KR102410108B1 - T-type joint, air-dome with insulation using the t-type joint, and process method of the air-dome with insulation using the t-type joint - Google Patents

Abstract

The invention for a T-shaped joint, an air dome having thermal insulation properties using the same, and a method of constructing an air dome having thermal insulation properties are disclosed. The disclosed teee-shaped joint of an air dome having thermal insulation properties is: abutting or bonding to each end or each edge of an adjacently opposing envelope, and abutting or bonding to each end or each edge of an adjacently opposing inner membrane disposed under the envelope a wing extending from the bridge so as to be in contact with the upper surface of each of the outer films and joined to the corresponding outer film, and provided under the bridge to increase the bonding area with the corresponding inner film and prevent the bridge from being separated in the upper direction It is characterized in that it includes an edge rope.

Description

T-shaped joint, an insulating air dome using the same, and a method of constructing an insulating air dome T-TYPE JOINT}

The present invention relates to an air dome, and more particularly, by using a Tee-shaped joint having a constant length in the axial direction to join adjacent outer films and join inner films to each other, forming an insulating space portion having a similar distance between the outer film and the inner film. And, by inserting the insulating material throughout the insulating space, the insulation and anti-condensation efficiency are increased, and the anti-condensation film is connected along the set trajectory as a fixing joint on the lower side of the inner film, so that the anti-condensation space is formed to prevent condensation. It relates to a tee-shaped joint to maximize the efficiency, an air dome having thermal insulation properties using the same, and a method of constructing an air dome having thermal insulation properties.

In general, the air dome has a structure in which the structure is maintained only when the air dome is sealed to prevent the pressurized air from escaping from the inside of the room.

In such an air dome, there is no need to make a separate outlet because the air conditioner that injects air to maintain the inflated state does not automatically control the air pressure and merely maintains the function of blowing.

As a related background art, Republic of Korea Registered Utility Model Publication No. 20-0408577 (registered on February 06, 2006, name: ventilation structure of an air dome using an underground duct) has been disclosed.

The above-described technical configuration is a background technology for helping the understanding of the present invention, and does not mean a prior art widely known in the technical field to which the present invention pertains.

Since the air injected into the existing air dome maintains a constant temperature, the indoor temperature gradually rises over time. , there is a problem that dew condensation occurs on the inside of the makjae in the winter season.

Therefore, there is a need to improve it.

The present invention has been devised to improve the above problems, and by using a T-shaped joint having a constant length in the axial direction to join adjacent outer films and join inner films to each other, an insulating space in which the distance between the outer film and the inner film is similar. The purpose of providing a T-shaped joint to increase thermal insulation and anti-condensation efficiency by forming a part and inserting an insulating material throughout the insulating space, an air dome having thermal insulation and a method of constructing an air dome having thermal insulation using the same. There is this.

The present invention relates to a T-shaped joint that maximizes the efficiency of preventing condensation through the formation of an anti-condensation space by connecting the anti-condensation film to the lower side of the inner film as a fixed joint along the set trajectory, an air dome having thermal insulation using the same, and air having thermal insulation An object of the present invention is to provide a method for constructing a dome.

The present invention is a tee-shaped joint that is intended to prevent deterioration of thermal insulation due to tilting downward between an inner film and an outer film that are developed along an arc trajectory approximately along an arc trajectory by fixing the position of the insulating material provided in the insulating space part as a position fixing unit, and thermal insulation using the same An object of the present invention is to provide an air dome having a

The tee-shaped joint according to the present invention includes: abutting or bonding to each end or each edge of an adjacently opposing outer film, and being disposed under the outer film to be in contact with or joined to each end or each edge of an adjacently opposing inner film bridge; a wing extending from the bridge so as to be in contact with an upper surface of each of the outer films and joined to the corresponding outer film; and an edge rope provided under the bridge, increasing a bonding area with the corresponding inner film, and preventing the bridge from being separated in an upper direction.

