CN217379531U - Adjustable theme park complex tile-hanging sloping roof system based on BIM technology - Google Patents

Abstract

The utility model discloses a complicated tile-hanging pitched roof system in adjustable theme park based on BIM technique through the deepening BIM model of final definite, establishes the platoon picture of adjustable tile-hanging pitched roof system. The adjustable tile hanging roof system comprises a metal roof board base layer, adjustable keels, embedded rock wool heat insulation boards, hard lining boards, fully-adhered TPO waterproof coiled materials, galvanized steel pipe water strips, TPO wrapped water strips, galvanized steel pipe tile hanging strips and pottery clay tiles. Through adjustable fossil fragments system adjustment structure basic unit deviation, through TPO cover strip parcel water guide strip, nailing department increases waterproof sealing paste, increases one waterproof protection again in other words, and to a great extent has reduced the hidden danger of leaking of installation galvanized steel pipe water guide strip in-process.

Description

Adjustable theme park complex tile-hanging sloping roof system based on BIM technology

Technical Field

The utility model relates to an architectural decoration technical field, more specifically the utility model relates to a complicated pitched roof system of hanging tiles of adjustable theme park based on BIM technique that says so.

Background

The theme park is different from a common building model, and in order to meet various theme effects and meet the immersive experience requirements, the external facade model is complex and variable, particularly the roof model is variable, particularly a slope roof is in a small range, and the height is fluctuated, and the model is complex. In the field construction of the complex sloping roof, the joint of the ridge line and the shade line of the roof is easy to have the phenomena of slab staggering, warping, water leakage and the like, which always troubles the construction of the sloping roof.

The conventional sloping roof manufacturing method comprises a concrete base layer-wood purlin sloping roof system, a concrete base layer-steel purlin sloping roof system, a profiled steel sheet base layer-steel purlin sloping roof system, a steel profiled steel sheet-wood purlin sloping roof system and the like. The concrete base layer-tile hanging sloping roof has the problems that the construction and the pouring are not easy, the construction embedded ribs are not easy to position and the like when the slope is larger due to the heavy weight of the concrete base layer-tile hanging sloping roof; the pressed steel plate base layer-tile hanging sloping roof system is always easy to have dislocation due to tile hanging strips and pressed steel plate wave crests, and more holes are formed, so that the hidden danger of water leakage is caused, the sloping roof base layer is not easy to be matched with the roof modeling due to higher rigidity, and the problems of dislocation and the like are easily caused at the ridge and the shade line positions.

Wooden purlin tile hanging pitched roof system durability is relatively poor, and rigidity is not big, produces wooden purlin easily in the tile hanging in-process personnel work progress and damages.

The steel purline tile-hanging sloping roof system is high in rigidity, poor in adaptability to modeling, and high in required precision of base layer construction due to the fact that staggered platforms are easily generated at the intersection line position of the sloping roof.

Therefore, in order to solve the defects of the conventional tile hanging type sloping roof system, the characteristics of the complex tile hanging sloping roof of the theme park are combined to establish an adjustable tile hanging sloping roof system, which is a problem to be solved urgently by the technical personnel in the field.

SUMMERY OF THE UTILITY MODEL

In view of this, the utility model provides an adjustable theme park complicated tile-hanging pitched roof system based on BIM technique aims at solving above-mentioned technical problem.

In order to realize the purpose, the utility model adopts the following technical scheme:

an adjustable theme park complex tile hanging sloping roof system based on a BIM technology is characterized in that the BIM technology and/or a 3D printing technology are/is used for constructing the adjustable tile hanging roof system on the top surface of a metal roof board base layer; the adjustable tile roof system includes:

the keel can be adjusted; the number of the adjustable keels is multiple, and the adjustable keels are all fixed on the top surface of the metal roof board base layer and can realize height adjustment; hydrophobic heat-insulating cotton is filled and embedded among the plurality of adjustable keels;

a hard liner plate; the hard lining plate is arranged on the top surfaces of the adjustable keel and the hydrophobic heat-insulation cotton; a TPO waterproof layer is attached to the top surface of the hard lining plate;

keel of the water-flowing strip; the water-flowing strip keel is arranged on the TPO waterproof layer and corresponds to the length direction of the adjustable keel; the water-flowing strip keel is coated with TPO covering strips, and the TPO covering strips are fixedly bonded with the TPO waterproof layer;

hanging the batten keel; the batten keels are arranged on the water-flowing strip keels and are vertically staggered with the water-flowing strip keels; positioning nails are punched on the batten keels and penetrate through the water-flowing strip keels, the hard lining plates and the adjustable keels downwards in sequence; waterproof sealing paste is coated at the positions where the TPO waterproof layer and the TPO covering strip are positioned and the positioning nail is perforated;

a facing layer; the surface tile layer is fixed on the batten keel.

