end winding part 152a while a certain volume is secured by the core material 152b. When assembling the part 152 by inserting it into the sliding assembly slot 155, it is easy to assemble and does not come off arbitrarily from the sliding assembly slot 155.

The fixed connection unit 160 serves as a medium for connecting the horizontal upper support 130 and the inclined support 140 between the horizontal upper support 130 and the inclined support 140, as shown in detail in FIG. 5. In this embodiment, the fixed connection unit 160 is injection-molded into an integral structure that is not separated.

The unit body 161 and a first insertion coupling bar 162 extending obliquely from one side of the unit body 161 and being inserted into and coupled to the elliptical connection hole 141 of the inclined support 140, and the unit body A second insertion coupling bar provided symmetrically to the first insertion coupling bar 162 based on (161) and being inserted into and coupled to the elliptical type connection hole 141 of the inclined support 140 at the corresponding position ( 163, a third insertion coupling bar 164 provided to extend from the other side of the unit body 161 and fitted into the one-type connection hole 131 of the horizontal upper support 130, and the unit body ( For the fourth insertion and coupling that is provided to be opposed to the opposite side of the third insertion and coupling bar 164 based on 161 and is fitted into the one-type connection hole 131 of the horizontal upper support 130 at the corresponding position. Includes bar 165.

At this time, in order to increase the bonding force between the horizontal upper support 130 and the third and fourth insertion and coupling bars 164 and 165, a reinforcing rail jaw 132 is formed on the horizontal upper support 130, and the third and fourth insertion couplings The reinforcing rail grooves 166 are formed in the bars 164 and 165 to reinforce by fitting the reinforcing rail jaws 132.

The third and fourth insertion and coupling bars (164,165) are inserted into the one-type connection hole (131) of the horizontal upper support (130), and the bonding force between them is excellent, but the reinforcing rail chin (132) between them And as the reinforcing rail groove 166 is further formed, the bonding strength can be doubled. Therefore, structural stability for the top frame can be achieved.

On the other hand, the detachable connection unit 170, as shown in detail in FIGS. 6 and 6, between the vertical pillar 110, the horizontal lower support 120 and the inclined support 140, the vertical pillar 110, the horizontal lower support It serves as a medium connecting the 120 and the inclined support 140.

In this embodiment, the detachable connection unit 170 is injection-molded into a detachable structure in which a part is not separated, unlike the fixed connection unit 160 described above.

The detachable connection unit 170 includes a main body 171 in which an assembly hole 172 having the same shape as the triangular connection hole 121 is formed, and from one side of the main body 171 in the direction of the vertical column 110 It extends vertically and extends obliquely in the direction of the inclined support 140 from the other side of the main body 171 and the column coupling part 173 coupled to fit the square connection hole 111 of the vertical column 110 , Having the same cross-sectional shape as the assembly hole 172 of the main body 171 and the support coupling portion 174 that is coupled to fit the shape of the oval-type connection hole 141 of the inclined support 140, but the assembly hole 172 ) Is assembled to the main body 171 to be slidable, and formed longer than the width of the main body 171 and includes an assembly-type sub-body 175 selectively assembled with the horizontal lower support 120 in both end regions.

Since the detachable connection unit 170 has a structure in which the detachable connection unit 170 is separated, that is, the prefabricated sub-body 175 is detached from the main body 171 or is coupled to be slidably moved, the prefabricated greenhouse house as shown in FIG. 1 can be assembled. have.

That is, as shown in FIGS. 9 and 10, a structure in which a horizontal lower support 120, a horizontal upper support 130, and two inclined supports 140 are arranged around one of the greenhouse wall units 150 as a medium Assuming a set, two fixed connection units 160 and two separate connection units 170 may be used.

At this time, as shown in FIG. 9, the horizontal lower support 120, the horizontal upper support 130 and the circumference of the wall unit 150 for the greenhouse through two fixed connection units 160 and one separate connection unit 170 After the two inclined supports 140 are connected and assembled, the detachable connection unit 170 in the finally remaining corner area is once disassembled and then sequentially assembled to form an assembly set as shown in FIG. 10. In fact, if the detachable connection unit 170 is not separated, it is impossible to assemble as shown in FIGS. 9 to 10.

According to the present embodiment having the structure and action as described above, it is a fully assembled type, so it is not only advantageous in controlling the installation scale, but also can be recycled unlike the conventional one, and in spite of having a particularly strong assembly strength, assembly is smooth and convenient, so less time It is possible to increase the efficiency of construction work at a cost and expense.

11 is a view for explaining an assembly process for one side of the greenhouse wall unit in the prefabricated greenhouse house according to another embodiment of the present invention, and FIG. 12 is an assembly cross-sectional view of FIG. 11.

Referring to these drawings, the greenhouse wall unit 250 applied to the present embodiment also forms an end of the wall part 251 and the wall part 251 formed of a transparent or translucent material, but a slot for sliding assembly It includes a sliding assembly unit 252 that is assembled to be slidably movable at 255.

At this time, the wall part 251 is made of a glass material, while the sliding assembly part 252 is made of a plastic injection product. Therefore, the sliding assembly portion 252 is formed with an insertion groove portion 252a in order to couple the glass wall portion 251 to the sliding assembly portion 252. After the wall portion 251 is inserted into the insertion groove portion 252a of the sliding assembly portion 252, silicon or bonding treatment may be performed so that the greenhouse wall unit 250 can form one body.