The edge rope is characterized in that it is disposed inside the lower portion of the bridge by wrapping the bridge.

The bridge may include: a first bridge extending from one side surrounding the edge rope and in contact with any one of a pair of the outer membranes facing each other; and a second bridge extending from the other side surrounding the edge rope and in contact with the other one of the pair of opposing outer membranes.

The first bridge and the second bridge are bonded and fixed.

The wing may include: a first wing integrally extending from the first bridge; and a second wing integrally extending from the second bridge.

An air dome having a thermal insulation property according to the present invention includes: an outer film forming an exterior, comprising a plurality of outer films arranged adjacent to each other along a set trajectory; an inner film disposed under each of the outer films and made up of a plurality of inner films arranged adjacent to each other along a set trajectory; a Tee-shaped joint for connecting the neighboring outer films in contact with each other and connecting the neighboring inner films by contacting each other to simultaneously seal between the neighboring outer films and the adjacent inner films; an insulating space portion formed to be partitioned by the outer film, the inner film, and the T-shaped joint disposed along a predetermined trajectory; and a heat insulating material provided in each of the heat insulating space parts.

An air dome having thermal insulation properties according to the present invention includes: an anti-condensation film provided on the lower side of the inner film to form a condensation preventing space, and a plurality of pieces are disposed along a set trajectory; and a fixing joint connecting the adjacent anti-condensation films to each other and connecting and fixing the anti-condensation films to the inner film.

The T-shaped joint and the fixing joint are characterized in that they are alternately arranged in the vertical direction.

The tee-shaped joint may include: a bridge that is in contact with or bonded to each end or each edge of the adjacently opposing outer film, and is disposed under the outer film and is in contact with or bonded to each end or each edge of the adjacently opposed inner film; a wing extending from the bridge so as to be in contact with an upper surface of each of the outer films and joined to the corresponding outer film; and an edge rope provided under the bridge, increasing a bonding area with the corresponding inner film, and preventing the bridge from being separated in an upper direction.

Each of the adjacent outer membranes and the wings are joined to each other by an overcoat, and the edge rope is disposed inside the lower side of the bridge by wrapping the bridge, and the inner layer facing the lower side of the bridge and adjacent to the edge rope Each is characterized in that it is bound together by a binding member.

The heat insulating material provided in the heat insulating space part is characterized in that it is fixed by a position fixing part.

The position fixing portion may be in contact with one side or both sides of the insulating material, or a fixing rope inserted into the insulating material; an insertion hole through each of the T-shaped joints disposed to face each other in the insulating space; And it is provided on both sides along the axial direction of the fixing rope, and includes a locking member caught in the corresponding T-shaped joint after insertion into the corresponding insertion hole.

The construction method of an air dome having thermal insulation properties according to the present invention is: A tee-shaped joint in which an edge rope is placed at a set position of a film material spread out in a uniform plane, and then overlapped and joined to form a tee-shaped joint based on the edge rope forming step; An outer film fixing connecting step of contacting the corresponding outer film of a plurality of outer films to each of the overlapping mak materials of the tee-shaped joint, and bonding each of the mak materials of the tee-shaped joint protruding above the outer film to the corresponding outer film ; an overcoat construction step of bonding the adjacent outer membrane and each of the mak materials of the T-shaped joint protruding to the upper portion of the outer membrane by using an overcoat; a part fixing step of disposing a plurality of inner films under the outer film and fixing and connecting one side of the inner film corresponding to the tee-shaped joint of any one of the adjacent tee-shaped joints along a setting direction; and the inner film corresponding to the other one of the tee-shaped joints of the adjacent tee-shaped joints along a setting direction after supplying an insulating material to the insulating space partitioned by the outer film, the inner film, and the plurality of tee-shaped joints. Including a step of installing an insulating material for fixing and connecting the other side.