Through the technical scheme, the utility model discloses based on BIM technical assistance, optimize the way of hanging the tile pitched roof at the design stage, select suitable structural basic unit and corresponding building system model; further adjusting a structure BIM model and a building BIM model system through deep design and BIM collision inspection; fossil fragments system adjustment structure basic unit deviation through adjustable type, through TPO cover strip parcel water guiding strip, nailing department increases waterproof sealing paste, increases one waterproof protection again in other words, and to a great extent has reduced the hidden danger of leaking of installation water guiding strip in-process.

Additional TPO cover strip is followed length direction and is carried out the four sides cladding to the water strip fossil fragments, including cross-section direction upper portion, left part and right part, length direction upper portion, the bottom is uncovered.

Preferably, in the above adjustable theme park complex tile-hanging sloping roof system based on the BIM technology, the adjustable keel comprises an upper supporting member and a lower supporting member, both of which have L-shaped cross sections; one side wall of the upper supporting piece and one side wall of the lower supporting piece are attached to each other, so that the combined cross section of the upper supporting piece and the lower supporting piece is U-shaped, and the other side wall of the upper supporting piece and the other side wall of the lower supporting piece are respectively abutted to the metal roof board base layer and the hard lining board; the side wall that the upper support piece with the lower support piece laminating has evenly seted up a plurality of corresponding vertical slot holes along its length direction, vertical slot hole with the upper support piece with the length direction of lower support piece is perpendicular, and interim fixing bolt passes vertical slot hole fastening the upper support piece with lower support piece. The longitudinal long hole gives a certain adjustable space for the upper supporting piece and the lower supporting piece, and after adjustment is completed, the upper supporting piece and the lower supporting piece are fastened and fixed through the temporary fixing bolt.

Preferably, in the above adjustable theme park complex tile-hanging sloping roof system based on the BIM technology, a plurality of self-tapping nails are uniformly fixed on the side wall where the upper support member and the lower support member are attached to each other. After the temporary fixing bolt is fastened and fixed, the self-tapping screw is driven in, and the stable state of the adjustable keel is achieved.

Preferably, in the complex tile-hanging pitched roof system of the adjustable theme park based on the BIM technology, the plurality of self-tapping nails are arranged in a quincunx shape, so that the stability of the fixed upper supporting piece and the fixed lower supporting piece can be further improved.

Preferably, in the adjustable theme park complex tile-hanging sloping roof system based on the BIM technology, a plastic film is laid on the top surface of the metal roof board base layer, and an air isolation layer is formed between the metal roof board base layer and the hydrophobic heat insulation cotton by the plastic film. The waterproof effect can be improved.

Preferably, in the adjustable theme park complex tile-hanging sloping roof system based on the BIM technology, the tile layer comprises a plurality of clay tiles; the plurality of argil tiles are sequentially arranged in a positive and negative buckling and staggered manner and are fixed on the tile hanging strip keels through self-tapping screws. The clay tiles with the upward bowl openings are fixed on the tile hanging strip keels through the self-tapping screws; and a tile hanging support keel is fixed on the tile hanging strip keel at the position corresponding to the argil tile with the downward bowl opening, and the argil tile with the downward bowl opening is fixed on the tile hanging support keel through the self-tapping screw. Simple structure, stability is strong, and easily the installation is fixed.

Preferably, in the adjustable theme park complex tile hanging sloping roof system based on the BIM technology, cement mortar is filled in an inner cavity formed by a plurality of clay tiles. The proportion of the cement mortar is 1:3, so that the sealing performance can be improved.

