KR101186022B1 - Method for replacement of glass in glass house - Google Patents

Abstract

PURPOSE: A glass replacement method of a glass greenhouse structure is provided to use unit cell panels having excellent transparency including a bad magnet or a magnet pin. CONSTITUTION: A glass replacement method of a glass greenhouse structure comprises the following: remove glass panels(20) from frames having a lattice form; forming plural coupling grooves on the inner surface of one frame(12) among the horizontal and vertical iron frames(10); inserting other side frame(14) into the coupling grooves for standardizing the height of the outer surface of the iron frames; and attaching cell panels(30) to the outside of the iron frames. The cell panels have panel frames, panel units, and edge frames integrated to each other using bolts. The panel frames include plural magnet pins on one side, and insertion grooves on the other side. The panel units are produced with a polycarbonate film, a polyolefin, or an acrylic film.

Description

Glass replacement method of glass greenhouse structure {METHOD FOR REPLACEMENT OF GLASS IN GLASS HOUSE}

The present invention is a glass greenhouse structure that is constructed by arranging a plurality of glass panels in a steel frame frame forming a skeleton, the glass greenhouse structure to remove the existing glass panel and easy to install unit cell panel to the steel frame frame using magnetic Is about the glass replacement method.

In order to solve the characteristics that the conventional vinyl house is vulnerable to the influence of outside air such as wind and snowfall, and difficult to control the internal environment due to the change of temperature by day and season, an attempt has been made to replace the vinyl house with a glass greenhouse structure.

However, the glass greenhouse structure tries to block outside air by arranging a plurality of glass panels in a steel frame forming a skeleton, but the cost of glass is higher than that of vinyl, thereby increasing the construction cost.

In addition, since the steel frame and the glass is composed of different materials different from each other, it was difficult to directly bond the glass showing brittle fracture properties to the steel frame with excellent ductility.

That is, although the adhesive is conventionally used to combine these members, the adhesive is susceptible to heat, so when the temperature rises above a certain temperature, the adhesive is difficult to exhibit its performance.

In addition, even if these members are mutually bonded by using other connecting members, it is necessary to improve the joint structure in advance for bolt bonding or the like due to the characteristics of the glass material exhibiting brittle characteristics. However, in this case, there is a disadvantage in that the construction cost and air increase due to the complicated structure for the glass panel bonding, and maintenance is also difficult during damage.
In addition, the background technology of the present invention is disclosed in Republic of Korea Patent Publication No. 10-1087366 (2011.11.25).

In order to solve the above problems, the present invention provides a glass replacement method of the glass greenhouse structure that can replace the existing glass panel using a unit cell panel of light and excellent light-transmitting material combined with a band magnet or magnet pin around I would like to.

In addition, the present invention is to provide a glass replacement method of the glass greenhouse structure that can replace the glass panel of the conventional brittle material and at the same time, a complicated construction method of the glass panel.

In order to solve the above problems, the present invention relates to a glass replacement method of a glass greenhouse structure formed by combining a plurality of glass panels in a grid-shaped frame formed by a plurality of horizontal and vertical steel frame, (a) lattice shape Removing the glass panel from the frame of the; (b) standardizing the outer surface of the horizontal and vertical steel frames so as to have a uniform height; And (c) attaching a cell panel having a band magnet or a magnet pin coupled to one surface of the cell frame outside the standard horizontal and vertical steel frames; It provides a glass replacement method of the glass greenhouse structure, characterized in that consisting of.

In the present invention, the step (b) is characterized in that the combination of both ends of the other frame on the side facing each other of the adjacent one of the plurality of horizontal or vertical steel frame.

Alternatively, the step (b) in the present invention forms a plurality of coupling grooves spaced apart at regular intervals along the longitudinal direction of one frame on the interior side of one of the plurality of horizontal or vertical steel frame, the coupling groove It can be configured to be made by inserting the other side frame.

The present invention before the step (c) of the step, (d) manufacturing a cell panel; Characterized in that it is included.

The cell panel of step (d) may include a band magnet having one surface coupled to a grid-shaped frame outside the grid-shaped frame; An adhesive part coupled to the other surface of the strip magnet; A panel unit coupled to the adhesive unit; Characterized in that consists of.

Alternatively, the cell panel of step (d) is coupled to the outside of the grid-shaped frame along the grid-shaped frame, a plurality of magnet pins are inserted into one side, the panel frame formed with an insertion groove along the other side ; A panel unit having one surface coupled to the other surface of the panel frame; An edge frame coupled to the other surface of the panel part along a circumference of the panel part, and having a protrusion having a shape corresponding to an insertion groove on one surface thereof; Consists of the panel frame, the panel portion, the frame frame is characterized in that it is integrated by a bolt penetrating them.

