KR20130017197A - Aluminum structure glass house - Google Patents

Abstract

PURPOSE: A movable aluminum structure glass house is provided to easily assemble and disassemble with high intensity and gorgeous exterior by fixing a horizontal glass panel and a vertical glass panel to a bracket connected to a support frame. CONSTITUTION: A movable aluminum structure glass house comprises a support frame(A), a plurality of brackets(B), and a glass panel(C). The support frame comprises a pair of vertical posts(10), a horizontal post(20) connected to upper end part of the vertical post in horizontal direction, and a fixing piece(30) which fixes the vertical post and the horizontal post together by being inserted in the end part of the vertical post and the horizontal post. The bracket is connected to the support frame. The glass panel is installed in the bracket in order to surround an external circumference of the support frame.

Description

Aluminum structure glass house

The present invention relates to a movable aluminum structure glass house, and more particularly, to a movable aluminum structure glass house having a new structure with high appearance and easy disassembly and assembly.

In recent years, the production of smoking rooms, exhibition booths, temporary stores, bus stops, waiting rooms, etc. has been increasing in many cases.

At this time, since most of these structures are made of aluminum panels, synthetic resin panels, etc., which are light and easy to disassemble and assembly, the structures have low strength and are difficult to use for a long time. In particular, there was a problem that the appearance is very simple and difficult to use for various purposes.

On the other hand, recently, various kinds of buildings constituting walls using glass panels have been developed and are gaining popularity. Buildings made using glass panels have the advantages of higher strength and more beautiful appearance than buildings made of aluminum panels or synthetic resin panels. However, these glass panels are used for smoking rooms, booths, temporary stores, bus stops, etc. There was no method for manufacturing small structures such as waiting rooms and waiting rooms.

Therefore, there is a need for a method of manufacturing a small building in the form of disassembly and assembly using glass panels.

The present invention has been made to solve the above problems, and has an object of providing a movable aluminum structure glass house of a new structure that is beautiful in appearance but high in strength, and easy to disassemble and assemble.

The present invention for achieving the above object, a pair of vertical posts 10 are spaced apart from each other, both ends of the horizontal post 20 is connected in the horizontal direction to the upper end of the vertical post 10, L-shaped It is composed of a fixed end 20, both ends are fitted to the ends of the vertical post 10 and the horizontal post 20, and fixed to the vertical post 10 and the horizontal post 20, and are spaced apart from each other A plurality of support frames A; A plurality of brackets (B) coupled to the support frame (A); It includes a glass panel (C) fixed to the bracket (B) so as to surround the outer peripheral surface of the support frame (A), the vertical post 10 and the horizontal post 20 is a long ellipse or It is composed of a cross-sectional shape of the oblong shape and a coupling hole 11 is formed in the center portion is coupled to the fixing piece 20, and the fixing groove 12 to which the bracket (B) is coupled at both sides of the long side extend in the longitudinal direction. A movable aluminum structure glass house is provided, which is formed.

According to another feature of the invention, the bracket (B) is a support 50 is fixed to the fixing groove 12, the proximal end is fixed to the support 50, the front end of the sphere-shaped fixture (61) Is provided with a support bar 60 and the fixing hole is fixed to the through hole 81 formed in the glass panel (C) and formed on one side of the spherical coupling groove (71c) is inserted into the fastener (61) ( 70 is provided, the movable aluminum structure glass house is characterized in that it is possible to freely adjust the angle of the holder 70 according to the inclination angle of the glass panel (C).

According to another feature of the invention, the glass panel (C) is fixed to the bracket (B) so as to cover the lateral circumferential surface of the support frame (A) vertical glass panel 90 to form a side wall, and the It consists of a horizontal glass panel 90 fixedly coupled to the bracket (B) to form a ceiling to cover the upper portion of the support frame (A), the horizontal glass panel 90 is composed of two rows of left and right, horizontal glass panel in the left column 90 is disposed so that the left end is downward and the horizontal glass panel 90 in the right row is disposed so that the right end is downward, so that rainwater flows down both sides along the surface of the horizontal glass panel 90. A movable aluminum structure glass house is provided.

