KR101183155B1 - Device for adjusting membrane tension of membrane structure - Google Patents

Abstract

PURPOSE: A device for controlling the membrane tension of a membrane structure is provided to maintain the uniformly tightened state of a membrane structure by precisely controlling tension on the edge of the membrane structure. CONSTITUTION: A device for controlling the membrane tension of a membrane structure comprises one or more membrane mounting plates(10), a membrane traction plate(30), and connection plates(20). The membrane mounting plates are directly installed on the edge of a membrane structure. One end of the membrane traction plate is connected to a fixing unit of the membrane structure, and the other end is formed in a plate shape. The connection plates connect the membrane mounting plates to the other end of the membrane traction plate.

Description

Membrane tensioning device for membrane structures {DEVICE FOR ADJUSTING MEMBRANE TENSION OF MEMBRANE STRUCTURE}

The present invention relates to a membrane tension control device for a membrane structure, and more particularly, in a membrane structure composed of a roof or sunshade membrane, the tension of the membrane is precisely controlled at the portion of the membrane to be tensioned by pulling the membrane at the edge of the membrane. It relates to a membrane tension control device of the membrane structure consisting of means for.

In certain structures, such as building structures, such as roof structures of conventional markets or canopy structures installed on the outer walls of buildings, various membrane structures including membranes are manufactured.

As shown in the examples of the Sangam-dong World Cup Stadium and Jeju World Cup Stadium where a part of the roof is applied as a membrane structure, the membrane structure described above is applied to a complex and large-scale building structure beyond the conventional simple tent structure.

As shown in the example of such a membrane structure, the membrane is installed by connecting the edge of the membrane to a fixing portion made of concrete or steel pipe in the state of being stretched, and thus, when the membrane is installed, the connection portion between the fixing portion such as steel pipe pipe and the like is connected. There is a need for a membrane tensioning device for controlling the tension of the membrane while pulling the membrane taut.

However, in the conventional membrane structure, only the membrane connecting means that the degree of pulling the membrane in the direction of the fixing portion is connected to the portion where the membrane and the fixing portion are connected, the membrane tension control device that can adjust the tension of the fine range of the membrane The reality is that no means are provided.

Therefore, in the conventional membrane structure, some wrinkles often remain in the connection portion of the membrane even when the membrane is kept taut, so that the function as a roof or a awning can not be faithfully performed at the portion. However, it has been pointed out that the aesthetic benefit, the main function of the membrane structure, is extremely hindered.

The present invention overcomes the above-mentioned problems of the prior art, thereby allowing the tension of the membrane to be precisely adjusted at the connection portion between the membrane and the fixing part, thereby making the membrane structure more faithful and producing a superior membrane structure. It is an object of the present invention to provide a membrane tension control device for a membrane structure.

Membrane tension control device of the membrane structure according to the present invention for achieving the above object, the membrane for controlling the tension of the membrane is connected to one point of the edge of the membrane included in the membrane structure, such as a building structure consisting of a roof or sunshade membrane In the membrane tension control device of the structure, at least one membrane mounting plate which is mounted directly to the edge portion of the membrane via a fastening means, one end is connected to the fixing portion of the membrane structure, the other end is formed in the form of plate The other end of the plate shape is connected to the membrane traction plate formed with at least one slot hole in the form of at least one slot, and the other end of the membrane mounting plate and the membrane traction plate, the other end of the membrane traction plate In the connection portion with the direction end, the slotted hole and the bolt nut of the membrane traction plate By a through-type fastening means, such as the sum it is formed by a connection plate formed fastening holes of the structures interlock.

In this case, the membrane mounting plate has a structure that is connected to at least two connection plates per one membrane mounting plate, the two or more connection plates connected to one membrane mounting plate, It is connected to the slot holes of the other end portion, respectively, and the connection portion between the connecting plate and the membrane traction plate the other end, in the direction of the slot holes in parallel with the plate surface of the other end of the membrane traction plate Sliding plate that can be fixed to the sliding movement may be interposed.

In addition, a sliding tunnel penetrating the inside of the plate thickness is formed at the other end of the membrane traction plate, and the sliding plate may be inserted into the sliding tunnel to allow sliding movement fixing within the sliding tunnel. .

Further, the fastening means for connecting and fixing the slot hole at the other end of the membrane traction plate in the other direction, the fastening hole of the connecting plate and the fastening hole of the sliding plate may be formed by a bolt nut combination.

On the other hand, the membrane towed by the connection of the membrane mounting plate and the membrane traction plate further comprises a tension cable coupled along the edge of the membrane, and at the point where the tension cable is exposed from the membrane, the edge of the membrane And a side traction plate mounted to interconnect the tension cable with the edge of the membrane in accordance with the spaced distance of the tension cable.

