KR101636327B1 - Unit Membrane Block Possible Tension Maintenance And Membrane Wall System Comprising The Same - Google Patents

Abstract

The present invention relates to a unit membrane block having a dual membrane structure and a curtain wall system constituting one roof by interconnecting the same unit membrane blocks, and specifically, to the unit membrane block capable of maintaining tension which can maintain constant tension regardless of tension variation due to external environment as to each membrane, and the curtain wall system configured by the same. The unit membrane block to realize the same, in the unit membrane block constituting a dual membrane, includes: a frame part which constitutes a boundary and has a hollow part formed inside; a pair of membranes which are installed at an upper part and a lower part of the frame part, respectively; and a tension control unit which is installed by being fixed to the hollow part of the frame part, and makes the membrane maintain tension by pulling the membrane in an external direction, and senses real-time tension variation as to the membrane.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to a unit membrane block capable of maintaining tension, and a curtain wall system constituted thereby.

The present invention relates to a unit membrane material block having a double membrane structure and a curtain wall system constituting a single roof by interconnecting the unit membrane material blocks. More particularly, the present invention relates to a curtain wall system, And a curtain wall system constituted by the unit block block.

In general, the film structure functions as a roof in a sporting arena, an outdoor performance hall, or an industrial large-sized storage place, and prevents the inflow of ultraviolet rays and radiant heat during the daytime.

Such a membrane structure is usually fixedly installed on a ground having a predetermined height so that a plurality of unit membrane fabrics can serve as a roof, and a vertical beam formed upright from the ground and a horizontal beam connecting the vertical beams are provided to form a foundation structure And a membrane structure is installed by installing unit membrane fabrics on the foundation structure.

At this time, in order to control the tensile force of the unit membrane fabric, the membrane structures are connected to each other through wire or the like.

However, in the case of the conventional film structure, since the unit membrane fabric is formed as a single layer, ultraviolet rays can be blocked, but when exposed to the sunlight for a long time, radiant heat is transferred to the inside and the temperature rises, and the original function as a roof is lost.

Especially, since the unit membrane fabric is installed with a certain tension, it can not control the tension of the material flexibly or shrinking due to seasonal changes such as summer and winter, so that excessive force is applied to the membrane fabric The life of the membrane fabric is shortened and the aged membrane fabric is easily broken.

In addition, the above-mentioned unit membrane fabric can not maintain the designed tension, the membrane fabric having a large area receives a lot of resistance in the environment of bad weather where the wind is strong, so that the membrane fabric is torn or separated from the foundation structure, The damage to the unit membrane is frequently required. Accordingly, it is not only economical but may also cause secondary damage such as personal injury.

Korea public utility model 2010-0002793

SUMMARY OF THE INVENTION The present invention has been conceived to solve the above-mentioned problems, and it is an object of the present invention to provide a unit film material block having a double membrane structure, which is capable of maintaining a tension capable of reacting with a tension force of a membrane material by an external environment, Block and a curtain wall system constituted thereby.

In order to accomplish the above object, the present invention provides a unit film material block capable of maintaining tension, comprising: a frame part forming a frame and having a hollow part formed therein; A pair of film materials installed at upper and lower portions of the frame portion, respectively; And a tension adjusting unit fixed to the hollow part of the frame part and tensioning the film material in the outward direction to maintain a constant tension of the film material and to detect a change in real time tension of the film material.

As one example, the tension adjusting unit may include: tension adjusting means driven by a control signal; A tension adjusting bar which is installed on both sides of the tension adjusting means and which is in contact with the inner surface of the film member and integrally with the film member and which is raised and lowered by driving of the tension adjusting means; A tension measuring sensor for sensing a tension acting on the material in real time; And a controller for receiving a sensing signal of the tension measuring sensor and comparing and analyzing a predetermined reference tension value and a tension value of the sensing signal to selectively generate and output a control signal for controlling tension or compression of the tension adjusting means, .

As an example, the tension adjusting unit may further include a display unit installed on one side of the frame unit and visually displaying analysis result data of the control unit.

As an example, the tension adjusting bar may include: a fixing pin extending at an end thereof and penetrating a center portion of the film material; And a fixing cap which is fastened to an end portion of the fixing pin which is exposed to the outside through the film member to closely contact the fixing pin and the film material.

As one example, the bracket includes a pair of first brackets provided on mutually opposite surfaces of the inner surface of the frame portion and formed with through holes, and a second bracket provided on the outer surface of the tension adjusting means at a position facing the first bracket, A stud bolt arranged to penetrate through holes of the first bracket and the second bracket, and a stud bolt fixed to the first bracket and the second bracket, And fixing means composed of a fastening nut for fastening.

