KR102286320B1 - Membrane Structure Equipped with Tension Control Device - Google Patents

Abstract

The present invention relates to a membrane structure having a tension control device, which can easily apply additional tension to an intermediate part of an existing membrane as needed, even with a small amount of manpower. To solve the problem, the membrane structure having a tension control device comprises: a plurality of columns spaced apart from each other by a predetermined distance; support frames of a predetermined length installed on the plurality of columns; a plurality of tension control devices installed on the support frames at predetermined intervals; and a membrane of a predetermined width installed to cover the upper surfaces of the support frames. The plurality of tension control devices each include: a body fixed to the support frame; a fixed pipe installed on one or both sides of the body; an elevating body of a predetermined length installed inside the fixed pipe to be elevated; a height adjusting member installed on the bottom surface of the fixed pipe to elevate the elevating body; and an elevating girder having one end fixed to the upper surface of the elevating body, and the other end fixed to the upper surface of another elevating body installed adjacent to the elevating body.

Description

Membrane Structure Equipped with Tension Control Device

The present invention relates to a membrane structure provided with a tension control device, and more particularly, in a membrane structure installed by adjusting the tension to have a predetermined tension, the tension of the loosened membrane (hereinafter referred to as 'membrane') is required. It relates to a membrane structure equipped with a tension adjusting device that can be easily readjusted according to the present invention.

In general, a membrane structure is configured to include a plurality of pillars installed to be spaced apart from each other by a predetermined distance, and a membrane having a predetermined size so as to cover an upper surface by connecting the plurality of pillars.

The membrane structure as described above gives a strong initial tension so that the membrane does not flow even under an external force caused by wind, etc. This initial tension naturally loosens as a predetermined period elapses after the membrane is installed, so that the membrane is severely flowed by wind. As a result, damage such as tearing of the membrane occurs.

Therefore, when the tension of the membrane is weakened, an additional tension is applied to the membrane by pulling the tip of the membrane with a rope or steel wire.

However, as described above, a lot of manpower is required to apply additional tension to the membrane by pulling the tip of the membrane, and even if the tension is applied by pulling the tip of the membrane, sufficient tension is not applied to the middle part of the membrane by a structure, etc. there is a problem.

Therefore, in order to solve the above problems, various technologies have been developed to install a tension maintaining device in the membrane structure so that an appropriate tension can be applied to the membrane as needed. A device for maintaining membrane structure tension of 2020-0059132 (hereinafter referred to as 'patent literature') is disclosed.

The membrane structure tension maintaining device disclosed in the patent document includes a frame for forming a flexible membrane, a membrane pressing member installed between the frame and the flexible membrane, and a membrane pressing member installed on the frame to protrude the membrane pressing member. and a tension maintaining means for maintaining tension in the flexible membrane.

However, in the membrane structure tension maintaining device disclosed in the above patent document, the bottom surface of the membrane is elastically supported through an elastic member such as a spring, but the elastic force of the spring is offset by a strong external force such as a strong wind, so that the membrane can flow, As a result, there is a structural problem in that the original purpose of applying additional tension to the membrane to prevent the membrane from being damaged due to excessive flow by strong wind or the like cannot be achieved.

Therefore, it is required to develop a membrane structure equipped with a tension adjusting device that can easily apply additional tension to the middle part of the existing membrane even with a small amount of manpower.

KR 10-2020-0059132 A (2020. 05. 28.) KR 10-1872021 B1 (2018. 06. 21.) KR 10-0908692 B1 (2009. 07. 14.) KR 10-0852748 B1 (2008. 08. 11.) KR 20-0297953 Y1 (2002. 11. 29.)

The present invention has been devised to solve the problems of the conventional tension control device of the membrane structure as described above. It is to provide a membrane structure equipped with a tension control device to which can be easily applied.

A membrane structure provided with a tension control device according to the present invention for solving the above problems, a plurality of pillars installed spaced apart from each other; a support frame of a predetermined length installed on the plurality of pillars; a plurality of tension adjusting devices installed at a predetermined interval on the support frame; and a membrane having a predetermined width installed to cover the upper surface of the support frame, wherein the plurality of tension control devices include: a main body fixed to the support frame; a fixed pipe installed on one side or both sides of the main body; an elevating body of a predetermined length installed inside the fixed pipe and elevating; a height adjusting member for elevating the elevating body while being installed on the lower surface of the fixed pipe; and an elevating girder having one end fixed to the upper surface of the elevating body and having the other end fixed to the upper surface of the other elevating body installed adjacent to the elevating girder.