Further, the side traction plate is formed in a concave shape having a bent portion at one end so that the two plate members are arranged side by side at a predetermined distance in an integrated structure, and the membrane is connected to the other end of the side traction plate. The connection portion of the upper portion may further include a side membrane mounting plate mounted directly to the membrane and connected to the other end of the side traction plate.

By the configuration as described above, the membrane tension control device of the membrane structure according to the present invention has the following effects.

That is, it is configured to precisely adjust the tension of the membrane edge portion at the connection with the fixing portion, it is possible to maintain the entire membrane of the membrane structure uniformly, thus improving the function and aesthetics of the membrane compared to the conventional Membrane structures can be provided.

1 is a plan view of the membrane tension control device of the membrane structure according to an embodiment of the present invention,
Figure 2 is a perspective view showing a membrane traction plate, etc. of the membrane tension control device of Figure 1,
3 is a view illustrating a state in which tension is adjusted along the slot hole of the membrane traction plate of FIG. 1,
Figure 4 is a schematic view of the side showing the connection state of the membrane tension control device of Figure 1,
FIG. 5 is a perspective view of side traction plates included in the membrane tension control device of FIG. 1. FIG.

Hereinafter, the configuration of the membrane tension control device of the membrane structure according to the present invention described above will be described in more detail with reference to the accompanying drawings showing a preferred embodiment of the present invention.

1 is a plan view showing the structure to which the preferred embodiment of the membrane tension control device of the membrane structure according to the present invention applied to the membrane structure as viewed from above.

FIG. 1 shows apparatuses for maintaining the tension by pulling the membrane 1 at the edges or vertices of the membrane 1 in a conventional membrane structure, the membrane 1 shown above in the drawing, Membrane mounting plate 10 directly mounted to the membrane 1, Membrane traction plate 30 for connecting to the membrane mounting plate 10 via a connecting plate 20 to maintain traction on the membrane 1. ), A fixed part 5 such as a steel pipe pipe, etc., to which the membrane traction plate 30 is fixedly connected.

On the other hand, as a means for assisting the tension control of the membrane (1) according to the invention, connecting the tension cable (7) and the membrane (1) at the point where the tension cable (7) coupled along the edge of the membrane is exposed Side membrane mounting plate 40, side traction plate 50, and the like are also shown.

In a conventional membrane structure, the edges or vertices of the membrane 1 located at the connection between the membrane 1 and the fixing part 5 are tightly fixed to the fixing part 5 made of a fixing structure such as a steel pipe pipe as shown. By being connected in a pulled out state, a membrane structure acting as a roof or a awning is formed.

In the conventional membrane structure, as a means for pulling the membrane 1 to give tension, the bolt in the state in which the membrane 1 is pulled as far down as possible in the drawing to adjust the degree of traction as shown below in FIG. Only the structure of the bolt nut combination to tighten the bolt is provided.

However, the membrane tension control device of the membrane structure according to the present invention is characterized in that it is provided with means for adjusting the tension of the membrane in various other directions in a state of pulling in one direction (downward in the drawing).

As such main means, the membrane traction plate 30 is connected to the fixing part 5 and connected to the membrane mounting plate 10 at the other end via the connecting plate 20. The other end of the membrane traction plate 30 is formed in a plate shape as shown in the figure, and has slot holes 35 having a long hole shape, thereby adjusting the tension of the membrane 1 in the left and right directions on the drawing. It provides a means to. This will be described later in more detail with reference to FIGS. 2 and 3.

Furthermore, in order to give a uniform tension throughout the membrane 1, tension cables 7 can be joined along the edge of the membrane, in the present invention, at the point where the tension cable 7 is exposed from the membrane 1. Means for assisting tension control in various directions by providing the side membrane mounting plate 40, the side traction plate 50, and the like, which are means for connecting the tension cable 7 and the membrane 1. Are also provided. This will also be described in more detail later with reference to FIG. 5.

2 is a view showing in detail the structure of the membrane traction plate 30 and the sliding plate 60 to play the main role of the membrane tension control device of the membrane structure according to the present invention in detail.

As shown in FIG. 1, at the edge portion of the membrane 1, a membrane mounting plate 10 is mounted to stably secure the traction force to the membrane 1, and the membrane mounting plate 10 is a connecting plate. It is connected to the membrane traction plate 30 via 20 to receive a traction force on the membrane 1.

At this time, the other end of the membrane traction plate 30 is connected to the connecting plate 20 in the slot hole of the long hole shape formed in a substantially horizontal direction with respect to the main traction direction as shown in FIG. 35 is formed, it is possible to adjust the tension in the direction other than the main traction direction by changing the fixed position with the connecting plate 20 to the specific position of the slot holes (35).