A method of constructing an air dome having thermal insulation properties according to the present invention comprises: a dew-condensation prevention preparation step of providing the Tee-shaped joint or fixing joint between the adjacent inner films along a setting direction, and joining and connecting the adjacent inner films; and disposing a plurality of anti-condensation films on the lower side of the inner film, and bonding or binding both sides to the corresponding T-shaped joint or the fixing joint along a setting direction, thereby forming a anti-condensation space between the inner film and the anti-condensation film Condensation prevention construction step is included.

As described above, the tee-shaped joint according to the present invention, an air dome having thermal insulation properties using the same, and a method of constructing an air dome having thermal insulation properties using the same are different from the prior art by using a tee-shaped joint having a constant length in the axial direction. By bonding the outer films to each other and bonding the inner films to each other, a heat insulating space portion having a similar distance between the outer film and the inner film is formed, and by inserting a heat insulating material throughout the heat insulating space portion, heat insulation and anti-condensation efficiency can be improved.

According to the present invention, the anti-condensation film is connected to the lower side of the inner film as a fixed joint along the set trajectory, thereby maximizing the anti-condensation efficiency through the formation of the anti-condensation space.

According to the present invention, by fixing the position of the insulating material provided in the insulating space portion as a position fixing unit, it is possible to prevent deterioration of the thermal insulation property due to the downward tilting between the inner film and the outer film developed along an arc trajectory.

1 is a plan view of an air dome according to an embodiment of the present invention.
2 is a longitudinal cross-sectional view of an air dome according to an embodiment of the present invention.
3 is a partial longitudinal cross-sectional view of an air dome according to an embodiment of the present invention.
4 is a partially enlarged longitudinal cross-sectional view of an air dome according to an embodiment of the present invention.
5 is a flowchart illustrating a method of constructing an air dome according to an embodiment of the present invention.
6 is a partial longitudinal cross-sectional view of an air dome according to another embodiment of the present invention.
7 is a partially enlarged longitudinal cross-sectional view of an air dome according to another embodiment of the present invention.

Hereinafter, embodiments of a T-shaped joint according to the present invention, an air dome having thermal insulation properties using the same, and a method of constructing an air dome having thermal insulation properties will be described with reference to the accompanying drawings. In this process, the thickness of the lines or the size of the components shown in the drawings may be exaggerated for clarity and convenience of explanation. In addition, the terms to be described later are terms defined in consideration of functions in the present invention, which may vary according to the intention or custom of the user or operator. Therefore, definitions of these terms should be made based on the content throughout this specification.

1 is a plan view of an air dome according to an embodiment of the present invention, and FIG. 2 is a longitudinal cross-sectional view of the air dome according to an embodiment of the present invention.

Figure 3 is a partial longitudinal sectional view of the air dome according to an embodiment of the present invention, Figure 4 is a partially enlarged longitudinal sectional view of the air dome according to an embodiment of the present invention.

1 to 4 , the air dome 10 having thermal insulation properties according to an embodiment of the present invention includes an outer film 20, an inner film 30, a tee-shaped joint 100, a thermal insulation space portion 40, It includes an insulating material 200 , a dew condensation preventing film 300 , and a fixing joint 400 .

The outer film 20 forms the exterior of the air dome 10 according to the present invention, and is arranged on the outermost or uppermost side. At this time, the outer film 20 is made of a standardized size or a constant size, and a plurality of outer films 20 are arranged adjacently along a set trajectory to cover a large space. In particular, the outer membrane 20 may be applied as a flexible membrane to be deployed by air supplied to the inside of the air dome 10 .

In addition, the inner film 30 is disposed under the outer film 20, and a plurality of them are arranged adjacent to each other along a set trajectory. In this case, the inner film 30 may be applied with the same material as the outer film 20 .

In particular, it is assumed that the air dome 10 according to the present invention is constructed in an arc trajectory, and the connection portion between the adjacent outer membranes 20 and the adjacent inner membrane 30 is connected in the tangential direction of the air dome 10 . It may be arranged on a straight line in a direction approximately perpendicular to the .

