KR102623363B1 - Curtain structure tent and its construction method with left and right tension function - Google Patents

Abstract

Among the membrane structure tents with left and right tension adjustment functions and their construction methods according to the present invention, the membrane structure tents with left and right tension adjustment functions are positioned on the ground at set intervals by a length corresponding to a partial length divided from the entire length of the tent. It is fixed to the main truss, which consists of spaced apart pillars and roof trusses connecting the pillars to each other, a plurality of purlins connected in the longitudinal direction between the roof trusses, and between one main truss and the other main truss. A tent made of an exterior film to be finished, each fixed to one end of the outer surface of the top chord of the pillar portion and the roof truss, and a fixed tension profile provided with a first coupling hole to selectively fix one end of the exterior film to the outer surface; a movable tension profile positioned at each other end of the outer surface of the top chord of the pillar portion and the roof truss opposite the fixed tension profile, and having a second coupling hole on the outer surface to selectively fix the other end of the exterior film; And a tension that is spirally fastened at both ends to the fixed tension profile and the movable tension profile adjacent thereto, and moves the movable tension profile of the other main truss to which the other end of the exterior membrane is fixed according to the rotation direction to adjust the tension force of the exterior membrane. Includes a force control unit.
According to the present invention, with the main truss spaced apart from the installation surface by a set interval, an exterior membrane having an area corresponding to the spacing of the main truss is prepared, and then an exterior membrane is placed on one end of the outer surface of the column portion of the main truss and the upper chord of the roof truss. The fixed tension profile with one end fixed is fixed, and the movable tension profile with the other end of the exterior membrane fixed to the other end of the outer surface of the top chord of the column and roof truss is positioned respectively, and the movable tension profile is fixed by the tension force adjuster. By adjusting the tension of the exterior membrane by moving it from the tension profile, it is possible to adjust the tension of the exterior membrane uniformly, and the small size of the exterior membrane allows maintenance in part to fit the number of spaces between the main trusses, and reduces the number of workers as before. When installing a wide exterior membrane, several workers are required, and after installing safety equipment on the main truss, moving and unfolding it using the main truss as support is unnecessary, so safety can be ensured during work, and existing tensioning using a wire vise tensioner is unnecessary. Unlike this method, the tension can be adjusted through a simple spiral fastening method, and it has the effect of preventing gaps by fixing the space between the fixed and moving tension profiles with a cover.

Description

Membrane structure tent with left and right tension adjustment function and its construction method {CURTAIN STRUCTURE TENT AND ITS CONSTRUCTION METHOD WITH LEFT AND RIGHT TENSION FUNCTION}

The present invention relates to a membrane structure tent with a left and right tension adjustment function and a method of constructing the same. More specifically, to a membrane structure with a left and right tension adjustment function that applies tension in the longitudinal direction to each exterior curtain of a tent having a membrane structure. It relates to tents and their construction methods.

In general, a prefabricated tent is a large accommodation facility that can be quickly and conveniently installed outdoors using a simple structure. It is usually closed by fixing both ends of an inclined or arch-shaped bar to the ground and covering it with vinyl or cloth. creates an internal space.

Additionally, other types of prefabricated membranes are manufactured by welding single pipe columns to both ends of the roof truss.

Meanwhile, in order to manufacture a large-scale prefabricated tent, structurally, H beams are mainly used or lightweight frames made by forming steel plates together with H beams are mainly used.

This technology related to prefabricated tents has been proposed in Korean Patent No. 2099771, which was previously registered by the present applicant.

However, in Patent Document 1, since the exterior membrane is covered and fixed in a size corresponding to the area of the tent, the exterior membrane is wrinkled or damaged during the construction process, and after joining the transverse fabric support member with a pipe structure to the end of the exterior membrane, the fabric of a large size is used. Since the tension was adjusted by pulling the support member, there was a difficult problem in uniformly adjusting the degree of tension adjustment for each position of the exterior membrane.

Korean Patent No. 2099771 (2020.04.06.)