In addition, the cell panel of the step (d) is coupled to the outside of the grid-shaped frame along the grid-shaped frame, the adhesive unit is coupled along the edge on one side, the panel frame formed with an insertion groove on the other side; An edge frame coupled to the other side of the panel frame along a circumference of the panel, and having a protrusion having a shape corresponding to an insertion groove on one surface thereof; A magnet strip part positioned between the insertion groove and the protrusion part; An adhesive part having one surface coupled to the other surface of the frame; A panel unit coupled to the other surface of the adhesive unit; Characterized in that consists of.

In addition, the panel unit in the present invention is characterized in that any one of the PC film, PO film, acrylic film.

According to the present invention as described above it is possible to replace the glass panel of the conventional glass greenhouse structure by using a unit cell panel of light and excellent light-transmitting material combined with a band magnet or magnet pin around.

Therefore, the glass panel, which is brittle material, is replaced with the cell panel of the material showing more ductile behavior, so that it can resist external forces, and the cell panel combined with a band magnet or magnet pin around the steel frame Construction can be performed only by combining processes, it is possible to provide a glass replacement method of the glass greenhouse structure that can reduce the air and construction costs while minimizing the influence of outside air.

1a to 1c is a perspective view of the glass greenhouse structure according to the step-by-step sequence of the glass replacement method of the glass greenhouse structure of the present invention.
Figure 2a and Figure 2b is an exploded perspective view and a cross-sectional view of an embodiment of a cell panel applied to the glass replacement method of the glass greenhouse structure of the present invention, respectively.
Figure 3a and Figure 3b is an exploded perspective view and cross-sectional view of another embodiment of the cell panel applied to the glass replacement method of the glass greenhouse structure of the present invention, respectively.
4A and 4B are exploded perspective views and cross-sectional views of still another embodiment of a cell panel applied to the glass replacing method of the glass greenhouse structure according to the present invention, respectively.

Hereinafter, the present invention will be described in detail with reference to the accompanying drawings and preferred embodiments.

1A to 1C are perspective views of the glass greenhouse structure 1 according to the step-by-step sequence of the glass replacement method of the glass greenhouse structure 1 of the present invention.

Glass replacement method of the glass greenhouse structure (1) of the present invention of the glass greenhouse structure (1) made by combining a plurality of glass panels 20 in a grid-shaped frame formed by a plurality of horizontal and vertical steel frame (10) A glass replacement method comprising: (a) removing a glass panel 20 from a grid-shaped frame; (b) normalizing the height of the outer surface facing the outside air of the horizontal and vertical steel frame 10 to be uniform; And (c) attaching a cell panel 30 having a strip magnet 31 or a magnet pin 35 coupled to one side thereof on the outside of the standard horizontal and vertical steel frame 10; Characterized in that consists of.

As shown in FIG. 1A, the glass greenhouse structure 1 is constructed by arranging a plurality of glass panels 20 in a lattice-shaped frame formed by horizontal and vertical steel frame frames constituting a skeleton.

As shown in Figure 1b, the glass replacement method of the glass greenhouse structure 1 of the present invention begins with (a) removing the glass panel 20 from the grid-shaped frame of the glass greenhouse structure (1).

After the glass panel 20 is removed, the horizontal and vertical steel frame frames 10 face the outside air.

In FIG. 1B, the glass panel 20 of the wall portion of the glass greenhouse structure 1 is removed, but the glass panel 20 of the roof part may also be removed.

Next, as shown in Figure 1c, (b) to normalize the height of the outer surface facing the outside air of the horizontal and vertical steel frame 10 is uniform.

At this time, the step (b) of the plurality of horizontal or vertical steel frame 10, by combining both ends of the other side frame 14 to the side facing each other of the adjacent one side frame 12 horizontal and vertical steel frame ( 10) The height of the outer surface facing the outside air can be made uniform.

For example, as illustrated in FIG. 1C, the horizontal frame in the long side direction may be left as it is, and the existing vertical frame in the short side direction may be cut and welded so that both ends are coupled to the side surfaces of the horizontal frame adjacent to each other.

In this case, the existing vertical frame may be removed from the glass greenhouse structure 1 and then cut into a predetermined length, and the horizontal frame may be vertically neighboring so that the height of the horizontal frame and the outer surface is uniform while maintaining the existing vertical frame. The longitudinal frame may be further welded so that both ends are joined to the opposite side of the.

Of course, the vertical frame may be left as it is, and the horizontal frame may be combined such that both ends are coupled to the side surfaces of the vertical frame adjacent to the left and right.