In addition, the tee-shaped joint 100 connects the adjacent outer films 20 to each other and connects the adjacent inner films 30 to each other in contact with each other, so that the adjacent inner films 20 and the adjacent inner films 30 are simultaneously connected. sealed

In addition, the insulating space 40 is a space partitioned by the outer film 20, the inner film 30, and the T-shaped joint 100 disposed to face each other along a predetermined trajectory. At this time, the inner height of the insulating space portion 40 is substantially similar throughout the T-shaped joint 100 .

And, the heat insulating material 200 is provided in each of the heat insulating space (40). At this time, the heat insulating material 200 is made of various materials, and has a size that fills each of the heat insulating space parts 40 as a whole.

In particular, as the thickness of the T-shaped joint 100 in contact with the neighboring inner film 30 while being in contact with the neighboring outer film 20 is minimized, the insulating material 200 filled in the neighboring insulating space portion 40 along the set trajectory ), the gap between them is narrowed. Due to this, the introduction of external air into the lower portion of the inner film 30 is minimized, and condensation is prevented or reduced.

To this end, the tee-shaped joint 100 includes a bridge 110 , a wing 120 , an edge rope 130 , an overcoat 140 , and a binding member 150 .

The bridge 110 is formed to be at least as long as the distance between the outer film 20 and the inner film 30, and has a size (width) that is in contact with the whole along the edges of the outer films 20 that are adjacent to each other or is standardized. The size (width) may be continuously arranged. Similarly, the bridge 110 may have a size in contact with the entire inner film 30 along the edges of the adjacent inner films 30 , or may be continuously disposed with a standardized size.

In particular, the bridge 110 may be made of the same material to minimize the sense of heterogeneity with the inner film 30 and the outer film 20 and to enable mutual bonding when necessary. That is, the bridge 110 is made of a makjae.

In addition, the bridge 110 is in contact with or bonded to each end or each edge of the adjacent outer film 20, and is disposed below the outer film 20 and adjacently opposing each end or each of the inner film 30. tangent to or joined to the edge. At this time, as the bridge 110 is made of makjae, the spacing between the neighboring outer films 20 and the adjacent inner films 30 along the set trajectory are minimized.

In addition, the wings 120 extend from the bridge 110 so as to be in contact with the upper surface of each of the outer films 20 , and are joined to the corresponding outer films 20 .

The edge rope 130 is disposed on the lower inner side of the bridge 110 as it is wrapped around the bridge 110 to increase the bonding area with the corresponding inner film 30, and the bridge 110 is separated in the upper direction. serves to prevent

In detail, the bridge 110 includes a first bridge 112 and a second bridge 114 .

The first bridge 112 extends from one side surrounding the edge rope 130 and comes into contact with any one of the opposing pair of outer membranes 20 .

In addition, the second bridge 114 extends from the other side surrounding the edge rope 130, and comes into contact with the other one of the opposing pair of outer membranes (20).

In particular, the edge rope 130 is disposed along the upper center of the makjae of the set size (planar area), and the corresponding makjae is folded and overlapped with respect to the edge rope 130 . So, the first bridge 112 corresponds to the makjae on one side of the overlapping, and the second bridge 114 corresponds to the makjae on the other side of the overlapping.

In addition, the wing 120 includes a first wing 122 and a second wing 124 .

The first wing 122 integrally extends from the first bridge 112 and comes into contact with the upper surface of any one of the adjacent outer films 20 . In addition, the second wing 124 extends integrally from the second bridge 114 and comes into contact with the upper surface of the other outer film 20 among the adjacent outer films 20 .