Meanwhile, the curtain wall system constituted by the unit film material blocks capable of maintaining the tension of the present invention is characterized in that any one of the above-described unit film material blocks are connected in series and parallel to form a single roof structure.

As described above, the unit film material block capable of maintaining tension in the present invention and the curtain wall system constituted by the unit film material according to the present invention can detect tension fluctuation of the film material by the external environment in real time in a unit film material block having a double film structure, And it is advantageous in that the function of the unit block material block is not lost by allowing the tension to be adjusted by reacting fluidly according to the result.

It is possible to prevent the shortening of the life of the membrane fabric and the breakage of the membrane fabric so as to minimize the economic loss as well as to prevent the safety accident. In particular, since the maintenance of the membrane fabric is unnecessary, .

BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1A is a partially cutaway perspective view showing a structure of a unit film material block capable of maintaining tension in accordance with the present invention. FIG.
FIG. 1B is a front view for explaining an operating state of a unit film material block capable of maintaining tension according to the present invention. FIG.
2 is an exploded perspective view showing a configuration of a frame part according to an embodiment of the present invention;
3 is an exploded perspective view showing a configuration of a tension adjusting unit according to an embodiment of the present invention;
4 is a block diagram showing a configuration of a tension adjusting unit according to an embodiment of the present invention;
5 is a side sectional view showing the structure of a fixing means according to an embodiment of the present invention;
FIG. 6 is a plan view showing a joining structure of unit film material blocks according to an embodiment of the present invention. FIG.

Hereinafter, embodiments of the present invention will be described in more detail with reference to the accompanying drawings, in which a tension-maintaining unit film material block and a curtain wall system constituted thereby are described in detail.

A unit film material block (hereinafter, referred to as a 'unit film material block') 10 capable of maintaining tension of the present invention is a constitution of a curtain film roof structure, as well as a joining structure for joining unit film material blocks 10, And a dual membrane structure that minimizes radiant heat transfer.

As shown in FIG. 1A, the unitary block 10 includes a frame 100, a film 200 mounted on the frame 100, a sensor 200 for detecting the tension applied to the film 200 in real time, And a fixing unit for fixing the tension adjusting unit 300 on the frame unit 100. The tension adjusting unit 300 may include a tension adjusting unit 300 for adjusting the tension of the tension adjusting unit 300,

First, the frame part 100 forms a rim of the unit film material block 10. The upper and lower parts of the frame part 100 may each have a rectangular shape with a hollow part (not shown) And the film material 200 is fixedly placed on the lower part of the substrate 200 to have a dual film structure.

For example, as shown in FIGS. 1A and 1B, the frame unit 100 can be coupled with a pair of frames having the same shape at regular intervals, and a film material 200 is fixed So that the hollow portion can be sealed.

The frame part 100 is preferably made of aluminum or stainless steel having excellent corrosion resistance and excellent workability in consideration of exposure to an external environment.

The film members 200 are formed as a pair, and are mounted on the upper and lower parts of the frame part 100, respectively, so that the unit film material block 10 can have a double film structure.

As described above, since the pair of the membrane material structures are spaced apart from each other by the space of the hollow portion of the frame portion 100, the unit film material block 10 secures the barrier layer therein, It is possible to minimize the transfer of the radiant heat to the film material 200 located below.

In addition, since the film 200 is fixed to the upper and lower portions of the frame 100, the film 200 can be finely adjusted.

2, the frame unit 100 can be coupled with a pair of frames at regular intervals. Each frame includes a body frame 120 and four divided frames 110, And adjusting means.

The main body frame 120 is formed in a rectangular frame shape to form a hollow portion so that light can be transmitted through the hollow portion and provide a space in which the member 200 and the divided frame 110 can be mounted.

Here, the main body frame 120 may have a coupling protrusion 121 protruding along the outer or inner periphery of the upper surface thereof. For example, the coupling jaw 121 may be fastened to the upper surface of the main body frame 120 by bolting or the like.

The divided frame 110 is for substantially fixing each side of the film material 200 and is spaced apart from the upper surface of the main body frame 120 at a position facing the engagement protrusion 121, Each divided frame 110 is configured to flow left or right or upward and downward from the upper surface of the main body frame 120 by the adjusting means described with reference to FIG. Tension adjustment can be performed.

The four divided frames 110 are configured to form a minute spacing space with the other divided frames 110 adjacent to each other. As shown in FIG. 2, The cross section is configured to have an inclination of 45 DEG inward to maintain the shape of the crisscross even in a fine flow.