In addition, the step (b) of the plurality of horizontal or vertical steel frame 10, a plurality of coupling grooves to be spaced apart at regular intervals along the longitudinal direction of one frame 12 on the side of the interior side of one frame 12. The height of the outer surface of the horizontal and vertical steel frame 10 facing the outside can be formed by inserting the other frame 14 into the coupling groove.

For example, a plurality of coupling grooves are formed on the indoor side of the horizontal frame so as to be spaced apart at regular intervals along the longitudinal direction of the horizontal frame, and then a relatively long vertical frame inserted into a plurality of upper and lower coupling grooves at the same time. Can be inserted into the coupling groove. At this time, the vertical frame protrudes outward so that the horizontal frame is equal to the height of the outer surface facing the outside, except for the portion inserted into the coupling groove.

On the contrary, the coupling groove may be formed in the vertical frame, and the horizontal frame may be inserted into the coupling groove of the vertical frame, and the horizontal frame and the vertical frame are welded to each other.

After the completion of the step (b), (c) attach the cell panel 30 coupled with the strip magnet 31 or the magnet pin 35 on one side of the standard horizontal and vertical steel frame 10 outside the standard. (FIG. 1C).

In this case, prior to performing the step (c) may include the step of manufacturing the (d) cell panel 30.

2A and 2B are exploded perspective views and cross-sectional views of an embodiment of the cell panel 30 applied to the glass replacement method of the glass greenhouse structure 1 of the present invention, respectively.

2A and 2B, the cell panel 30 of step (d) includes a band magnet 31 having one surface coupled to the outside of the grid-shaped frame along a grid-shaped frame; An adhesive part 32 coupled to the other surface of the strip magnet 31; A panel portion 33 coupled to the adhesive portion 32; Characterized in that consists of.

The panel unit 33 may be formed of any one of light and transparent PC (polycarbonate) film, PO (polyolefin) film, acrylic film.

The strip magnet 31 is a portion for coupling the cell panel 30 to the lattice-shaped frame formed by the horizontal and vertical steel frame 10 using the attractive force of the magnet.

The strip magnet 31 and the panel portion 33 are bonded by the adhesive portion (32). The adhesive part 32 may be configured by using a double-sided tape or spraying the adhesive.

As described above, when the cell panel 30 in which the strip magnet 31 and the panel unit 33 are integrated is manufactured in advance, the cell panel 30 may be detachably coupled to the place where the glass panel 20 is removed. It is easy to construct.

3A and 3B are exploded perspective views and cross-sectional views of another embodiment of the cell panel 30 applied to the glass replacement method of the glass greenhouse structure 1 of the present invention, respectively.

As shown in FIGS. 3A and 3B, the cell panel 30 of step (d) is coupled along a grid-shaped frame outside the grid-shaped frame, and a plurality of magnet pins 35 are inserted into one surface. And a panel frame 34 having an insertion groove 36 formed along an edge of the other surface thereof; A panel unit 33 having one surface coupled to the other surface of the panel frame 34; An edge frame 37 coupled to the other surface of the panel portion 33 along a circumference of the panel portion 33 and having a protrusion 38 formed in a shape corresponding to the insertion groove 36 on one surface thereof; Consists of the panel frame 34, the panel unit 33, the frame 37 is characterized by being integrated by bolts penetrating them.

The magnet pin 35 is inserted into one side of the panel frame 34 facing the steel frame 10, and preferably may be inserted into four corner portions of the rectangular panel frame 34.

The panel frame 34, the panel unit 33, and the frame 37 are stacked in this order, and then, the panel panel 34, the panel unit 33, and the frame frame 37 are integrated with each other through a coupling unit such as a bolt to manufacture the cell panel 30.

Since the projections 38 of the frame 37 are inserted into the insertion grooves 36 of the panel frame 34 so as to correspond to each other, the sealing performance of the cell panel 30 is secured.

The panel frame 34 and the frame 37 may be pre-fabricated through-hole formed with a screw thread on the inner peripheral surface for bolt coupling.

Finally, FIGS. 4A and 4B are exploded perspective views and cross-sectional views of yet another embodiment of a cell panel applied to the glass replacement method of the glass greenhouse structure of the present invention, respectively.

The cell panel 30 of step (d) is coupled to the outside of the lattice-shaped frame along the lattice-shaped frame, the adhesive part 32 is coupled along the edge on one side, and the insertion groove along the edge on the other side. A panel frame 34 on which 36 is formed; An edge frame 37 coupled to the other side of the panel frame 34 along the circumference of the panel portion 33 and having a protrusion 38 having a shape corresponding to the insertion groove 36 on one surface thereof; A magnet strip 39 located between the insertion groove 36 and the protrusion 38; An adhesive part 32 having one surface coupled to the other surface of the frame 37; A panel portion 33 coupled to the other surface of the adhesive portion 32; Characterized in that consists of.