The present invention was developed in consideration of the above points, and the problem to be solved by the present invention is to maintain uniform tension of the exterior membrane while preventing damage to the exterior membrane by fixing one end of the exterior membrane provided according to the spacing of the main truss and pulling the other end. The purpose is to provide a membrane structure tent with an adjustable left and right tension adjustment function and a construction method thereof.

A tent equipped with left and right tension profiles according to the present invention to achieve the above object is fixed to the ground at set intervals for a length corresponding to a portion of the length divided from the entire length of the tent, and the pillar portions and the pillar portions are spaced apart. A tent consisting of a main truss consisting of roof trusses connecting the roof trusses to each other, a plurality of purlins connected in the longitudinal direction between the roof trusses, and an exterior membrane to close the space between one main truss and the other main truss, respectively, the pillar portion and a fixed tension profile each fixed to each end of the outer surface of the upper chord of the roof truss and provided with a first coupling hole on the outer surface to selectively fix one end of the exterior film. a movable tension profile positioned at each other outer surface of the upper chord of the pillar portion and the roof truss opposite the fixed tension profile, and having a second coupling hole on the outer surface to selectively fix the other end of the exterior film; And a tension that is spirally fastened at both ends to the fixed tension profile and the movable tension profile adjacent thereto, and moves the movable tension profile of the other main truss to which the other end of the exterior membrane is fixed according to the rotation direction to adjust the tension force of the exterior membrane. It may be characterized as including a force control unit.

The fixed and movable tension profile may be formed so that the bottom surface is flat or has a curvature corresponding to the outer surface of the upper chord.

The fixed and movable tension profile may be characterized in that a binding groove is formed on opposing inner surfaces, and a cover is coupled to the binding groove to seal the spaced upper surfaces.

In addition, the method of constructing a membrane structure tent with a left and right tension adjustment function according to the present invention includes a main structure consisting of pillars at set intervals for a length corresponding to a portion of the total length of the tent and a roof truss connecting the pillars to each other. The first step of assembling the truss; A second step of fixing a fixed tension profile to one end of the outer surface of the top chord of the column portion and the roof truss, respectively; A third step of positioning a movable tension profile at each other outer surface of the upper chord of the pillar portion and the roof truss opposite to the fixed tension profile; and adjusting the tension force from the fixed tension profile, in which one end of the exterior film is selectively fixed, to the movable tension profile, in which the other end of the exterior film is selectively fixed, in a state in which the exterior film is positioned between the fixed tension profile and the moving tension profile. It may be characterized as including; a fourth step of adjusting the tension force of the exterior membrane by moving the unit through rotation.

After performing the fourth step, a step of finishing with a cover on the spaced upper portions of the fixed and movable tension profiles may be performed.
In addition, the present invention is a main truss, which is fixed to the ground at set intervals for a length corresponding to a portion of the length divided from the entire length of the tent, and consists of spaced apart pillars and a roof truss connecting the pillars to each other, the roof. A tent consisting of a plurality of purlins connected in the longitudinal direction between the trusses and an exterior membrane to close the space between one main truss and the other main truss, respectively, and a guide fixed along the outer surface of the upper chord of the column and roof truss. a fixed tension profile each fixed to each side of the pipe and provided with a first coupling hole on the outer surface to selectively fix one end of the exterior film; a movable tension profile positioned on each other side of the guide pipe in a state opposite to the fixed tension profile and having a second coupling hole on the outer surface to selectively fix the other end of the exterior film; And both ends are spirally fastened to the fixed tension profile and the movable tension profile adjacent thereto, so that the movable tension profile of the other main truss, on which the other end of the exterior film is fixed, is moved in close contact with the other side of the guide pipe according to the direction of rotation. It includes a tension force control unit that adjusts the tension force of the exterior film, wherein the fixed and movable tension profiles have first and second stopper surfaces, respectively, whose bottom surfaces have a curvature corresponding to the outer surface of the upper current, and wherein the movable When the tension profile moves, it contacts the opposing surface of the guide pipe to adjust the minimum gap with the fixed tension profile, and at the maximum extension of the exterior film, which is the point when it comes into close contact with the outer surface of the guide pipe, the outer surface of the guide pipe It may be characterized in that the inner surface of the moving tension profile and the second stopper surface simultaneously contact the outer surface of the upper current.
In addition, the present invention includes a first step of assembling a main truss composed of pillars and roof trusses connecting the pillars to each other at set intervals for a length corresponding to a portion of the total length of the tent; A second step of fixing a fixed tension profile on each side of the guide pipe fixed along the outer surface of the top chord of the column portion and the roof truss; A third step of positioning a moving tension profile on each other side of the guide pipe in a state opposite to the fixed tension profile; and adjusting the tension force from the fixed tension profile, in which one end of the exterior film is selectively fixed, to the movable tension profile, in which the other end of the exterior film is selectively fixed, in a state in which the exterior film is positioned between the fixed tension profile and the moving tension profile. A fourth step of adjusting the tension force of the exterior film by rotating the guide pipe so that it is in close contact with the other side of the guide pipe, wherein the fixed and moving tension profile has a bottom surface that has a curvature corresponding to the outer surface of the upper current. First and second stopper surfaces are formed, respectively, and when the moving tension profile moves during the fourth step, it contacts the opposing surface of the guide pipe to adjust the minimum gap with the fixed tension profile, and the guide It may be characterized in that the inner surface of the moving tension profile and the stopper surface simultaneously contact the outer surface of the guide pipe and the outer surface of the upper chord at the time of maximum extension of the exterior film, which is the point of close contact with the outer surface of the pipe.