And the present invention is characterized in that the elevating girder is formed in an arch shape of a predetermined diameter.

In addition, in the present invention, the main body is made of a plate having a predetermined size, a through hole having a predetermined diameter is formed in the middle portion, and the support frame is installed through the through hole, and then welded to each other or coupled through a fastening member. is another feature.

In addition, the present invention is a fixed housing in which the height adjustment member is installed on the lower surface of the fixed pipe, an installation space of a predetermined size is formed therein; a rotating member of a predetermined size rotatably installed inside the fixed housing; and a long bolt of a predetermined length installed so as to penetrate vertically through the fixed housing and the rotating member, the upper end being fixed to the lower surface of the elevating body, and the lower end protruding downward to the lower surface of the fixed housing, the rotating member and The long bolts are screwed to each other to rotate the rotating member so that the long bolts are lifted and the elevating body is configured so that the elevating body is lifted.

The present invention is further characterized in that thrust bearings having a predetermined diameter are installed on the upper and lower surfaces of the rotating member.

According to the present invention, when the initial tension of the membrane weakens after the construction of the membrane structure and additional tension needs to be applied, the operator pulls the tip of the membrane to apply the additional tension, instead of applying the additional tension, the tension adjusting device installed in the support frame is used. Since the middle part of the membrane is raised as a whole to apply additional tension to the membrane, there is an advantage that additional tension can be easily applied to the membrane with a small amount of manpower.

1 is a view showing an example of a membrane structure provided with a tension control device according to the present invention.
Figure 2 is a perspective view showing an example of the tension control device according to the present invention.
Figure 3 is a cross-sectional view showing an example of the tension control device according to the present invention.
4 is a view showing an example in which the tension adjusting device according to the present invention is used.
5 is a view showing an example in which the tension of the membrane is adjusted through the membrane structure provided with the tension adjusting device according to the present invention.

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

An object of the present invention is to provide a membrane structure equipped with a tension adjusting device that can easily apply additional tension to the middle part of an existing membrane as needed even with a small manpower. The present invention is as shown in FIG. It also includes a column (1), a support frame (2), a tensioning device (3) and a membrane (4).

Here, the pillar 1 has a configuration in which the lower end is coupled to the base formed on the ground through a fastening member such as a bolt, and the support frame 2 is installed in an arcuate shape or inclined at a predetermined angle on the upper portion of the pillar 1 to form the membrane 4 ), the tension adjusting device 3 is installed on the support frame 2 to apply additional tension to the membrane 4, and the membrane 4 is on top to cover the support frame 2 It is installed to form a sun and non-shielding film, and among the membrane structures of the present invention, the pillar (1), the support frame (2) and the membrane (4) can be variously changed and implemented according to the construction conditions. A detailed description of the configuration will be omitted.

On the other hand, the tension adjusting device 3 of the present invention includes a main body 10, a fixed pipe 20, a lifting body 30, a height adjusting member 40 and a lifting girder 50 as shown in FIG. And, the configuration of the tension adjusting device 3 will be described below.

The main body 10 is configured to be fixedly installed on the support frame 2 and a fixing pipe 20 to be described later is installed on one side or both sides.

The body 10 is made of a plate having a predetermined thickness as shown in FIGS. 2 and 3 , and a through hole 11 having a predetermined diameter is formed in the middle portion of the main body 10, and the through hole ( 11) is inserted through the support frame (2), and then is firmly coupled and fixed through welding or fastening members such as bolts and nuts.

At this time, a flange 12 of a predetermined size for installing a fixing pipe 20 to be described later is formed at one or both ends of the body 10, and through this, the body 10 as a whole has a “T” or “H” shape. will achieve

In addition, a through hole (not shown) having a predetermined diameter is formed in the flange 12 and then coupled or welded through the fixing pipe 20 and a fastening member so that the body 10 and the fixing pipe 20 are integrated. can be manufactured.

The fixed pipe 20 is made of a tubular body of a predetermined length that is installed at one end or both ends of the main body 10 so as to have a vertical length. This is opened and the elevating body 30, which will be described later, is installed therein.

In the above, the fixed pipe 20 has been illustrated and described only as being formed in a cylindrical shape having a predetermined diameter.

The elevating body 30 is inserted into the fixed pipe 20 and elevated up and down through a height adjusting member 40 to be described later, through which the elevating girder 50 coupled to the upper end of the elevating body 30 is installed. It is a configuration that adjusts the height.