That is, the makjae on one side overlapped with respect to the edge rope 130 is divided into the first bridge 112 and the first wing 122, and the makjae on the other side is the second bridge 114 and the second wing 124. is divided into

In addition, the first bridge 112 and the second bridge 114 that are superimposed on each other are bonded to opposite surfaces by an adhesive to form a bridge bonding layer 116 . Thus, the first bridge 112 and the second bridge 114 are integrated.

And, the outer film 20 corresponding to the first wing 122 is bonded to each other by an adhesive between the opposite surfaces to form a first bonding layer 123, and the outer film 20 corresponding to the second wing 124 A second bonding layer 125 is formed by bonding the opposite surfaces of the silver to each other with an adhesive.

In addition, even if the outer film 20 corresponding to the first wing 122 is bonded by the first adhesive layer, and the outer film 20 corresponding to the second wing 124 is bonded by the second adhesive layer, the adjacent outer film ( 20) When tension is generated in the direction in which each is to be opened, the first wing 122 and the outer film 20 or the second wing 124 and the outer film 20 may be separated.

In order to prevent this, the outer film 20 and the first wing 122 and the outer film 20 and the second wing 124 which are adjacent to each other are covered with the overcoat 140 at the same time. In addition, the overcoat 140 , the first wing 122 , the second wing 124 , and the corresponding outer film 20 are firmly bound by the cover bonding layer 142 formed by an adhesive. The overcoat 140 is made of the same material as the outer film 20 in order to prevent a sense of difference and secure excellent bonding reliability with the outer film 20 and the wing 120 .

And, the ends of the inner film 30 that are adjacent to each other are bound to the lower portion of the bridge 110 , in particular, the edge rope 130 .

That is, the corresponding lower side of the first bridge 112 , the lower side of the second bridge 114 , the edge rope 130 , and each of the adjacent inner films 30 are bound together by the binding member 150 so as to be firmly attached. is fixed

At this time, the binding member 150 can be applied in various ways, such as a band cable, wire, wire. In addition, the binding member 150 may bind the heat insulating material 200 together.

In particular, the binding member 150 is inserted into the adjacent inner film 30 and the first bridge 112 and the second bridge 114 to bind to each other. In addition, so that the adjacent inner film 30 can be firmly bound to the binding member 150 , the inner film 30 may be provided by wrapping the edge rope 32 on the opposite edge.

Of course, the tee-shaped joint 100 is applicable to various materials.

On the other hand, the anti-condensation film 300 is provided on the lower side of the inner film 30 to form the anti-condensation space 310, which is an air layer for thermal insulation, and a plurality of pieces are arranged along the set trajectory.

In this case, the anti-condensation film 300 may be applied with the same material as the outer film 20 .

And, the fixing joint 400 serves to connect the adjacent anti-condensation film 300 to each other, and to connect and fix the anti-condensation film 300 to the inner film 30 .

That is, the fixing joint 400 connects and fixes the inner films 30 that are adjacent to each other and the anti-condensation films 300 that are adjacent to each other are opposite to each other.

Accordingly, the anti-condensation space 310 is formed by the inner film 30 and the anti-condensation film 300 , and the opposite fixing joint 400 . Thus, the dew condensation prevention efficiency is maximized.

In particular, the fixing joint 400 can be applied to the same thing as the Tee-shaped joint 100 for compatibility.

For convenience, the fixing joint 400 is shown to be the same as the tee-shaped joint 100 , and a limited configuration is given to this with the same reference numerals as the limited configuration of the tee-shaped joint 100 .

In this case, the tee-shaped joint 100 and the fixing joint 400 are alternately arranged in the vertical direction or in the direction perpendicular to the tangential direction of the convex outer membrane 20 in the upper direction. This is to increase the thermal insulation and anti-condensation power compared to the T-shaped joint 100 and the fixing joint 400 being disposed on a straight line.

As a result, the distance between the outer film 20 and the inner film 30 is substantially similar to form the insulating space 40 by using the tee-shaped joint 100 . And, the insulating material 200 is provided so as to occupy a space over each of the insulating space portion 40, the insulating power of the air dome 10 is increased.