According to the present invention, with the main truss spaced apart from the installation surface by a set interval, an exterior membrane having an area corresponding to the spacing of the main truss is prepared, and then an exterior membrane is placed on one end of the outer surface of the column portion of the main truss and the upper chord of the roof truss. The fixed tension profile with one end fixed is fixed, and the movable tension profile with the other end of the exterior membrane fixed to the other end of the outer surface of the top chord of the column and roof truss is positioned respectively, and the movable tension profile is fixed by the tension force adjuster. By adjusting the tension of the exterior membrane by moving it from the tension profile, it is possible to adjust the tension of the exterior membrane uniformly, and the small size of the exterior membrane allows maintenance in part to fit the number of spaces between the main trusses, and reduces the number of workers as before. When installing a wide exterior membrane, several workers are required, and after installing safety equipment on the main truss, moving and unfolding it using the main truss as support is unnecessary, so safety can be ensured during work, and existing tensioning using a wire vise tensioner is unnecessary. Unlike this method, the tension can be adjusted through a simple spiral fastening method, and it has the effect of preventing gaps by fixing the space between the fixed and moving tension profiles with a cover.

Figure 1 is a perspective view schematically showing a membrane structure tent equipped with left and right tension adjustment function of the present invention.
Figure 2 is a front view showing the main truss in the membrane structure tent equipped with the left and right tension adjustment function of the present invention.
Figure 3 is an enlarged view of A of Figure 1.
Figure 4 is a cross-sectional view showing the tension adjustment module in the membrane structure tent equipped with the left and right tension adjustment function of the present invention.
Figures 5 and 6 are cross-sectional views showing the state before and after tension is applied to the exterior membrane by the tension control module in the membrane structure tent equipped with the left and right tension adjustment function of the present invention.
Figure 7 is a cross-sectional view showing a state before and after the cover of another embodiment is coupled to the fixed and moving tension profile in the membrane structure tent equipped with the left and right tension adjustment function of the present invention.
Figure 8 is a block diagram showing the construction method of a membrane structure tent with left and right tension adjustment function of the present invention.

The above objects, features and other advantages of the present invention will become more apparent by describing the preferred embodiments of the present invention in detail with reference to the accompanying drawings. Hereinafter, with reference to the attached drawings, a membrane structure tent with left and right tension adjustment function according to an embodiment of the present invention and its construction method will be described in detail.

Referring to Figures 1 to 7, the membrane structure tent (1) with left and right tension adjustment function according to the present invention has a length corresponding to the width of the exterior membrane (30), which is a partial length of the total length of the tent (1). A main truss (10) fixed to the ground at set intervals, a plurality of purlins (20) connected in the longitudinal direction between the main trusses (10), and an exterior film that finishes the main truss (10) Includes (30).