According to another feature of the invention, the fixing member 110 is formed on the bottom of the vertical post 10, the upper surface is formed with an insertion groove 111 is fixed to the lower end of the vertical glass panel 90 is inserted. A movable aluminum structure glass house is provided.

According to another feature of the invention, the horizontal glass panel 90 is provided with a drain duct 100 for draining the rainwater flowing out between the horizontal surface of the horizontal glass panel 90 is opened on the lower side adjacent to each other A movable aluminum structure glass house is provided.

According to another feature of the invention, the solar cell 120 for power generation provided on the lower side of the horizontal glass panel 90, the battery 130 for storing the electricity generated in the solar cell 120, and Lamp 140 connected to the battery 130, and the illumination sensor provided on the upper portion of the horizontal glass panel 90 and irradiated from the lamp 140 to measure the illuminance of the comb passing through the horizontal glass panel 90 ( 150, a cleaning device 160 installed on the top surface of the horizontal glass panel 90 and operated by using the battery 130 as a power source to wash the top surface of the horizontal glass panel 90, and the battery 130. The controller 170 further includes a controller 170 for controlling the power applied to the lamp 140 and receiving a signal from the illuminance sensor 150 to control the operation of the cleaning device 160. ) Is the lamp 140 measured by the illuminance sensor 150 while the lamp 140 is turned on. When the degree of illuminance of the lamp 140 falls below a set value by measuring the degree, the washing apparatus 160 is operated to clean the upper surface of the horizontal glass panel 90, and the horizontal glass panel 90 is cleaned using the washing apparatus 160. Even after washing the upper surface of the), if the illuminance of the lamp 140 measured by the illuminance sensor 150 does not improve, it is determined that there is an abnormality in the lamp 140, the mobile aluminum, characterized in that to output an alarm signal A structural glass house is provided.

The movable aluminum structure glass house according to the present invention is installed so as to be spaced apart from each other a plurality of support frame (A) consisting of a vertical post 10, a horizontal post 20 and a fixed piece 20, the support frame (A) Since it is configured by fixing the vertical glass panel 90 and the horizontal glass panel 90 to the combined bracket (B), not only the appearance is beautiful but the strength is high, there is an advantage that easy disassembly and assembly.

1 is a front view showing a movable aluminum structure glass house according to the present invention,
2 is a side view showing a movable aluminum structure glass house according to the present invention;
3 is a plan view showing a movable aluminum structure glass house according to the present invention,
4 is a front sectional view showing a movable aluminum structure glass house according to the present invention;
5 is a plan sectional view showing a movable aluminum structure glass house according to the present invention;
6 is a reference view showing a bracket of a movable aluminum structure glass house according to the present invention,
7 is an exploded view showing a bracket of a movable aluminum structure glass house according to the present invention;
8 is an exploded view showing a support frame of a movable aluminum structure glass house according to the present invention;
9 is a front sectional view showing a second embodiment of a movable aluminum structure glass house according to the present invention;
10 is a configuration diagram showing a second embodiment of a movable aluminum structure glass house according to the present invention.

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

1 to 8 illustrate a movable aluminum structure glass house according to the present invention, a plurality of support frames A disposed to be spaced apart from each other, a plurality of brackets B coupled to the support frames A, and It is composed of a glass panel (C) which is installed on the bracket (B) to surround the outer peripheral surface of the support frame (A).

In detail, the support frame (A) is a pair of vertical posts 10 are spaced apart from each other, both ends of the horizontal post 20 is horizontally connected to the upper end of the vertical post 10, L-shaped It is configured in the form and both ends are fitted to the end of the vertical post 10 and the horizontal post 20 is composed of a fixing piece 20 for fixing the vertical post 10 and the horizontal post 20 to each other.

The vertical post 10 and the horizontal post 20 is produced by cutting the aluminum profile produced by extruding aluminum to a predetermined length, as shown in Figures 6 and 7, the long ellipse or the shape of the long side in both directions Consists of a cross-sectional shape, the coupling hole 11 is formed in the central portion is coupled to the fixing piece 20, the fixing groove 12 is coupled to the long side side is formed in the longitudinal direction extending to the bracket (B) do. At this time, the lower end of the vertical post 10 is provided with a wide support plate 13, it is configured to fix the vertical post 10 to the bottom surface using an anchor bolt penetrating the support plate (13). In addition, coupling grooves 11a to which the fixing piece 20 is fixed are formed at both inner sides of the coupling hole 11.