The elevating body 30 is made of a circular tube having a hollow formed therein, and an elevating girder 50 to be described later is fixed to the upper surface of the elevating body 30 by being coupled or welded through a fastening member, and the elevating body ( 30), one end (bolt head) of the long bolt 43 of the height adjustment member 40 to be described later is integrally fixed to the bottom surface of the body by welding or the like.

The height adjustment member 40 is installed on the bottom surface of the fixed pipe 20 and is configured to elevate the elevating body 30 installed inside the fixed pipe 20 to a predetermined height as necessary.

As shown in FIG. 3 , the height adjustment member 40 is integrally fixed to the bottom surface of the fixing pipe 20 and has a fixed housing of a predetermined size having a “ㅁ” cross-sectional shape so that an installation space of a predetermined size is formed therein. (41) and a rotating member 42 of a predetermined size installed to have a predetermined length vertically in the interior of the fixed housing 41, and to vertically penetrate the fixed housing 41 and the rotating member 42 It includes a long bolt 43 of a predetermined length to be installed.

And the rotating member 42 is configured to be screwed with the long bolt 43 so that the long bolt 43 is raised and lowered by the rotational operation of the rotary member 42, and the long bolt 43 has an upper end of the elevating body 30 . is integrally fixed to the bottom surface of the , and the lower end penetrates the bottom surface of the fixing housing 41 and is installed to protrude downward by a predetermined length.

In addition, the rotating member 42 is configured so that the outer surface is formed in a hexagonal or quadrangular shape, through which the operator can easily rotate the rotating member 42 using a separate tool.

At this time, the load of the membrane 4 and the elevating girder 50 is transmitted to the long bolt 43 through the elevating body 30, so that the rotating member 42 may not be rotated relatively easily, and thus the rotating member 42 Thrust bearings 42A and 42B are respectively installed on the upper and lower surfaces of the garment so that the load of the membrane 4 and the lifting girder 50 is supported through the thrust bearings 42A and 42B, and through this, the rotating member 42 is moved. It can be easily rotated as needed.

At this time, the rotating member 42 is arbitrarily rotated by the vibration of the membrane 4 and the lifting girder 50, and the lifting girder 50 is lowered, thereby preventing the tension of the membrane 4 from being arbitrarily released. ) A stopper (not shown) to prevent rotation may be further installed.

This stopper may be configured in the form of a bar of a predetermined length in which one end is rotatably coupled to the fixed housing 41 by a hinge and the other end is in close contact with the outer surface of the rotating member 42, through which the rotating member 42 ) when rotating the free end of the stopper to release the fixing of the rotating member 42, and after the height of the lifting girder 50 is sufficiently adjusted, the free end of the stopper is on the outer surface of the rotating member 42. It may be configured to be in close contact with the rotating member 42 and the stopper to maintain surface contact with each other.

In addition, the stoppers may be respectively installed on the front and rear surfaces of the fixed housing 41 , through which the rotating member 42 may be configured not to rotate more arbitrarily through the stoppers on both sides.

On the other hand, a fixing nut 43A is installed at the lower end of the long bolt 43, and the height of the elevating body 30 is appropriately adjusted by rotating the rotating member 42 through this, the bottom surface of the fixing housing 41 By fastening the fixing nut 43A in close contact with the long bolt 43, the long bolt 43 does not easily flow in the vertical direction and is firmly fixed in position.

When the rotating member 42 is rotated as shown in FIGS. 4 and 5 through the configuration of the height adjusting member 40 as described above and the long bolt 43 rises to a predetermined height together with the elevating body 30 , , the elevating girder 50 having one end fixed to the upper surface of the elevating body 30 rises together to a predetermined height, and through this, the membrane 4 installed to cover the upper surface of the elevating girder 50 is pressed upward while the steel wire However, the inner portion is raised to a predetermined height based on the tip of the membrane 4 fixed in position through the fastening member, so that additional tension is applied so that the memframe 4 has a predetermined tension as a whole.

The lifting girder 50 is composed of an arcuate frame or pipe having a predetermined length and diameter connecting the upper end of the lifting body 30 of the tension adjusting device 3 installed on the adjacent support frame 2 .

The elevating girder 50 is raised to a predetermined height through the elevating body 30 , and through this, the bottom surface of the membrane 4 is raised to a predetermined height, so that additional tension is applied to the membrane 4 .