Preferably, in the above adjustable theme park complex tile-hanging sloping roof system based on the BIM technology, the water-flowing strip keel, the tile-hanging strip keel and the tile-hanging support keel are all galvanized thin steel pipes. The cross section dimension of the keel is 25 mm, 25 mm and the thickness of the keel is 1.5 mm, so that the using strength requirement can be met.

Preferably, in the above adjustable theme park complex tile-hanging sloping roof system based on the BIM technology, the tile-hanging support keel and the tile-hanging strip keel are welded and fixed. Easy to install and strong in stability.

The utility model discloses a theory of operation:

(1) in the design stage, the building model of the complex sloping roof is converted into a roof building BIM model and a proper support structure BIM model through the assistance of the BIM technology. And performing collision check on the building and the structure model through a BIM technology to determine a final structure and the building model. The complex sloping roof building construction method system should consider the installation allowable deviation of the structure and should have corresponding adjustable measures.

(2) On the basis of designing the model, the BIM technology is applied to deepen the roof building practice, the supporting structure, other specialties and the like in detail. And (4) carrying out collision check on the deepened model by each professional and carrying out collision check on the deepened model and the deepened model with the original design model. And finding problems in time, adjusting the deepening models, ensuring the accuracy of each professional model, and determining the final deepening map.

(3) An adjustable tile hanging sloping roof system is established based on a BIM model:

and establishing a layout of the adjustable tile hanging sloping roof system through the finally determined deepened BIM model. The adjustable tile hanging roof system comprises a metal roof board base layer, adjustable keels (embedded with rock wool insulation boards), hard lining plates, fully-adhered TPO waterproof coiled materials, galvanized steel pipe water strips, TPO wrapped water strips, galvanized steel pipe tile hanging strips and pottery clay tiles. Through adjustable fossil fragments system adjustment structure basic unit deviation, through TPO cover strip parcel water guide strip, nailing department increases waterproof sealing paste, increases one waterproof protection again in other words, and to a great extent has reduced the hidden danger of leaking of installation galvanized steel pipe water guide strip in-process.

Can know via foretell technical scheme, compare with prior art, the utility model discloses an adjustable theme park complicated string of tile sloping roof system based on BIM technique has following beneficial effect:

1. building models and structural models are built in the design stage by applying the BIM technology, and collision inspection is carried out, so that a building system and a structural foundation are better matched together.

2. And in the deepening design stage, the building system is refined through the BIM technology, the collision inspection is carried out on the building system and the structural model again, the structural model and the building system are adjusted, the final building effect requirement is better met, and the structure deepening drawing and the building system deepening drawing are finally established.

3. After the construction of the basic structure layer is finished, the 3D scanning technology is applied to check the basic roof information and the BIM model, and the position with larger deviation of the basic structure layer is adjusted.

4. The construction process of the complex tile-hanging sloping roof is assisted to bottom crossing through a BIM (building information modeling) model and a 3D (three-dimensional) printing technology, and particularly, bottom crossing is performed aiming at key points and difficult points in the construction process. Due to intuition and detachability, technicians can better understand the whole construction process and key difficult point control points.

5. Through adjustable fossil fragments system, can coordinate the construction deviation of structure foundation on the one hand, on the other hand handles complicated interface more easily, saves the time limit for a project, avoids doing over again.

6. Through optimizing waterproof node, increase TPO cover strip and cover the water strip with the water, reduce the hidden danger of leaking, guarantee roofing waterproof quality.

7. The TPO cover strip is not sealed in the eave department bottom of the water flowing strip, avoids steam to enter the wrapping area and is difficult for scattering out, and after too much accumulation, the expansion occurs at high temperature, and causes the corrosion of the water flowing strip and damages the closed cover strip.

8. In the construction process, the 3D scanning technology and the BIM model are used for synchronous monitoring, each step of procedure on site is monitored and guided, problems are found in time, and final construction quality is guaranteed.

9. The 3D printing technology and the BIM model are used for carrying out technical background of the complex nodes before the construction process, so that technicians and constructors can know about technical key points and difficult points of construction more deeply, the construction quality is guaranteed, and reworking is reduced.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings required to be used in the description of the embodiments or the prior art will be briefly described below, it is obvious that the drawings in the following description are only embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to the provided drawings without creative efforts.