The fixing piece 20 is made of a metal material of high strength and both ends are fixed with a bolt (not shown) in the state fitted to the coupling hole 11 of the vertical post 10 and the horizontal post 20 vertical post (10) ) And the horizontal post 20 are fixed so as not to move with each other.

At this time, as shown in Figures 4 and 8, the upper end of the vertical post 10 and the horizontal post 20 is formed on both ends are inclined surface cut inclined 45 °, the vertical post 10 and the horizontal post 20 ) Is assembled so that the fixing piece 20 is completely inserted into the vertical post 10 and the horizontal post 20 to be covered.

In addition, as shown in FIGS. 6 and 7, the length of the finishing member 40 is coupled to the fixing groove 12 of the vertical post 10 and the horizontal post 20 so that the vertical post 10 is horizontal to the vertical post 10. It is configured to cover the fixing groove 12 of the post (20). The closing member 40 is coupled to the fixing groove 12 to avoid the position where the bracket (B) is coupled is configured so that the bracket (B) and the closing member 40 do not interfere with each other.

6 and 7, the bracket B is fixed to the fixing groove 12, the support bar 50, the base end is fixed to the support bar 60 and the support bar 60 and The fixed panel 70 is fixedly coupled to the glass panel C and coupled to the front end of the support bar 60. The support 50 is provided with a variety of one to four arms 51 extending in the lateral direction depending on the type, as shown in Figures 1 to 3, the appropriate number of arms ( 51) is configured to select and install the provided. The support bar 60 is formed of a rod-shaped metal material having a long length, the base end is bolted to the support 50, the front end is provided with a spherical fastener 61. At this time, the fastener 61 is configured in the shape of a complete sphere having a larger diameter than the diameter of the support bar 60 and is integrally provided at the front end of the support bar 60. The fixture 70 is fitted into the through-hole 81 formed in the glass panel (C), and one side is formed with a spherical coupling groove 71c into which the fixture 61 is inserted. To this end, the holder 70 is a coupling block 71 consisting of a head portion 71a and an extension portion 71b extending from the head portion 71a and having a thread formed on a circumferential surface thereof, and a screw on the circumferential surface of the extension portion. Composed of a fixing nut 72 to be coupled, the coupling groove 71c is formed at the end of the extension portion. At this time, the inlet portion of the coupling groove (71c) is formed narrower than the diameter of the coupling hole 11, it is configured to gradually widen toward the outside. Therefore, the extension part 71b of the coupling block 71 is inserted into the through hole 81 of the glass panel C, and then the fixing nut 72 is coupled to the extension part 71b to glass the holder 70. Can be fixed to the panel (C), when the fastener 61 of the support bar 60 is forcibly fitted to the coupling groove (71c), as shown by the dotted line in Figure 6, the support bar 60 The angle can be adjusted by tilting the support 70 in a predetermined angle in the state coupled to the coupling groove (71c).

The glass panel C covers the vertical glass panel 90 fixedly coupled to the bracket B to form sidewalls so as to cover the lateral circumferential surface of the support frame A, and covers an upper portion of the support frame A. It consists of a horizontal glass panel 90 fixed to the bracket (B) to form a ceiling, the vertical glass panel 90 and the horizontal glass panel 90 is composed of a plurality of brackets (B) provided in the support panel Are coupled to the ceiling to form a wide sidewall. At this time, the bracket (B) is coupled to the corner portion of each glass panel (C) is installed to support the glass panel (C).

In addition, the horizontal glass panel 90 is disposed to be inclined so that both sides are downward relative to the center portion of the ceiling, as shown in Figs. That is, the horizontal glass panel 90 is composed of two columns, left and right, the horizontal glass panel 90 in the left column is disposed so that the left end is downward and the horizontal glass panel 90 in the right column is arranged so that the right end is downward, rain water It is comprised so that it may flow to both sides along the surface of this horizontal glass panel 90. To this end, the vertical height of the bracket (B) installed in the center portion of the vertical post 10 is configured to be higher than the height of the bracket (B) installed on both sides of the vertical post 10, the bracket (B) Fixing each corner portion of the horizontal glass panel 90 to the horizontal glass panel 90 is to be installed to be inclined.