13 is an exploded perspective view of a detachable connection unit in a prefabricated greenhouse house according to another embodiment of the present invention.

Referring to this drawing, the detachable connection unit 370 applied to this embodiment also includes a main body 371 in which an assembly hole 172 is formed, a column coupling part 173, a support coupling part 174, and a main It includes an assembly-type sub-body 375 capable of disassembling and assembling the body 371, and their functions are as described above.

On the other hand, in the present embodiment, an elastic protrusion 375a for fixed position coupling is provided in the central region of one side of the assembled sub-body 375, and an elastic protrusion 375a for fixed position coupling is provided on the inner wall of the main body 371 corresponding thereto. The elastic protrusion coupling groove 371a to which is selectively coupled is formed.

Although not shown in detail, the elastic protrusion 375a for the correct position coupling is provided to be elastically protruded or inserted into a spring (not shown) provided in the prefabricated sub-body 375. That is, when the elastic protrusion 375a is pressed in place, it enters, and when the pressed force is removed, it protrudes again.

When the elastic protrusion (375a) for the correct position coupling of this structure is provided on the prefabricated sub-body 375, the detachable connection unit 370 is used in the process of assembling the prefabricated greenhouse by separating the prefabricated sub-body 375 To do this, simply insert the assembled sub-body 375 into the main body 371, and the assembled sub-body 375 can be assembled at the correct position of the main body 371, making workability much more convenient. have. In addition, the main body 371 and the prefabricated sub-body 375 are normally separated from each other to eliminate the risk of being lost.

In addition, in the present embodiment, the main body 371 and the prefabricated sub-body 375 have different colors from the other parts, that is, the column coupling part 173 and the support coupling part 174, in particular, luminous color. Therefore, it can be easily distinguished from other integral fixed structures during work, and the convenience in use can be enhanced.

Even if this embodiment is applied, it is not only advantageous in controlling the installation scale because it is a fully assembled type, but also can be recycled unlike the conventional one. In particular, despite having strong assembly strength, assembly is smooth and convenient, thus increasing the efficiency of construction work with less time and cost. I can.

As described above, the present invention is not limited to the described embodiments, and it is obvious to those of ordinary skill in the art that various modifications and variations can be made without departing from the spirit and scope of the present invention. Therefore, it should be said that such modifications or variations belong to the claims of the present invention.

110: vertical column 111: square connection hole
120: horizontal lower support 121: triangular connection hole
130: horizontal upper support 131: one-type connection hole
140: inclined support 141: oval type connection hole
150: greenhouse wall unit 151: wall part
152: sliding assembly portion 152a: end winding portion
152b: core material 155: slot for sliding assembly
160: fixed connection unit 170: detachable connection unit
171: main body 172: assembly hole
173: column coupling portion 174: support rod coupling portion
175: prefabricated sub-body

Claims (3)

A plurality of vertical pillars intersecting with the ground;
A plurality of horizontal lower supports having a cross-sectional shape different from that of the vertical pillar and horizontally disposed to cross the vertical pillar;
At least one horizontal upper support that has a different cross-sectional shape from the vertical pillar and the horizontal lower support, is disposed at an upper end, and is disposed in parallel with the horizontal lower support;
A plurality of inclined supports having a cross-sectional shape different from that of the vertical pillar, the horizontal lower support, and the horizontal upper support, and disposed to be inclined between the horizontal lower support and the horizontal upper support;
A wall unit for a greenhouse that is disposed between the one horizontal lower support and the horizontal upper support and the pair of inclined supports to form a wall, but is detachably coupled to the horizontal lower support, the horizontal upper support, and the inclined support ;
A fixed connection unit formed of an integrated structure connecting the horizontal upper support and the inclined support between the horizontal upper support and the inclined support; And
The vertical pillar, the horizontal lower support and the inclined support between the vertical pillar, the horizontal lower support and the inclined support includes a detachable connection unit formed as a detachable structure to connect,
The vertical column has a rectangular connection hole disposed in a rectangular composition along the circumferential direction at the center thereof and connected to the separate connection unit,
The horizontal lower support is arranged in a triangular composition along the circumferential direction from its center to form a triangular connection hole connected to the separate connection unit,
The horizontal upper support is provided in a different shape from the square connection hole and the square connection hole, and a one-type connection hole connected to the fixed connection unit is formed,
The inclined support has an oval-type connection hole provided in a different shape from the square connection hole, the square connection hole, and the one-type connection hole and connected to the fixed connection unit,
The vertical pillar, the horizontal lower support and the inclined support are provided with a sliding assembly slot in which the greenhouse wall unit is slidably assembled,
The greenhouse wall unit,
A wall portion formed of a transparent or translucent material; And
Forming an end portion of the wall portion, and including a sliding assembly portion that is slidably assembled to the sliding assembly slot,
The detachable connection unit,
A main body in which an assembly hole having the same shape as the triangular connection hole is formed;
A column coupling part extending vertically from one side of the main body in the direction of the vertical column, and configured to fit into a rectangular connection hole of the vertical column;
A support coupling portion extending obliquely in the direction of the inclined support from the other side of the main body, and coupled to fit into the oval-type connection hole of the inclined support; And
Assembly-type sub-body having the same cross-sectional shape as the assembly hole of the main body, assembled to the main body so as to be slidable through the assembly hole, formed longer than the width of the main body, and selectively assembled with the horizontal lower support at both end regions Prefabricated greenhouse house comprising a. delete delete

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