On the other hand, from the above, the fixed housing 41 has been illustrated and described only as having a “ㅁ” cross-sectional shape, but unlike that, as shown in FIG. , in this case, an elastic spring (S) of a predetermined length is installed between the thrust bearing (42A) positioned on the upper side of the rotating member (42) and the bottom surface of the elevating body (30), and at the same time, the long bolt (43) is attached to the elevating body (30). The elevating body 30 is not fixed to the 30 but is installed to penetrate the floor, and the length of the long bolt 43 is adjusted in a state in which the bottom surface of the elevating body 30 is elastically supported by the elastic spring (S). ) can be changed to be adjustable in height.

In addition, two or more fixing nuts 43A screwed to the lower end of the long bolt 43 may be assembled to prevent loosening.

As described above, in the present invention, when the initial tension of the membrane becomes weak after the construction of the membrane structure and additional tension needs to be applied, the operator pulls the tip of the membrane to apply the additional tension, instead of adjusting the tension installed in the support frame By raising the middle part of the membrane as a whole through the device, additional tension is applied to the membrane, so that additional tension can be easily applied to the membrane with little manpower.

In the above description, for convenience of explanation, reference numerals and names are given to the drawings showing preferred embodiments and the components shown in the drawings, but this is an embodiment according to the present invention. It should not be construed as being limited, and simple substitution into a configuration having the same function as a change in various predictable shapes from the description of the invention is within the range that can be changed for easy implementation by those skilled in the art. It will be seen as extremely self-explanatory.

1: Post 2: Support frame
3: Tensioner 4: Membrane
10: body 11: through hole
12: flange 20: fixed pipe
30: elevating body 40: height adjustment member
41: fixed housing 42: rotating member
42A, 42B: Thrust bearing 43: Long bolt
43A: fixing nut 50: lifting girder
S: elastic spring

Claims (5)

A plurality of pillars (1) installed spaced apart from each other;
a support frame (2) of a predetermined length installed on the plurality of pillars (1);
A plurality of tension control devices (3) installed at a predetermined interval on the support frame (2); and
a membrane (4) of a predetermined width installed to cover the upper surface of the support frame (2);
including,
The plurality of tension control devices (3),
a body 10 fixed to the support frame 2;
a fixed pipe 20 installed on one side or both sides of the main body 10;
an elevating body 30 of a predetermined length installed inside the fixed pipe 20 and elevating;
a height adjusting member 40 for elevating the elevating body 30 while being installed on the lower surface of the fixed pipe 20; and
a lifting girder 50 having one end fixed to the upper surface of the elevating body 30 and having the other end fixed to the upper surface of the other elevating body 30 adjacently installed;
including,
The height adjustment member 40,
a fixed housing 41 installed on the lower surface of the fixed pipe 20 and having an installation space of a predetermined size therein;
a rotating member 42 of a predetermined size rotatably installed in the fixed housing 41; and
The fixed housing 41 and the rotating member 42 are installed to penetrate vertically so that the upper end passes through the lower surface of the elevating body 30, and the lower end protrudes downward to the lower surface of the fixed housing 41 Long bolt 43 of a predetermined length;
Including, the rotating member 42 and the long bolt 43 are screwed together, and the long bolt 43 is raised and lowered by the rotating member 42 being rotated so that the elevating body 30 is raised and lowered. is composed,
On the upper and lower surfaces of the rotating member 42,
Thrust bearings (42A, 42B) of a predetermined diameter are installed,
The fixed housing 41,
It is formed in a "U" shape with an open top and side,
An elastic spring (S) of a predetermined length is installed between the thrust bearing (42A) positioned above the rotating member (42) and the bottom surface of the elevating body (30),
The rotating member 42,
The outer surface is formed in a hexagonal or quadrangular shape, and is configured to rotate through a tool,
In the fixed housing 41,
One end is rotatably coupled by a hinge and the other end is provided with a stopper in the form of a bar of a predetermined length in close contact with the outer surface of the rotating member (42),
When rotating the rotating member 42 through the stopper, the free end of the stopper is rotated to release the fixing of the rotating member 42, and after the height of the lifting girder 50 is adjusted, the stopper A membrane structure with a tension control device, characterized in that the free end is in close contact with the outer surface of the rotating member (42) so that the rotating member (42) and the stopper are maintained in contact with each other.
The method according to claim 1,
The lifting girder 50,
A membrane structure provided with a tension control device, characterized in that it is formed in an arc shape of a predetermined diameter.
The method according to claim 1,
The main body 10,
It is made of a plate having a predetermined size and a through hole 11 having a predetermined diameter is formed in the middle part, and the support frame 2 is installed through the through hole 11, and then welded to each other or through a fastening member. Membrane structure provided with a tension control device, characterized in that coupled.
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