3 and 4, the drain glass duct 100 is provided below the portion where the horizontal glass panel 90 is adjacent to each other. The drain duct 100 is composed of a U-shaped duct of the upper surface is open and is installed so that the upper surface is in close contact with the lower side of the horizontal glass panel (90). At this time, since the horizontal glass panel 90 is inclined downward to the left and right sides, the drainage duct 100 is also disposed to be inclined downward in both directions with respect to the center of the ceiling, and the rainwater flowing between the horizontal glass panels 90 is excellent. Can drain to both sides of the ceiling.

In addition, as shown in Figure 4 and 5, the fixing member 110 is coupled to the lower end of the vertical glass panel 90. The fixing member 110 is formed in the upper surface of the insertion groove 111 is fixed to the lower end of the vertical glass panel 90, the lower end of the vertical post 10 to surround the outside of the support frame (A) That is, fixed to one end of the support plate 13 provided at the lower end of the vertical post 10, the function of fixing the lower end of the vertical glass panel 90 inserted and fixed in the insertion groove 111 does not move do. At this time, the inside of the insertion groove 111 is provided with a cushion member 112 is configured to absorb the load and impact of the vertical glass panel 90.

The movable aluminum structure glass house configured as described above is provided with a plurality of support frames A composed of a vertical post 10, a horizontal post 20, and a fixed piece 20 so as to be spaced apart from each other, and coupled to the support frame A. Since the vertical glass panel 90 and the horizontal glass panel 90 are fixed to the brackets B, the appearance is beautiful and high in strength, and there is an advantage of easy disassembly and assembly. In particular, there is an advantage that is very suitable for the construction of small structures, such as smoking rooms, exhibition booths, temporary stores, bus station, waiting room.

The bracket (B) is a support bar (60) fixedly installed in the fixing groove (12), and a proximal end is fixedly installed on the support (50), and a support bar (60) provided with a spherical fixing member (61) at a distal end thereof. ) And a fixing table 70 fixedly coupled to the glass panel C and having a spherical coupling groove 71c into which the fixture 61 is inserted, is fixed to one side of the glass panel C. Since the angle of the holder 70 can be freely adjusted according to the inclination angle, there is an advantage that can freely adjust the installation angle of the glass panel (C). In particular, by installing inclined so that both sides of the horizontal glass panel 90 forming the ceiling downward, there is an advantage that can effectively drain rainwater.

In addition, the bottom of the vertical post 10 is provided with a fixing member 110 is formed with an insertion groove 111 is fixed to the bottom of the vertical glass panel 90, the vertical glass panel 90 to reinforce the bottom This may prevent the vertical glass panel 90 from being damaged when an external force, in particular, people traveling on the road hit the vertical glass panel 90 or other objects collide with the bottom of the vertical glass panel 90. There is an advantage.

In addition, the horizontal glass panel 90 is provided with a drain duct 100 for discharging rainwater that flows out between the horizontal glass panel 90 by opening the upper surface at the lower side of the adjacent portions of the horizontal glass panel 90. There is an advantage that can effectively handle the rainwater flowing between the horizontal glass panel 90 without having to waterproof between. In particular, the use of the drain duct 100 in this way compared to waterproofing the gap between the horizontal glass panel 90 is simple in structure and operation can reduce the cost, has the advantage of higher durability.

In the present exemplary embodiment, only the horizontal glass panel 90 is disposed to be inclined, but if necessary, the vertical glass panel 90 may also be disposed to be inclined to each other in the lateral direction.

9 and 10 illustrate another embodiment according to the present invention. In the movable aluminum structure glass house according to the present embodiment, a solar cell 120 for power generation provided at a lower side of the horizontal glass panel 90 and And a battery 130 for storing electricity generated by the solar cell 120, a lamp 140 connected to the battery 130, and an illumination sensor 150 provided on an upper portion of the horizontal glass panel 90. And, it is installed on the upper surface of the horizontal glass panel 90 and is operated by the battery 130 as a power supply for cleaning device 160 for cleaning the upper surface of the horizontal glass panel 90, and in the battery 130 The controller 170 is further provided to control the power output to the lamp 140 and to control the operation of the cleaning device 160 by receiving a signal from the illumination sensor 150.