As a result, the wrinkling or crying of the film 1 occurring in the main traction direction and the horizontal direction can be improved.

In order to give a more useful effect on this function, the connection portion of the membrane traction plate 30 and the connecting plate 20 may further include a sliding plate 60 as shown in FIG.

That is, when a plurality of connection positions of the membrane mounting plate 10 and the membrane traction plate 30 by the connection plate 20 are set independently of each other and fixedly connected, one connection point is fixed and the other connection point is fixed. It is impossible to exclude the possibility of adding an unnecessary installation process, such as failing to distribute the uniform tension in the process of fixing and resetting the already fixed position.

Therefore, it is advantageous to provide a means for collectively adjusting and fixing a certain area of the edge of the membrane 1, as shown, at least two points per membrane mounting plate 10, as shown. After connecting one end of the), the other end of the two or more connecting plates 20, one side by sliding in the direction of the slot holes 35 in parallel with the other end plate surface of the membrane traction plate 30 By connecting to the sliding plate 60 which can be fixed by a fastening means such as bolt nut combination in the, as shown in the example shown, one membrane mounting plate 10, one sliding plate 60, two The connection plate 20 may be configured to enable a left and right movement by forming a pair. This makes it easier to adjust the tension of the film 1 between the film 1 and the fixing part 5 to which a relatively large area is associated.

Furthermore, as shown in FIG. 2, more stable movement and structural rigidity of the sliding plate 60 moving along the slot holes 35 on the other end formed in the plate shape of the membrane traction plate 30. In addition, at the other end of the membrane traction plate 30, a sliding tunnel 37 penetrating the inside of the plate thickness is formed, and the sliding plate 60 is inserted into the sliding tunnel 37. It is also preferably configured to slide inside.

The process of adjusting the tension of the membrane according to the structure configured as described above is shown in FIG. 3.

As described above, in the illustrated state, one membrane mounting plate 10, one sliding plate 60, and two connecting plates 20 may be coupled to each other to be moved and fixed on the path of the slot hole 35. The structure shown on the left side of the drawing shows an example of a movement for tensioning the right portion by applying tension in the direction of the arrow, and the structure shown on the right side of the drawing shows a structure different from the previous example. An example of the movement for tensioning the left part by applying tension in the direction of the opposite arrow is shown.

As such, the sliding plate 60 has a structure in which the sliding plate 60 can be moved side by side in the direction in which the slot holes 35 are formed on the other end of the membrane traction plate 30, thereby moving the membrane 1 in the desired direction. Proper tension adjustment is possible.

On the other hand, in the illustrated example, only the slot hole 35 formed in the connecting portion on the other end of the membrane traction plate 30 is formed in the long hole shape and the fastening hole on the remaining sliding plate 60 or the membrane mounting plate 10 The forms all illustrate the state formed in the form of a single hole, but for the advantageous effect such as to further extend the sliding path of the sliding plate 60, it is also included within the scope of the present invention to change the form of the single hole and also into the long hole form Of course it can.

In order to more clearly show the overall connection structure using the membrane mounting plate 10, the membrane traction plate 30, etc. configured as described above, the membrane 1, the membrane mounting plate 10, the connection plate 20, the sliding plate A series of connections leading to 60, membrane traction plate 30 and fixture 5 is shown through FIG. 4.

As shown, the membrane mounting plate 10 may be mounted directly abutting on both sides of the membrane 1 to ensure traction on the membrane 1.

On the other hand, the membrane traction plate 30, one end portion located on the right side in the drawing may be connected via the fixing portion 5 and the connecting means.

At the other end of the membrane traction plate 30 positioned on the left side of the drawing, a sliding plate 60 capable of sliding on the other end of the membrane traction plate 30 is inserted into the sliding tunnel 37. It is mounted in a state, the sliding plate 60 and the membrane mounting plate 20, the connecting plate 20 for interconnecting the membrane mounting plate 20 and the sliding plate 60 in the up and down direction in the drawing ) Can be connected.

Through such a connecting structure, the membrane 1 of the membrane structure is provided with means for adjusting the tension in various directions in addition to the main traction direction, thereby enabling precise tension adjustment in various directions.

On the other hand, as shown in FIG. 1 referred to above, the edge of the membrane 1 of the membrane structure further includes a tension cable 7 coupled along the edge of the membrane in order to be given a uniform tension as a whole. As shown, the tension cable 7 is exposed from the membrane 1 at the connection point of the membrane 1 and the fixture 5 as shown.

At this point, in order to adjust the tension by changing the pulling degree of the membrane 1, the degree of tension of the membrane 1 and the tension cable 7 according to the spaced apart distance of the membrane 1 can be pulled tight. It is preferable to further comprise a side traction plate 50 having a length of.