According to a preferred embodiment of the present invention, the joining jaws 121 and each of the divided frames 110 are disposed on the upper surface of the divided frame 110, And at least two control bolts (130) for controlling lateral flow of the divided frames (110).

The coupling jaws 121 and the divided frames 110 are formed with through holes at mutually opposite positions so that the control bolts 130 can pass therethrough, and a thread is formed at the inner circumference of the through holes, When the bolt 130 is rotated in the clockwise or counterclockwise direction, the divided frame 110 can be moved left or right or up and down from the fixed engaging step 121, The partial tension adjustment of the film member 200 can be performed.

Therefore, when adjustment is required to the film material 200 which contracts and expands at the time of construction or during the season of the first unit film material block 10, the tension of the film material 200 can be easily adjusted by simple bolt rotation .

The adjusting means further includes a pair of fixing nuts 140 positioned on the side surfaces of the coupling jaw 121 and the divided frame 110. The fixing nut 140 may be inserted into the control bolt 130 So that the flow of the control bolt 130 is restricted by tightening the fixing nut 140 after the final adjustment of the film 200 is completed.

Meanwhile, according to a preferred embodiment of the present invention, the four sides of the membrane 200 can be fastened to the divided frames 110 by slide coupling. That is, as shown in FIG. 2, the membrane 200 has four cut-out portions 230 each having a slope of 45 degrees at each corner portion, and protrusions 220 are formed at the ends of each side.

The divided frame 110 has a locking groove 111 which can be received by sliding the protrusion 220 on the side of the divided frame 110 so that each side of the block 200 is fastened to each divided frame 110 in a sliding manner And the divided frame 110 is fastened to the main body frame 120 through the control bolt 130 in a state where the fastening of the film 200 is completed.

3, the tension adjusting unit 300 is fixed to the hollow portion of the frame portion 100, and the tension adjusting unit 300 is formed to extend in the outward direction The tension of the membrane 200 can be maintained to be constant and the change in the real time tension of the membrane 200 can be detected.

The tension adjusting unit 300 may include a tension adjusting unit 310, a tension adjusting bar 320, a tension measuring sensor 350, and a controller 360.

The tension adjusting means 310 is driven by a control signal generated by the controller 360 to perform tension or compression. For example, the tension adjusting means 310 may be implemented as a hydraulic cylinder or a solenoid valve.

The tension adjusting bar 320 may move up and down in conjunction with the tensioning or compressing action of the tension adjusting means 310. The tension adjusting bar 320 is installed on both sides of the tension adjusting means 310 and is mounted so as to be in contact with the inner surface of the sheet material 200 to be integrated with the sheet material 200, So that the film 200 can be moved outward or inward from the hollow portion to adjust the tension.

The tension adjusting bar 320 may include a fixing pin 330 extending through the center of the film 200 and a fixing pin 330 penetrating the film 200 and exposed to the outside, And a fixing cap 340 fastened to an end of the fixing member 330 to closely contact the fixing pin 330 and the film member 200. Thus, the fixing member 340 can be firmly fixed between the film member 200 and the tension adjusting bar 320, It is possible to prevent leakage of the film material 200 such as snow or rain.

In addition, in the case of the membrane 200, it is a matter of course that a fixing hole 210 is formed at the center of the fixing pin 340 so that the fixing pin 340 of the tension adjusting bar 320 can penetrate.

The tension measuring sensor 350 can sense a tension acting on the material 200 in real time and output a sensing signal.

The control unit 360 receives the sensing signal output from the tension measuring sensor 350 and selectively controls the tension adjusting unit 310 by comparing and analyzing a predetermined reference tension value and a tension value of the sensing signal. have.

As shown in FIG. 4, the controller 360 may include a comparison / analysis unit 361 and a memory unit 362.

The memory unit 362 may store reference tension value data set by an administrator. Here, the reference tension value stored in the memory unit 362 may be a reference tension value set in stages.

The comparison and analysis unit 361 compares the reference tension value stored in the memory unit 362 with the real-time measurement tension value according to the sensing signal of the tension measuring sensor 350 to determine the tension of the tension adjusting unit 310 Or to generate and output control signals for controlling compression.

That is, the comparator 361 may output a control signal for causing the tension adjusting unit 310 to perform tensile operation when the tension acting on the member 200 is less than a predetermined reference tension value due to external factors or the like And in the opposite case, the tension adjusting means 310 may output a control signal for causing the compression operation to be performed.

The control signal output from the comparison and analysis unit 361 is transmitted to the tension control unit 310 to perform a tension or compression operation and is controlled by a tension control bar 320 The physical tension adjustment of the membrane 200 is performed.