In addition, by using the fixing joint 400, the anti-condensation film 300 is provided under the inner film 30, so that the distance between the inner film 30 and the anti-condensation film 300 is substantially similar to the anti-condensation space portion 310 is formed, the insulation and anti-condensation efficiency are maximized.

5 is a flowchart illustrating a method of constructing an air dome according to an embodiment of the present invention.

1 to 5, the construction method of the air dome 10 having thermal insulation properties according to an embodiment of the present invention includes a tee-shaped joint forming step (S10), an outer membrane fixing and connecting step (S20), and an overcoat construction step. (S30), a partial fixing step of the inner film (S40), an insulating material installation step (S50), a condensation prevention preparation step (S60), and a condensation prevention construction step (S70).

First, in the tee-shaped joint forming step (S10), the edge rope 130 is placed at the set position of the unfolded makjae with a constant planar surface, and then overlapped based on the edge rope 130 and then joined to form the tee-shaped joint 100 . It is a process of forming (molding). At this time, the tee-shaped joint 100 is composed of the bridge 110 , the wing 120 and the edge rope 130 , as described above.

And, in the outer film fixing and connecting step (S20), after making the corresponding outer film 20 of the two or more outer films 20 adjacent to each of the overlapping bridges 110 of the Tee-shaped joint 100 in contact with each other, the outer film 20 is It is a process of bonding each of the wings 120 of the T-shaped joint 100 protruding upward to the corresponding outer membrane 20 .

In addition, in the overcoat construction step (S30), the adjacent outer film 20 and each of the wings 120 of the Tee-shaped joint 100 protruding to the upper portion of the outer film 20 are joined as an overcoat 140 to form an overcoat 140. It is a process that increases the bonding strength.

In the part fixing step (S40) of the inner film, a plurality of inner films 30 are disposed on the lower side of the outer film 20, and any one of the tee-shaped joints 100 that are adjacently opposed along the setting direction are tee-shaped joints 100 It is a process of fixedly connecting one side of the inner film 30 corresponding to . Therefore, the inner film 30 is in a state before one side is bound to the corresponding Tee-shaped joint 100 and the other side is bound.

In the insulating material installation step (S50), through the other side of the inner film 30, which is in a state before binding, the outer film 20, the inner film 30, and an insulating space partitioned by the adjacent tee-shaped joint 100 ( 40) After supplying (inserting) the insulating material 200, the other side of the inner membrane 30 corresponding to the other tee-shaped joint 100 among the adjacent tee-shaped joints 100 along the setting direction is fixedly connected to the other side to be.

And, the anti-condensation preparation step (S60) is provided with a Tee-shaped joint 100 or a fixing joint 400 between the adjacent inner films 30 along the setting direction, and the adjacent inner films 30 are connected to each other by bonding. it is fair

In addition, in the anti-condensation construction step (S70), a plurality of anti-condensation films 300 are disposed on the lower side of the inner film 30, and both sides are joined to the corresponding Tee-shaped joint 100 or fixed joint 400 along the setting direction. Alternatively, by binding, it is a process of forming the anti-condensation space 310 which is an air layer between the inner film 30 and the anti-condensation film 300 .

As a result, after the tee-shaped joint 100 and the outer film 20 are preferentially bonded and processed, one side of each inner film 30 is bound to the corresponding tee-shaped joint 100, and the insulating material 200 is formed in the insulating space. It is inserted into the part 40 . After that, by binding the other side of each inner film 30 to the corresponding T-shaped joint 100 , the construction of the air dome 10 having thermal insulation properties is completed.

6 is a partial longitudinal sectional view of an air dome according to another embodiment of the present invention, and FIG. 7 is a partially enlarged longitudinal sectional view of the air dome according to another embodiment of the present invention.