The solar cell 120 uses a solar cell 120 used for general solar power generation, and is fixed to the support frame A so as to be spaced downward from the horizontal glass panel 90.

The battery 130 uses a general secondary battery.

The lamp 140 is installed on the support frame A to illuminate the inside of the glass house, and uses the LED lamp 140.

The illuminance sensor 150 is installed on the upper portion of the horizontal glass panel 90 to measure the illuminance of the comb through the horizontal glass panel 90 is irradiated from the lamp 140, the horizontal glass panel 90 The upper surface of the dust is covered with foreign matter, such as to detect the decrease in the transmittance of light. That is, since the intensity of the light irradiated from the lamp 140 is constant, if the illuminance of the lamp 140 measured by the illuminance sensor 150 is lowered, this may cause dust or the like on the upper surface of the horizontal glass panel 90. This means that the foreign matter of the cover is reduced light transmittance. As such, when foreign matter is covered on the upper surface of the horizontal glass panel 90 and the transmittance of light is lowered, the sunlight transmitted to the solar cell 120 through the horizontal glass panel 90 is weakened, so that the solar cell 120 is Power generation efficiency is lowered.

The cleaning device 160 uses a wiper and a water spray unit installed to be in close contact with the upper surface of the horizontal glass panel 90, and is operated according to the control signal of the controller 170 to the upper surface of the horizontal glass panel 90. While spraying water, the upper surface of the horizontal glass panel 90 is rubbed with a wiper to remove foreign substances such as dust from the upper surface of the horizontal glass panel 90, and passes through the horizontal glass panel 90 to the solar cell 120. Prevents sunlight from fading. Since the washing device 160 is developed and widely used in addition to the method of using the wiper and the water spray, detailed description thereof will be omitted.

The controller 170 controls the controller 170 to turn off the lamp 140 automatically according to a pre-input time or the brightness of the surroundings, and receives a signal from the illuminance sensor 150. When it is confirmed that the light transmittance of the horizontal glass panel 90 is lowered below the set value, the cleaning device 160 is automatically operated to remove foreign substances on the upper surface of the horizontal glass panel 90. In this case, the controller 170 controls the relay 172 of the power line 171 connecting the battery 130, the lamp 140, and the washing apparatus 160 to the on-off control of the lamp 140. On-off and the operation of the washing device 160 can be controlled.

In addition, the controller 170 does not increase the illuminance of the lamp 140 measured by the illuminance sensor 150 even when the foreign matter on the upper surface of the horizontal glass panel 90 is removed by operating the cleaning device 160. In this case, it is determined that the lamp 140 is damaged, and serves to output an alarm signal. That is, even after the horizontal glass panel 90 is cleaned using the washing apparatus 160, the illuminance of the lamp 140 does not return to normal, which means that a part of the lamp 140 is damaged and does not light up. The controller 170 monitors the signal of the illuminance sensor 150 again after the washing apparatus 160 is operated, and outputs an alarm indicating that the lamp 140 is damaged when the illuminance is not restored.

At this time, it is preferable that the alarm signal output from the controller 170 is transmitted to the administrator through wired or wireless.

The movable aluminum structure glass house configured as described above generates electricity using the solar cell 120, and stores the generated electricity in the battery 130 to light the lamp 140, and thus does not require a separate power source. , Very easy to use, if necessary, by connecting a separate mobile phone charger, etc. to the battery 130, there is an advantage that can provide a mobile phone charging service.

In addition, the light transmittance of the horizontal glass panel 90 is monitored using the illuminance sensor 150, and when the light transmittance of the horizontal glass panel 90 is reduced by foreign matter, the horizontal glass panel (using the cleaning device 160) is used. By washing the upper surface of the 90) there is an advantage that can prevent the power generation efficiency of the solar cell 120 is lowered. In particular, the controller 170 monitors the signal from the illuminance sensor 150, detects an abnormality of the lamp 140, and outputs an alarm signal. Thus, maintenance is more convenient.