As shown in FIGS. 1 and 2, the main truss 10 has opposing pillar parts 100, and a gap between the roof truss 200 and the main truss 10 connecting opposing surfaces of the pillar parts 100, and It includes a tension control module 300 that adjusts the tension of the exterior film 30 provided to have a corresponding width, and is arranged in a plurality of columns at set intervals on the ground.

Here, each pillar portion 100 includes a first upper chord 110 and a first lower chord 120, and is interconnected to the opposite surface of the first upper chord 110 and the first lower chord 120. To this end, a plurality of connection frames 130 are installed, and the lower part where the gap between the first upper and lower chords 110 and 120 gradually widens from the lower end fixed to the ground to the upper part, and the first upper and lower chords at the end of the lower end. The first upper and lower chords 110 and 120 include a straight portion extending equally at intervals between 110 and 120, and a curved portion where the first upper and lower chords 110 and 120 are curved at the ends of the straight portion.

Moreover, flanges are provided at the upper ends of the first upper chord 110 and the first lower chord 120, respectively, and flanges are provided at both ends of the second upper chord 210 and the second lower chord 220, respectively. 1 Flanges are attached to the upper ends of the upper chord 110 and the first lower chord 120, and flanges are connected to both ends of the second upper chord 210 and the second lower chord 220 by bolts.

At this time, the flanges provided on the first upper chord 110 and the second upper chord 210 have no steps at the apex of the outer peripheral surface where the fixed and movable tension profiles 310 and 320 of the tension adjustment module 300 are installed. do.

Accordingly, the flanges provided on the first upper chord 110 and the second upper chord 210 are connected to a portion of the outer peripheral surface without a step, and the fixed and movable tension profiles 310 and 320 can be fixed to the portion without a step.

The roof truss 200 includes a second upper chord 210 and a second lower chord 220 respectively connected to the ends of the first upper chord 110 and the first lower chord 120 provided at the upper end of the pillar 100. ) includes. At this time, the second upper chord 210 and the second lower chord 220 may be formed in a convex arc shape in a parallel state.

Furthermore, the roof truss 200 has a plurality of connection frames 230 installed on opposing surfaces of the second upper chord 210 and the second lower chord 220 for mutual connection.

The tension adjustment module 300 is provided on each main truss 10 spaced apart as shown in FIGS. 3 to 6, and is connected to the main truss 10 on one side (left side in FIG. 5) and the main truss 10 on the other side. Tension is adjusted by extending the other end of the exterior membrane 30 while supporting both ends of the exterior membrane 30 provided to correspond to the spacing of the truss 10 (right side in FIG. 5), and the fixed tension profile 310 , includes a movable tension profile 320, a tension force adjustment unit 330, and a cover 340.

At this time, the movable tension profile 320 among the tension adjustment modules 300 located on one side of the main truss 10 and the fixed tension profile 310 among the tension adjustment modules 300 located on the other side of the main truss 10. While both ends of the membrane 30 are supported, the movable tension profile 320 of the tension adjustment module 300 located on one side of the main truss 10 is moved to support one end of the exterior membrane 30 and extend the other end.

The fixed tension profile 310 is a part of the guide pipe 319 that is fixed by welding, etc. along the vertices of the outer surfaces of the first and second upper chords 110 and 210 provided on the pillar portion 100 and the roof truss 200. It is fixed along the side. At this time, the guide pipe 319 adjusts the minimum gap with the fixed tension profile 310 when the movable tension profile 320 moves, and at the maximum extension of the exterior membrane 30, which is the point when it comes into close contact with the outer surface, the outer surface The inner surface and the stopper surface 326 of the moving tension profile 320 simultaneously contact the outer surfaces of the first and second upper chords 110 and 210, thereby enabling solid support.

Here, the fixed tension profile 310 is formed to have a length corresponding to the entire length of the outer surface of the first and second upper chords 110 and 210.