Fig. 1 is a schematic structural view of an adjustable tile-hanging roof system provided by the present invention;

fig. 2 is an enlarged view of a portion of fig. 1 according to the present invention;

fig. 3 is a schematic structural view of an adjustable keel provided by the present invention;

figure 4 is a cross-sectional view of an adjustable keel provided by the present invention;

fig. 5 is a process flow chart provided by the present invention.

Wherein:

1-metal roof boarding basic unit; 2-adjustable keel; 3-hydrophobic heat preservation cotton; 4-hard lining board; 5-TPO waterproof layer; 6-water-flowing strip keel; 7-TPO cover strip; 8-hanging the batten keel; 9-positioning nails; 10-waterproof sealant; 11-a facing tile layer; 12-an upper support; 13-a lower support; 14-longitudinal long hole; 15-temporary fixing bolts; 16-self-tapping screw; 17-an air barrier layer; 18-self-tapping screws; 19-tile hanging support keel; 20-cement mortar.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

Referring to the attached drawings 1 and 2, the embodiment of the utility model discloses an adjustable theme park complex tile hanging sloping roof system based on the BIM technology, which is constructed on the top surface of a metal roof board base layer 1 by the BIM technology and/or the 3D printing technology; the adjustable tile roof system of hanging includes:

the adjustable keel 2; the number of the adjustable keels 2 is multiple, and the adjustable keels 2 are all fixed on the top surface of the metal roof board base layer 1 and can realize height adjustment; hydrophobic heat-insulating cotton 3 is filled and embedded among the adjustable keels 2;

a hard lining plate 4; the hard lining plate 4 is arranged on the top surfaces of the adjustable keel 2 and the hydrophobic heat-preservation cotton 3; the top surface of the hard lining plate 4 is adhered with a TPO waterproof layer 5;

a runner strip keel 6; the water-flowing strip keel 6 is arranged on the TPO waterproof layer 5 and is arranged corresponding to the length direction of the adjustable keel 2; the smooth water strip keel 6 is coated with a TPO covering strip 7, and the TPO covering strip 7 is fixedly bonded with the TPO waterproof layer 5;

hanging batten keels 8; the batten keels 8 are arranged on the water-flowing strip keels 6 and are vertically staggered with the water-flowing strip keels; the tile hanging strip keel 8 is provided with a positioning nail 9, and the positioning nail 9 downwards sequentially penetrates through the water flowing strip keel 6, the hard lining plate 4 and the adjustable keel 2; waterproof sealing paste 10 is coated at the perforation positioning positions of the TPO waterproof layer 5, the TPO covering strip 7 and the positioning nail 9;

a facing layer 11; the facing layer 11 is fixed on the batten keel 8.

Referring to fig. 3 and 4, the adjustable keel 2 includes an upper support member 12 and a lower support member 13, both of which are L-shaped in cross-section; one side wall of the upper supporting piece 12 and one side wall of the lower supporting piece 13 are attached to form a U-shaped cross section after combination, and the other side wall of the upper supporting piece 12 and the other side wall of the lower supporting piece 13 are respectively abutted with the metal roof board base layer 1 and the hard lining board 4; the side wall of the upper support 12 and the lower support 13 is evenly provided with a plurality of corresponding longitudinal long holes 14 along the length direction, the longitudinal long holes 14 are perpendicular to the length direction of the upper support 12 and the lower support 13, and the temporary fixing bolt 15 passes through the longitudinal long holes 14 to fasten the upper support 12 and the lower support 13.

In order to further optimize the technical scheme, a plurality of self-tapping screws 16 are uniformly fixed on the attached side wall of the upper support 12 and the lower support 13.

In order to further optimize the above technical solution, the plurality of self-tapping nails 16 are arranged in a quincunx shape.

In order to further optimize the technical scheme, a plastic film is laid on the top surface of the metal roof board base layer 1, and an air isolation layer 17 is formed between the metal roof board base layer 1 and the hydrophobic heat insulation cotton 3 by the plastic film.

In order to further optimize the technical scheme, the surface tile layer 11 comprises a plurality of clay tiles; the plurality of clay tiles are sequentially arranged in a positive and negative buckling and staggered manner and are fixed on the batten keel 8 through self-tapping screws 18.