A. Support Frame 10. Vertical Post
20. Horizontal post 30. Fixing piece
40. Finishing member B. Bracket
50. Support 60. Support Bar
70. Fixture C. Glass Panel
80. Vertical glass panel 90. Horizontal glass panel

Claims (6)

A pair of vertical posts 10 are spaced apart from each other, the horizontal post 20 is connected to the upper end of the vertical post 10 in the horizontal direction, and the L-shaped and both ends of the vertical post (10) And a plurality of support frames (A) fitted to the ends of the horizontal posts 20 to fix the vertical posts 10 and the horizontal posts 20 to be spaced apart from each other;
A plurality of brackets (B) coupled to the support frame (A);
It includes a glass panel (C) fixedly coupled to the bracket (B) to surround the outer peripheral surface of the support frame (A),
The vertical post 10 and the horizontal post 20 are formed in a cross-sectional shape of long oval or oblong in both directions, and the coupling hole 11 to which the fixing piece 20 is coupled is formed at the center and both sides of the long side. The movable aluminum structure glass house, characterized in that the fixing groove 12 is extended in the longitudinal direction is coupled to the bracket (B).
The method of claim 1,
The bracket (B) and the support 50 is fixed to the fixing groove 12,
The base end is fixed to the support 50 and the support bar 60 is provided with a spherical fastener 61 in the front end portion,
It is fixed to the through-hole 81 formed in the glass panel (C) and one side is composed of a fixture 70 is formed with a spherical coupling groove 71c is inserted into the fastener 61,
The movable aluminum structure glass house, characterized in that the angle of the holder 70 can be freely adjusted according to the inclination angle of the glass panel (C).
The method of claim 1,
The glass panel (C) and the vertical glass panel 90 is fixed to the bracket (B) to cover the lateral circumferential surface of the support frame (A) to form a side wall,
It is composed of a horizontal glass panel 90 fixedly coupled to the bracket (B) to form a ceiling to cover the upper portion of the support frame (A),
The horizontal glass panel 90 is composed of two rows, left and right,
The horizontal glass panel 90 in the left row is arranged so that the left end is downward and the horizontal glass panel 90 in the right row is arranged so that the right end is downward,
A movable aluminum structure glass house, characterized in that rain water flows down both sides along the surface of the horizontal glass panel (90).
The method of claim 3, wherein
The movable aluminum structure glass, which is fixed to the lower end of the vertical post 10 and the upper surface further comprises a fixing member 110 having an insertion groove 111 into which the lower end of the vertical glass panel 90 is inserted and fixed. House.
The method of claim 3, wherein
The movable aluminum structure glass house, characterized in that the lower surface of the horizontal glass panel 90 adjacent to each other is provided with a drain duct 100 for draining the rainwater flows out between the horizontal glass panel 90 by the upper surface is open. .
The method of claim 1,
A solar cell 120 provided at a lower side of the horizontal glass panel 90;
A battery 130 for storing the electricity generated in the solar cell 120,
A lamp 140 connected to the battery 130,
An illuminance sensor 150 provided on an upper portion of the horizontal glass panel 90 to measure an illuminance of a comb that is irradiated from the lamp 140 and passes through the horizontal glass panel 90;
Is installed on the upper surface of the horizontal glass panel 90 and is operated by the battery 130 as a power to the washing device 160 for washing the upper surface of the horizontal glass panel 90,
And a controller 170 that controls the power output from the battery 130 and applied to the lamp 140 and receives a signal from the illuminance sensor 150 to control the operation of the cleaning device 160.
The controller 170 measures the illuminance of the lamp 140 measured by the illuminance sensor 150 while the lamp 140 is turned on, and when the illuminance of the lamp 140 falls below a set value, the cleaning device ( The lamp 140 measured by the illuminance sensor 150 even after the upper surface of the horizontal glass panel 90 is cleaned by operating the 160 and the upper surface of the horizontal glass panel 90 is cleaned using the washing apparatus 160. If the illuminance does not improve, the movable aluminum structure glass house, it is determined that there is an abnormality in the lamp 140, and outputs an alarm signal.

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