For this purpose, the fixed tension profile 310 is provided with a first coupling hole 312 in the longitudinal direction to selectively fix one end of the exterior film 30 on the outer surface, and tension force adjusters 330 are spirally fastened on both sides. A first helical hole 314 is formed through the space at set intervals as much as possible, and a first stopper surface 316 is formed at the bottom to have a curvature corresponding to the outer surface of the first and second upper chords 110 and 210, and the inner surface A first binding groove 318 is formed so that the binding protrusion 342 of the cover 340 is caught.

The first coupling hole 312 has a narrow entrance area communicating with the outer surface of the fixed tension profile 310, so that one end of the sheath film 30 wound along the surface of the rope is not separated.

Although the first spiral hole 314 is illustrated as being fastened to the spiral of the tension force adjusting unit 330, it can be provided as a hole structure without a spiral. At this time, the tension force adjusting unit 330 can be provided to rotate on the outer surface of the fixed tension profile 310 by supporting the groove formed at the boundary point between the head and the spiral axis.

Considering that the first and second upper chords (110, 210) are provided in a pipe structure, the first stopper surface (316) is formed to have an arcuate surface and is in close contact with the outer surface of the first and second upper chords (110, 210). do.

Moreover, the lower part of the fixed tension profile 310 can be provided in a planar shape.

The movable tension profile 320 is provided in a symmetrical structure with the fixed tension profile 310 and moves along the vertices of the outer surfaces of the first and second upper chords 110 and 210 provided on the column portion 100 and the roof truss 200. It is located along the other side of the guide pipe 319, which is fixed by welding or the like.

At this time, the movable tension profile 320 adjusts the minimum gap with the fixed tension profile 310 by the guide pipe 319 when moving, and other than the maximum extension of the exterior membrane 30, which is the point when it comes into close contact with the outer surface, The inner surface and the second stopper surface 326 simultaneously touch the side surface and the outer surface of the first and second upper chords 110 and 210, thereby enabling solid support.

Moreover, the movable tension profile 320 is provided with a second coupling hole 322 in the longitudinal direction on the outer surface so that the other end of the exterior film 30 is selectively fixed, and tension force adjusting parts 330 are spirally fastened on both sides. A second helical hole 324 is formed through the space at set intervals as much as possible, and a second stopper surface 326 is formed at the bottom to have a curvature corresponding to the outer surface of the first and second upper currents 110 and 210, and the inner surface A second binding groove 328 is formed so that the binding protrusion 342 of the cover 340 is caught.

The second coupling hole 322 has a narrow entrance area communicating with the outer surface of the fixed tension profile 310, so that the other end of the exterior film 30 wound along the surface of the rope is not separated.

Considering that the first and second upper chords 110 and 210 are provided in a pipe structure, the stopper surface 326 is formed to have a circular arc surface so that the moving tension profile 320 moves to the set position and moves the guide pipe 319. At the point when the outer surface of the movable tension profile 320 comes into close contact with the outer surface, it also comes into close contact with the outer surface of the first and second upper chords 110 and 210, so that the movable tension profile 320 does not shake.

Meanwhile, instead of the first spiral hole 314 of the fixed tension profile 310 and the second spiral hole 324 of the adjacent movable tension profile 320, a hole corresponding to the outer diameter of the tension force adjustment unit 330 is formed. After processing the fixed tension profile 310 and the movable tension profile 320, respectively, the nut fastened to the end of the tension force adjuster 330 that penetrates the first and second spiral holes 314 and 324 is connected to the movable tension profile ( It is fixed to the outer surface communicating with the hole of the movable tension profile 320 and can be moved by the nut fixed to the movable tension profile 320 when the tension force adjusting unit 330 rotates.

Moreover, the lower part of the movable tension profile 320 can be provided in a planar shape.

The tension force adjusting unit 330 is helically fastened to both ends of the first spiral hole 314 of the fixed tension profile 310 and the second spiral hole 324 of the movable tension profile 320 adjacent thereto, so that the tension force adjusting unit 330 moves according to the direction of rotation. The tension force of the exterior membrane 30 is adjusted by moving the movable tension profile 310 of the main truss 10, on which the other end of the exterior membrane 30 is fixed, in the direction of the fixed tension profile 310.