In addition, the tension control unit 300 may further include a display unit 370 installed on one side of the frame unit 100 and visually displaying the analysis result data of the control unit 360.

For example, the display unit 370 may display the tension value derived by the sensing signal numerically or may be displayed in a specific color so that the manager can identify the tension state of the film material 200.

The fixing means fixes the tension adjusting unit 300 to the hollow portion of the frame unit 100 as described above.

At this time, the fixing means according to the preferred embodiment of the present invention can be configured such that the tension adjusting unit 300 can move to the left / right, front / rear, and / or right at the central portion of the hollow portion.

5, the fixing unit includes at least a pair of first brackets 400, each of which is formed on an inner surface of the frame 100 and has through holes 401, A pair of second brackets 410 provided on the outer surface of the tension adjusting means 310 at positions opposite to the first brackets 400 and formed with through holes 411, A stud bolt 420 disposed to penetrate the through holes 401 and 411 of the second bracket 410 and the stud bolt 420 to the first bracket 400 and the second bracket 410 As shown in Fig.

That is, by adjusting the length of the stud bolts 420 positioned between the first bracket 400 and the second bracket 410 and tightening the fastening nut at the finally adjusted position, the tension adjusting unit 300 The tension adjusting unit 300 can be accurately positioned at the central portion of the hollow portion through the adjusting structure so that uniform force can be transmitted when tensile force is applied to the member 200 .

The curtain wall system (hereinafter, referred to as a curtain wall system) constituted by the unit film material blocks capable of maintaining the tension of the present invention is constructed by the unit film material blocks 10, 10-1 , 10-2 are connected to each other in series and in parallel so as to form a designed roof structure.

Since the entire roof structure of the curtain wall system is constituted by the plurality of unit block material blocks 10, 10-1 and 10-2, it is possible to perform independent maintenance on the unit block material block requiring maintenance such as external damage There is an advantage.

6, the curtain wall system includes a spacing member 20 coupled between unit film material blocks 370 so as to separate the adjacent unit film material blocks 10, 10-1, 10-2 from each other, And by providing the spacing member 20, it is possible to provide a maintenance space for repairing or replacing each of the unit film material blocks 10, 10-1, 10-2.

It will be apparent to those skilled in the art that various modifications and variations can be made in the present invention without departing from the spirit or scope of the invention. Therefore, the technical scope of the present invention should not be limited to the contents described in the detailed description of the specification, but should be defined by the claims.

10: Unit block material block
100: frame unit 110: divided frame
111: fastening groove 120: main frame
130: Control bolt 140: Fixing nut
200: membrane member 210: fixing hole
220: protrusion 230: incision
300: tension adjusting unit 310: tension adjusting means
320: tension adjusting bar 330: holding pin
340: fixed cap 350: tension measuring sensor
360: Control section 361:
362: memory unit 370: display unit
400: first bracket 410: second bracket
420: Stud bolt

Claims (6)

In the unit membrane block constituting the double membrane,
A frame part constituting a rim and having a hollow part therein;
A pair of film materials installed at upper and lower portions of the frame portion, respectively;
A tension adjusting unit fixed to a hollow portion of the frame portion and tensioning the film member in an outward direction to maintain a constant tension of the film member and detecting a change in real time tension of the film member; And
A pair of first brackets provided on mutually opposite surfaces of the inner surface of the frame portion and each having a through hole formed therein and a pair of first brackets provided on the outer surface of the tension adjusting means at positions opposing the first brackets, A stud bolt arranged to penetrate through holes of the first bracket and the second bracket, and a fastening nut for fixing the stud bolt to the first bracket and the second bracket, And a fixing means,
The tension adjusting unit
Tension control means driven by a control signal;
A fixing pin which is provided on both sides of the tension adjusting means and extends at an end of the fixing member so as to penetrate through the center of the film member and a fixing pin which is inserted through the film member and is exposed to the outside, A tension adjusting bar including a fixed cap which is in contact with an inner surface of the film member and moves integrally with the film material and is raised and lowered by driving of the tension adjusting means;
A tension measuring sensor for sensing a tension acting on the material in real time; And
And a controller for receiving a sensing signal of the tension measuring sensor and comparing and analyzing a predetermined reference tension value and a tension value of the sensing signal to selectively generate and output a control signal for controlling tension or compression of the tension adjusting means Wherein the unit block material block has a tensile force.
delete The method according to claim 1,
The tension adjusting unit includes:
And a display unit installed on one side of the frame unit for visually displaying analysis result data of the control unit.
delete delete The curtain wall system according to any one of claims 1 to 3, wherein the unit film material blocks are connected in series and parallel to form a single roof structure.

Images