6 and 7, the air dome 10 having thermal insulation properties according to another embodiment of the present invention has an outer film 20, an inner film 30, a tee-shaped joint 100, a thermal insulation space portion 40, It includes a heat insulating material 200 , an anti-condensation film 300 , a fixing joint 400 , and a position fixing part 500 .

Here, the outer film 20, the inner film 30, the tee-shaped joint 100, the insulating space portion 40, the insulating material 200, the anti-condensation film 300 and the fixing joint 400 are the configuration of the above-described embodiment and It is the same configuration.

In addition, each of the heat insulating materials 200 provided in the heat insulating space part 40 is fixed in position by the position fixing part 500 . The heat insulating material 200 is prevented from being tilted to one side in the heat insulating space part 40 by the position fixing part 500 .

Here, the position fixing unit 500 includes a fixing rope 510 , an insertion hole 520 , and a locking member 530 .

The fixing rope 510 is in contact with one side or both sides of the insulating material 200 , or is inserted into the insulating material 200 , and is provided with one or more strands.

In addition, the insertion hole 520 is formed through the bridge 110 of each of the T-shaped joints 100 that are disposed to face each other in the insulating space 40 .

In addition, the locking member 530 is provided on both sides along the axial direction of the fixing rope 510 and is rotatable with respect to the fixing rope 510 . In particular, the fixing rope 510 is a flexible wire, thread, or rope, and the locking member 530 is made of a hard metal material or a resin material. Therefore, the engaging member 530 is rotated after being inserted into the corresponding insertion hole 520 in the axial direction, and is caught by the corresponding bridge 110 so as not to be separated from the direction opposite to the insertion direction.

Of course, the locking member 530 can be deformed into various shapes.

Unexplained reference numerals are replaced with those described above.

Although the present invention has been described with reference to the embodiment shown in the drawings, this is merely exemplary, and it is understood that various modifications and equivalent other embodiments are possible by those of ordinary skill in the art. will understand Accordingly, the true technical protection scope of the present invention should be defined by the following claims.

10: air dome 20: outer curtain
30: inner film 32: edge rope
40: insulation space part 100: Tee-shaped joint
110: bridge 112: first bridge
114: second bridge 116: bridge bonding layer
120: wing 122: first wing
124: second wing 130: edge rope
140: overcoat 142: cover bonding layer
150: binding member 200: insulating material
300: anti-condensation film 310: anti-condensation space portion
400: fixed joint 500: position fixing part
510: fixed rope 520: insertion hole portion
530: locking member

Claims (13)