Here, the adhesive portion can be produced with a double-sided tape.

Since the adhesive portion 32, the panel frame 34, the frame 37, the adhesive portion 32 and the panel portion 33 is manufactured to be integrated in advance, the adhesive portion 32 directly to the steel frame portion The cell panel 30 may be combined by attaching.

In addition, since the magnetic strip portion 39 is positioned between the insertion groove 36 and the projection portion 38, even if the deterioration phenomenon of the adhesive portion 32 progresses over time, the magnetic strip portion 39 is not affected by the magnetism of the magnetic strip portion 39. By this, the cell panel 30 can be firmly attached to the steel frame.

While the invention has been described in connection with the preferred embodiment as mentioned above, various modifications and variations are possible without departing from the spirit of the invention. Therefore, the claims of the present invention include modifications and variations that fall within the true scope of the invention.

1: glass greenhouse structure 10: steel frame
12: one frame 14: the other frame
20: glass panel 30: cell panel
31: strip magnet 32: adhesive part
33: panel portion 34: panel frame
35: magnet pin 36: insertion groove
37: border frame 38: protrusion
39: magnet strip part

Claims (8)

Regarding the glass replacement method of the glass greenhouse structure (1) made by combining a plurality of glass panels 20 in a grid-shaped frame formed by a plurality of horizontal and vertical steel frame 10,
(a) removing the glass panel 20 from the grid-shaped frame;
(b) normalizing the height of the outer surface facing the outside air of the horizontal and vertical steel frame 10 to be uniform; And
(c) attaching a cell panel 30 having a strip magnet 31 or a magnet pin 35 coupled to one side of the standard horizontal and vertical steel frame 10 outside; Glass replacement method of the glass greenhouse structure (1), characterized in that consisting of.
In claim 1,
The step (b)
Of the plurality of horizontal or vertical steel frame 10,
The glass replacement method of the glass greenhouse structure (1), characterized in that the two ends of the other frame 14 is coupled to the side facing each other of the adjacent one side frame (12).
In claim 1,
The step (b)
Of the plurality of horizontal or vertical steel frame 10,
A plurality of coupling grooves are formed on the indoor side of the one side frame 12 so as to be spaced apart at regular intervals along the longitudinal direction of the one side frame 12,
The glass replacement method of the glass greenhouse structure (1), characterized in that made by inserting the other frame 14 in the coupling groove.
In claim 1,
Before implementation of step (c) above,
(d) fabricating the cell panel 30; Glass replacement method of the glass greenhouse structure (1) comprising a.
5. The method of claim 4,
The cell panel 30 of step (d)
A band magnet 31 having one surface coupled to the outside of the lattice-shaped frame along a lattice-shaped frame;
An adhesive part 32 coupled to the other surface of the strip magnet 31;
A panel portion 33 coupled to the adhesive portion 32; Glass replacement method of the glass greenhouse structure (1), characterized in that consisting of.
5. The method of claim 4,
The cell panel 30 of step (d)
A panel frame 34 coupled to the outside of the lattice-shaped frame along a lattice-shaped frame, wherein a plurality of magnet pins 35 are inserted into one surface and an insertion groove 36 is formed along the edge of the other surface;
A panel unit 33 having one surface coupled to the other surface of the panel frame 34;
An edge frame 37 coupled to the other surface of the panel portion 33 along a circumference of the panel portion 33 and having a protrusion 38 formed in a shape corresponding to the insertion groove 36 on one surface thereof; Lt; / RTI >
The panel frame (34), the panel portion (33), the frame (37) is a glass replacement method of the glass greenhouse structure (1), characterized in that it is integrated by a bolt passing through them.
5. The method of claim 4,
The cell panel 30 of step (d)
A panel frame 34 which is coupled to the outside of the grid-shaped frame along a grid-shaped frame, wherein an adhesive part 32 is coupled to one side along an edge, and an insertion groove 36 is formed along the edge to the other side;
An edge frame 37 coupled to the other side of the panel frame 34 along the circumference of the panel portion 33 and having a protrusion 38 having a shape corresponding to the insertion groove 36 on one surface thereof;
A magnet strip 39 located between the insertion groove 36 and the protrusion 38;
An adhesive part 32 having one surface coupled to the other surface of the frame 37;
A panel portion 33 coupled to the other surface of the adhesive portion 32; Glass replacement method of the glass greenhouse structure (1), characterized in that consisting of.
8. The method according to any one of claims 5 to 7,
The panel unit 33 is a glass replacement method of the glass greenhouse structure (1), characterized in that any one of a PC (polycarbonate) film, PO (Polyolefin) film, acrylic film.

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