In order to further optimize the technical scheme, the clay tiles with upward bowl openings are fixed on the tile hanging strip keels 8 through self-tapping screws 18; a tile hanging supporting keel 19 is fixed on the tile hanging strip keel 8 corresponding to the bowl mouth downward argil tile, and the bowl mouth downward argil tile is fixed on the tile hanging supporting keel 19 through a self-tapping screw 18.

In order to further optimize the above technical solution, the inside cavity formed by a plurality of clay tiles is filled with cement mortar 20.

In order to further optimize the technical scheme, the water-flowing strip keel 6, the tile hanging strip keel 8 and the tile hanging support keel 19 are all galvanized thin steel pipes.

In order to further optimize the technical scheme, the tile hanging support keel 19 and the tile hanging strip keel 8 are fixedly welded.

Referring to fig. 5, the site construction is guided according to the final deepening drawing. And simultaneously, the BIM technology and the 3D printing technology are applied to assist construction. And decomposing the complex sloping roof according to various specialties by using a BIM technology to guide field construction. The installation process of the adjustable keel system is as follows:

s1, numbering the adjustable keels 2 according to the typesetting drawing of the deepened BIM model in a processing plant, carrying out primary shaping, and fixing the temporary fixing bolts 15;

s2, retesting the profiled steel sheet base layer by applying a 3D scanning technology, synchronizing retest data into the BIM model for rechecking, and adjusting the part with large deviation;

s3, after the preliminary shaping keel is transported to the site, installing the preliminary shaping keel according to a common keel system;

s4, after the installation is finished, retesting by using a 3D scanning technology, synchronizing retesting data to the BIM model for rechecking, and adjusting the adjustable keel 2 according to a retesting result;

s5, after the adjustment is finished, the adjustable keel 2 is permanently fixed by using the tapping screw 16; the self-tapping nails 16 are arranged in a quincunx shape, and the distance between the self-tapping nails is 300 mm;

s6, paving hydrophobic heat-insulating cotton 3 in the gap of the adjustable keel 2 according to the thickness required by the building;

s7, paving a hard lining plate 4 on the upper part of the keel layer;

s7, fully paving TPO waterproof rolls on the upper part of the hard lining plate 4;

s8, paving a water-flowing strip keel 6 made of a galvanized steel pipe on the upper part;

s9, four-side coating is carried out on the water-flowing strip keel 6 along the length direction by using an additional TPO covering strip 7 (the upper part, the left part and the right part of the cross section direction are coated, and the upper part and the bottom part of the length direction are opened), a layer of waterproof protection is added, and the hidden danger of roof water leakage is solved;

s10, paving a transverse batten keel 8 on the upper part of the water-flowing strip keel 6, and fixing the batten keel 8 and the water-flowing strip keel 6 to be connected with the adjustable keel 2 through nailing; before nailing, smearing waterproof sealing paste 10 at the nailing position;

s11, adding tile hanging support keels 19 on the upper portions of the tile hanging strip keels 8, and connecting the tile hanging support keels through welding;

and S12, after the acceptance is finished, carrying out tile hanging construction.

The embodiments in the present description are described in a progressive manner, each embodiment focuses on differences from other embodiments, and the same and similar parts among the embodiments are referred to each other. The device disclosed by the embodiment corresponds to the method disclosed by the embodiment, so that the description is simple, and the relevant points can be referred to the method part for description.

The previous description of the disclosed embodiments is provided to enable any person skilled in the art to make or use the present invention. Various modifications to these embodiments will be readily apparent to those skilled in the art, and the generic principles defined herein may be applied to other embodiments without departing from the spirit or scope of the invention. Thus, the present invention is not intended to be limited to the embodiments shown herein but is to be accorded the widest scope consistent with the principles and novel features disclosed herein.