At this time, the tension force adjusting unit 330 is provided in a bolt structure.

Furthermore, the overall length of the tension force adjusting unit 330 is determined based on the tension value of the exterior membrane 30.

As shown in FIG. 4, when the tension of the exterior film 30 is adjusted by moving the movable tension profile 320 toward the fixed tension profile 310, the cover 340 moves the fixed tension profile 310 and the movable tension profile 320. ) is fixed to the adjacent upper surface to cover the gap.

At this time, the cover 340 is formed to have a narrower width than the width of the exterior film 30, and the grinding on both sides is the same.

And the cover 340 is formed with a pair of opposing binding protrusions 328 on the bottom, so that the binding protrusions 328 are connected to the first binding groove 318 of the fixed tension profile 310 and the first binding protrusion 328 of the movable tension profile 320. 2 Each is bound to the binding groove 328 and fixed to the fixed tension profile 310 and the movable tension profile 320.

Moreover, the cover 340 is formed in an arc shape so that both ends correspond to the rounded edges of the fixed tension profile 310 and the movable tension profile 320, thereby eliminating the gap and forming the fixed tension profile 310 and the movable tension profile ( 320) Prevent rainwater from penetrating through the space. Meanwhile, the cover 340 is made of synthetic resin, etc.

Moreover, as shown in FIG. 7, the cover 340 of another embodiment has the upper end of a pair of binding protrusions 328 slidably provided in a groove 3410 formed at the lower portion, and the upper opposing surface of the binding protrusions 328 An elastic body 344 may be provided.

Meanwhile, the bottom of the groove 3410 is opened so that the pair of binding protrusions 328 are exposed to the lower side and can be moved in an exposed state.

At this time, the elastic body 344 applies elastic force to widen the gap between the pair of binding protrusions 328.

Therefore, in order to bind the cover 340 to the first binding groove 318 of the fixed tension profile 310 and the second binding groove 328 of the movable tension profile 320, a pair of binding protrusions 328 are provided on both sides. When pressed, the gap between the pair of binding protrusions 328 is reduced to enable insertion into the gap between the fixed tension profile 310 and the movable tension profile 320, and the pair of binding protrusions remains in a pressed state after insertion. When the pressing force is removed at 328, the gap between the pair of binding protrusions 328 widens due to the elastic force of the elastic body 344 and they are bound to the first binding groove 318 and the second binding groove 328.

As shown in FIGS. 1 and 2, both ends of the purlin 20 are fixed between the main trusses 10 and are connected in the arrangement direction of the main trusses 10 to connect the main trusses 10 installed apart from each other.

As shown in FIGS. 1, 3, 5, and 6, the exterior film 30 is provided to have a width corresponding to the spacing of the main trusses 10 installed at set intervals and closes the space between the main trusses 10. do.

In addition, the exterior membrane 30 is wound along the surface of the rope with a rope positioned at both ends, and is processed to position a linear member such as a rope at both ends, so that the first coupling hole of the fixed tension profile 310 When inserted into the second coupling hole 322 of 312 and the movable tension profile 320, it does not come off when the tension is adjusted.

Referring to Figure 8, the construction method of a membrane structure tent with left and right tension adjustment function of the present invention includes the main truss assembly step (S100), the fixed tension profile fixing step (S110), the movable tension profile installation step (S120), and the main truss assembly step (S100). It includes a truss ground installation step (S130), an exterior membrane connection step (S140), a tension force adjuster connection step (S150), a tension force adjuster adjustment step (S160), and a cover coupling step (S170).

The main truss assembly step (S100) is a pillar portion 100 in which the first upper chord 110 and the first lower chord 120 are connected by the connection frame 130, and the second upper chord 210 and the second lower chord After individually manufacturing the roof trusses 200 in which (220) is connected by the connecting frame 230, the first upper chord 110 and the first lower chord 120 of the pillar portion 100 and the roof truss 200 This is the step of assembling the main truss 10 by connecting the second upper chord 210 and the second lower chord 220 through flanges.