a bridge that is in contact with or bonded to each end or each edge of the adjacently opposing outer film, and is disposed below the outer film and is in contact with or bonded to each end or each edge of the adjacently opposed inner film;
a wing extending from the bridge so as to be in contact with an upper surface of each of the outer films and joined to the corresponding outer film; and
an edge rope provided under the bridge to increase the bonding area with the corresponding inner film and prevent the bridge from being separated in the upper direction;
Each of the adjacent outer membranes and the wings are joined to each other by an overcoat,
The edge rope is disposed inside the lower part of the bridge by wrapping the bridge,
Tee-shaped joint, characterized in that the lower side of the bridge and each of the inner membranes facing adjacently to the edge rope are bound together by a binding member.
delete The method of claim 1,
The bridge may include: a first bridge extending from one side surrounding the edge rope and in contact with any one of the pair of facing outer membranes; and
and a second bridge extending from the other side surrounding the edge rope and in contact with the other one of the pair of opposing outer membranes,
Tee-shaped joint, characterized in that the first bridge and the second bridge are bonded and fixed.
According to claim 3, wherein the wing,
a first wing integrally extending from the first bridge; and
Tee-shaped joint comprising a second wing integrally extending from the second bridge.
an outer film forming an exterior and comprising a plurality of outer films arranged adjacent to each other along a set trajectory; an inner film disposed under each of the outer films and made up of a plurality of inner films arranged adjacent to each other along a set trajectory; a Tee-shaped joint for connecting the adjacent outer films to each other and connecting the adjacent inner films to contact with each other to simultaneously seal between the neighboring outer films and the adjacent inner films; an insulating space portion formed to be partitioned by the outer film, the inner film, and the T-shaped joint disposed along a predetermined trajectory; and a heat insulating material provided in each of the heat insulating space parts,
The tee-shaped joint may include: a bridge that is in contact with or bonded to each end or each edge of the adjacently opposing outer film, and is disposed under the outer film and is in contact with or bonded to each end or each edge of the adjacently opposed inner film;
a wing extending from the bridge so as to be in contact with an upper surface of each of the outer films and joined to the corresponding outer film; and
an edge rope provided under the bridge to increase the bonding area with the corresponding inner film, and to prevent the bridge from being separated in the upper direction;
Each of the adjacent outer membranes and the wings are joined to each other by an overcoat,
The edge rope is disposed inside the lower part of the bridge by wrapping the bridge,
The lower side of the bridge and the inner film adjacent to the edge rope and facing each other are air dome having heat insulation, characterized in that it is bound together by a binding member.
6. The method of claim 5,
an anti-condensation film provided on the lower side of the inner film to form an anti-condensation space, and a plurality of pieces are disposed along a set trajectory; and
The air dome having thermal insulation properties, comprising a fixing joint for connecting the adjacent anti-condensation film to each other and connecting and fixing the anti-condensation film to the inner film.
7. The method of claim 6,
The air dome having thermal insulation, characterized in that the T-shaped joint and the fixing joint are alternately arranged in the vertical direction.
delete delete 8. The method according to any one of claims 5 to 7,
The heat insulating material provided in the insulating space portion is an air dome having heat insulation, characterized in that it is fixed by a position fixing unit.
11. The method of claim 10, wherein the position fixing unit,
a fixed rope that is in contact with one or both sides of the insulating material, or is inserted into the insulating material;
an insertion hole through each of the T-shaped joints disposed to face each other in the insulating space; and
Provided on both sides along the axial direction of the fixing rope, the air dome having thermal insulation properties comprising a locking member caught on the corresponding T-shaped joint after insertion into the corresponding insertion hole.
A tee-shaped joint forming step of arranging an edge rope at a set position of the makjae spread out in a constant plane, overlapping the edge rope as a reference, and then bonding to form a tee-shaped joint;
An outer film fixing and connecting step of contacting the corresponding outer film of a plurality of outer films to each of the overlapping mak materials of the tee-shaped joint, and bonding each of the mak materials of the tee-shaped joint protruding above the outer film to the corresponding outer film ;
an overcoat construction step of bonding the adjacent outer membrane and each of the mak materials of the T-shaped joint protruding to the upper portion of the outer membrane by using an overcoat;
a part fixing step of disposing a plurality of inner films under the outer film and fixing and connecting one side of the inner film corresponding to the tee-shaped joint of any one of the adjacent tee-shaped joints along a setting direction; and
After supplying an insulating material to the insulating space partitioned by the outer film, the inner film, and the plurality of tee-shaped joints, the other side of the inner film corresponding to the tee-shaped joint of the other one of the adjacent tee-shaped joints along a setting direction A method of constructing an air dome having heat insulation, characterized in that it comprises a step of installing an insulator for fixing and connecting the air domes.
13. The method of claim 12,
Condensation prevention preparation step of providing the Tee-shaped joint or fixing joint between the adjacent inner films along a setting direction, bonding and connecting the adjacent inner films; and
By arranging a plurality of anti-condensation films on the lower side of the inner film, and bonding or binding both sides to the corresponding T-shaped joint or the fixing joint along a setting direction, a condensation preventing space portion is formed between the inner film and the anti-condensation film. A method of constructing an air dome having heat insulation, characterized in that it includes a preventive construction step.

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