Claims (10)

1. An adjustable theme park complex tile hanging sloping roof system based on a BIM technology is characterized in that the adjustable tile hanging roof system is constructed on the top surface of a metal roof board base layer (1) through the BIM technology and/or a 3D printing technology; the adjustable tile roof system includes:

an adjustable keel (2); the number of the adjustable keels (2) is multiple, and the adjustable keels (2) are all fixed on the top surface of the metal roof board base layer (1) and can be adjusted in height; hydrophobic heat-insulating cotton (3) is filled and embedded between the plurality of adjustable keels (2);

a hard liner plate (4); the hard lining plate (4) is arranged on the top surfaces of the adjustable keel (2) and the hydrophobic heat-insulating cotton (3); a TPO waterproof layer (5) is attached to the top surface of the hard lining plate (4);

a water-flowing strip keel (6); the water-flowing strip keel (6) is arranged on the TPO waterproof layer (5) and corresponds to the length direction of the adjustable keel (2); the waterproof strip keel (6) is coated with TPO covering strips (7), and the TPO covering strips (7) are fixedly bonded with the TPO waterproof layer (5);

a batten keel (8); the batten keels (8) are arranged on the water-flowing strip keels (6) and are vertically staggered with the water-flowing strip keels; positioning nails (9) are punched on the batten keels (8), and the positioning nails (9) downwards penetrate through the water-flowing strip keels (6), the hard lining plates (4) and the adjustable keels (2) in sequence; the positions of the TPO waterproof layer (5) and the TPO covering strip (7) and the positioning nail (9) are coated with waterproof sealing paste (10);

a facing layer (11); the surface tile layer (11) is fixed on the batten keel (8).

2. The BIM technology based adjustable theme park complex tile hanging pitched roof system according to the claim 1, characterized by that, the adjustable keel (2) includes the upper support (12) and the lower support (13) with L-shaped cross section; one side wall of the upper supporting piece (12) and one side wall of the lower supporting piece (13) are attached to form a U-shaped cross section after combination, and the other side wall of the upper supporting piece (12) and the other side wall of the lower supporting piece (13) are respectively abutted with the metal roof board base layer (1) and the hard lining plate (4); go up support piece (12) with the lateral wall of lower support piece (13) laminating is evenly seted up a plurality of vertical slot holes (14) that correspond along its length direction, vertical slot hole (14) with go up support piece (12) with the length direction of lower support piece (13) is perpendicular, and interim fixing bolt (15) pass vertical slot hole (14) fastening go up support piece (12) with lower support piece (13).

3. The BIM technology-based adjustable theme park complex tile-hanging pitched roof system according to claim 2, characterized in that a plurality of self-tapping nails (16) are uniformly fixed on the attached side walls of the upper support (12) and the lower support (13).

4. The BIM technology based adjustable theme park complex tile-hanging pitched roof system according to claim 3, characterized in that a plurality of said self-tapping nails (16) are arranged in a quincunx.

5. The BIM technology based adjustable theme park complex tile-hanging pitched roof system according to claim 1, characterized in that the metal roof boarding base layer (1) is covered with a plastic film on top, and the plastic film forms an air isolation layer (17) between the metal roof boarding base layer (1) and the hydrophobic insulation cotton (3).

6. The BIM technology based adjustable theme park complex tile-hanging pitched roof system according to claim 1, characterized in that, the tile layer (11) comprises a plurality of clay tiles; the plurality of clay tiles are sequentially arranged in a positive and negative buckling and staggered manner and are fixed on the tile hanging strip keels (8) through self-tapping screws (18).

7. The BIM technology based adjustable theme park complex tile hanging pitched roof system according to the claim 6, characterized in that, the pottery clay tile with upward bowl mouth is fixed on the tile hanging strip keel (8) by the self-tapping screw (18); and a tile hanging supporting keel (19) is fixed at the position, corresponding to the clay tile, of the tile hanging strip keel (8), with the bowl mouth facing downwards, and the clay tile with the bowl mouth facing downwards is fixed on the tile hanging supporting keel (19) through the self-tapping screw (18).

8. The BIM technology based adjustable theme park complex tile hanging pitched roof system according to the claim 7, characterized in that the inner cavity formed by a plurality of clay tiles is filled with cement mortar (20).

9. The BIM technology based adjustable theme park complex tile hanging pitched roof system according to claim 7, characterized in that, the water flow strip keel (6), the tile hanging strip keel (8) and the tile hanging support keel (19) are all galvanized thin steel pipes.

10. The BIM technology based adjustable theme park complex tile hanging pitched roof system according to claim 7, characterized in that the tile hanging supporting keel (19) is welded and fixed with the tile hanging batten keel (8).

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