That is, the membrane tension adjusting device of the membrane structure according to the present invention has a side which functions similar to the membrane mounting plate 10 described above, which is mounted on the edge portion of the membrane 1 at the point where the tension cable 7 is exposed. And a side traction plate 50 connecting the side membrane mounting plate 40 and the tension cable 7 with the membrane 1 pulled out, which may be used. An example of a side pull plate 50 that can be shown is shown in FIG. 5.

The side traction plate 50 is formed in the shape of a horseshoe such as the shape of the side as shown in the shape of the horseshoe so that one end of the bent portion over the tension cable (7), by forming the fastening holes on the other end, Fastening holes may be configured to be fastened by the side membrane mounting plate 40 and the bolt nut combination.

This side traction plate 50 is to be provided in a variety of sizes having a variety of lengths, as shown in Figure 5, by selecting the appropriate length according to the distance between the tension cable (7) and the edge of the membrane (1) The fine length adjustment may be configured to be possible by forming the fastening hole formed on the side traction plate 50 in the form of a long hole as shown.

As described above, the present invention has been described with reference to the drawings in accordance with a preferred embodiment, but the present invention is not limited to the configuration and operation according to the embodiments shown and described. Rather, those skilled in the art will appreciate that many modifications and variations of the present invention are possible without departing from the spirit and scope of the appended claims. Accordingly, all such appropriate modifications and changes, and equivalents thereof, should be regarded as within the scope of the present invention.

1: membrane 5: fixing part
7: tension cable 10: membrane mounting plate
20: connecting plate 30: membrane traction plate
35: slot ball 37: sliding tunnel
40: side membrane mounting plate 50: side towing plate
60: sliding plate

Claims (6)

delete In the membrane tension control device of the membrane structure for controlling the tension of the membrane connected to a point of the edge of the membrane included in the membrane structure, such as a building structure consisting of a roof or sunshade membrane,
At least one membrane mounting plate (10) mounted directly to the edge of the membrane via fastening means;
One end is connected to the fixing portion of the membrane structure, the other end portion is formed in the form of a plate, the other end portion of the plate shape is formed in the membrane pull plate 30 formed with at least one slot hole 35 of the long hole shape )Wow;
A slot of the membrane traction plate 30 is connected to the other end of the membrane mounting plate 10 and the other end of the membrane traction plate 30, and is connected to the other end of the membrane traction plate 30. And a connection plate 20 having a fastening hole having a structure that can be fastened to each other by a through-type fastening means such as a ball 35 and a bolt nut combination.
The membrane mounting plate 10 has a structure in which at least two connection plates 20 are connected to one membrane mounting plate 10.
The two or more connecting plates 20 connected to one membrane mounting plate 10 are connected to the slot holes 35 at the other end of the membrane pulling plate 30, respectively, 20 and the connection portion between the membrane traction plate 30 and the other end of the membrane traction plate 30 may be slidably fixed in the direction of the slot holes 35 in parallel with the plate surface of the other end of the membrane traction plate 30. Sliding plate 60 is characterized in that interposed, membrane tension control device of the membrane structure.
The method of claim 2,
At the other end of the membrane traction plate 30, a sliding tunnel 37 penetrating the inside of the plate thickness is formed, and the sliding plate 60 is inserted into the sliding tunnel 37 to be inserted into the sliding tunnel 37. A membrane tension control device for a membrane structure, which is characterized in that the structure is slidably movable within the 37.
The method of claim 3, wherein
The fastening means for connecting and fixing the slot hole 35 at the other end of the membrane traction plate 30 and the coupling hole of the connecting plate 20 and the coupling hole of the sliding plate 60 is bolt nut. Membrane tension control device of the membrane structure, characterized in that consisting of.
The method according to claim 2 or 4,
The membrane towed by the connection of the membrane mounting plate 10 and the slot hole 35 further comprises a tension cable 7 coupled along the edge of the membrane,
At the point where the tension cable 7 is exposed from the membrane, side traction is provided for interconnecting the edge of the membrane and the tension cable 7 according to the distance between the edge of the membrane and the tension cable 7. Membrane tension control device of the membrane structure, characterized in that further comprises a plate (50).
The side traction plate (50) according to claim 5, wherein the side traction plate (50) is formed in a shape of a bent portion formed at one end thereof so that the two plate members are arranged side by side at a predetermined distance in an integrated structure. Membrane structure, characterized in that the connection portion on the membrane connected to the other end further comprises a side membrane mounting plate 40 mounted directly on the membrane and connected to the other end of the side towing plate 50. Membrane tension control device.

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