In the fixing tension profile fixing step (S110), the guide pipe 319 is fixed by welding or the like along the vertices of the outer surfaces of the first and second upper chords 110 and 210 provided on the pillar 100 and the roof truss 200. This is the step of fixing the fixed tension profile 310 to one side of .

The moving tension profile installation step (S120) is performed on the other side of the guide pipe 319 fixed along the vertex of the outer surfaces of the first and second upper chords 110 and 210 provided on the pillar 100 and the roof truss 200. This is the step of positioning and installing the fixed tension profile 310 and the movable tension profile 320 provided in a symmetrical structure.

In the main truss ground installation step (S130), the main truss 10 with the roof truss 200 connected between the two pillar parts 100 is erected, and the lower part of the pillar part 100 is fixed to the ground and a plurality of pillar parts 100 are installed. This is the step of connecting the main truss 10 to the main truss 10 through the purlin 20.

In the exterior membrane connection step (S140), both ends of the exterior membrane 30, each provided to have a width corresponding to the spacing of the main truss 10 installed on the ground, are fixed to one main truss 10 located on the left side based on FIG. 5. are inserted into the first coupling hole 312 of the fixed tension profile 310 and the second coupling hole 322 of the movable tension profile 320 installed on the other main truss 10 located on the right side of FIG. This is the connecting step.

That is, the exterior membrane connection step (S140) is performed by connecting both ends of the exterior membrane 30 between the movable tension profile 320 installed on one main truss 10 and the fixed tension profile 310 fixed to the other main truss 10. This is the step to connect.

At this time, before performing the exterior membrane connection step (S140), the gap between the movable tension profile 320 and the fixed tension profile 310 is widened using the tension force adjuster 330.

This means that the movable tension profile 320 installed on the column portion 100 and the roof truss 200 of one main truss 10 is fixed to the column portion 100 and the roof truss 200 of the other main truss 10. This is to widen the gap from the tension profile 310.

The tension force adjuster connection step (S150) involves the operator connecting the first spiral hole 314 of the fixed tension profile 310 formed at set intervals inside the exterior film 30 and the movable tension profile 320 adjacent thereto. This is a step of connecting the tension force adjusting unit 330, which has a bolt structure, to the second spiral hole 324 in the horizontal direction by screw fastening.

In the tension force control unit adjustment step (S160), the operator connects the first spiral hole 314 of the fixed tension profile 310 and the second spiral hole of the movable tension profile 320 adjacent to it inside the exterior membrane 30. When the tension force adjusting unit 330 spirally fastened to (324) is rotated, the moving tension profile 320 moves according to the rotation direction of the tension force adjusting unit 330 to the first upper current 110 and the second upper current current 210. This is a step of adjusting the tension force by pulling the loose exterior film 30 in the width direction (lateral direction) while moving in the direction of the fixed tension profile 310 whose position is fixed at ).

In this way, during the rotation of the tension force adjusting unit 330, the movable tension profile 320 supporting the other end of the exterior membrane 30 moves in the direction of the fixed tension profile 310 adjacent thereto, thereby extending the exterior membrane ( 30) is tense.

In particular, in the tension force control unit adjustment step (S160), the worker performs tension work inside the exterior membrane 30 to connect the single exterior membrane 30 at regular intervals (3 m, 2 m, etc.) and install a tension control module inside. Tension is applied using (300).

The cover coupling step (S170) is a step in which the tension of each exterior film 30 is adjusted and the space between the exterior films 30 is closed with a cover 340.

That is, in the cover coupling step (S170), when the tension of the exterior film 30 is adjusted by moving the movable tension profile 320 toward the fixed tension profile 310, the gap between the fixed tension profile 310 and the movable tension profile 320 is closed. This is the step of fixing it to the neighboring upper surface to cover it.

For this purpose, when performing the cover coupling step (S170), a pair of opposing binding protrusions 328 are formed on the bottom of the cover 340, so that the binding protrusions 328 are connected to the first binding groove 318 of the fixing tension profile 310. ) and the second binding groove 328 of the movable tension profile 320, respectively, and are fixed to the fixed tension profile 310 and the movable tension profile 320.

The configurations included in the various embodiments described above can also be implemented in various other possible modification combinations not illustratively described above, unless they are combinations that are clearly excluded from the aspect of implementation.

1: Membrane structure tent with left and right tension adjustment function
10: main truss 20: purlin
30: exterior membrane 100: pillar part
110: 1st upper chord 120: 1st lower chord
130: connection frame 200: roof truss
210: 2nd upper current 220: 2nd lower current
230: Connection frame 300: Tension adjustment module
310: fixed tension profile 320: moving tension profile
330: Tension force adjustment unit 340: Cover

Claims (5)

A main truss that is fixed to the ground at set intervals for a length corresponding to a portion of the length divided from the entire length of the tent and consists of spaced apart pillars and roof trusses connecting the pillars to each other, and a longitudinal direction between the roof trusses. It is a tent composed of a plurality of purlins connected to and an exterior membrane to close the space between the main truss on one side and the main truss on the other side, respectively.
a fixed tension profile each fixed to one side of a guide pipe fixed along the outer surface of the top chord of the pillar part and the roof truss, and having a first coupling hole on the outer surface to selectively fix one end of the exterior film;
a movable tension profile positioned on each other side of the guide pipe in a state opposite to the fixed tension profile and having a second coupling hole on the outer surface to selectively fix the other end of the exterior film; and
The fixed tension profile and the moving tension profile adjacent to the moving tension profile are helically fastened at both ends, and the moving tension profile of the other main truss to which the other end of the exterior film is fixed is moved in close contact with the other side of the guide pipe according to the direction of rotation. It includes a tension force control unit that adjusts the tension force of the exterior membrane,
The fixed and moving tension profiles are formed with first and second stopper surfaces, respectively, the bottom of which has a curvature corresponding to the outer surface of the upper chord,
When the movable tension profile moves, it contacts the opposing surface of the guide pipe to adjust the minimum gap with the fixed tension profile, and at the maximum extension of the exterior film, which is the point when it comes into close contact with the outer surface of the guide pipe, the guide pipe A membrane structure tent with a left and right tension adjustment function, characterized in that the inner surface of the moving tension profile and the second stopper surface simultaneously contact the outer surface and the outer surface of the upper current.
delete According to paragraph 1,
A membrane structure tent with a left and right tension adjustment function, characterized in that the fixed and movable tension profiles have binding grooves formed on opposing inner surfaces, and a cover is coupled to the binding grooves to seal the spaced upper surfaces.
A first step of assembling a main truss composed of pillars and roof trusses connecting the pillars at set intervals for a length corresponding to a portion of the total length of the tent;
A second step of fixing a fixed tension profile on each side of the guide pipe fixed along the outer surface of the top chord of the column portion and the roof truss;
A third step of positioning a moving tension profile on each other side of the guide pipe in a state opposite to the fixed tension profile; and
In a state in which an exterior film is positioned between the fixed tension profile and the movable tension profile, the movable tension profile, in which one end of the exterior membrane is selectively fixed, is changed from the fixed tension profile, in which one end of the exterior membrane is selectively fixed, to the tension force adjusting unit. A fourth step of adjusting the tension force of the exterior membrane by rotating it so that it comes into close contact with the other side of the guide pipe,
The fixed and moving tension profiles are formed with first and second stopper surfaces, respectively, the bottom of which has a curvature corresponding to the outer surface of the upper chord,
In the process of performing the fourth step, when the moving tension profile moves, it contacts the opposing surface of the guide pipe to adjust the minimum gap with the fixed tension profile, and the exterior is in close contact with the outer surface of the guide pipe. A membrane structure tent construction method with a left and right tension adjustment function, characterized in that the inner surface of the moving tension profile and the stopper surface simultaneously contact the outer surface of the guide pipe and the outer surface of the upper current when the membrane is stretched to its maximum.
According to paragraph 4,
A membrane structure tent construction method with a left and right tension adjustment function, characterized in that the step of finishing with a cover on the spaced upper part of the fixed and movable tension profile is performed after performing the fourth step.

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