CN218622827U - Three-dimensional adjustable supporting structure for mounting special-shaped metal roof - Google Patents

Abstract

The utility model provides a three-dimensional adjustable bearing structure for installation of dysmorphism metal roofing, set up the adjustable changeover mechanism between building the supporting unit and dysmorphism roofing unit including a plurality of intervals, wherein: the adjustable switching mechanism comprises a first switching support shaft, a first switching sleeve, an L-shaped switching plate, a second switching support shaft, a second switching sleeve and a vertical support keel, the lower end of the first switching support shaft is fixed on the building support unit, and the upper end of the first switching support shaft is connected with the L-shaped switching plate through the first switching sleeve which is transversely hinged; one end of the second switching support shaft is connected with the L-shaped switching plate, and the other end of the second switching support shaft is connected with the special-shaped roof unit through the vertical support keel through a second switching sleeve which is longitudinally hinged. The utility model has simple structure and convenient operation, and reduces the manufacturing cost of the equipment; the special-shaped metal roof is used for installing special-shaped metal roofs of high-rise and super high-rise buildings, the safety performance can be ensured, and the quick and convenient installation of special-shaped curtain wall unit bodies is realized.

Description

Three-dimensional adjustable supporting structure for mounting special-shaped metal roof

Technical Field

The utility model relates to a building engineering technical field especially relates to a three-dimensional adjustable bearing structure for installation of special-shaped metal roofing.

Background

In modern building design, the application of the special-shaped metal roof is more and more extensive. The special-shaped metal roof usually comprises an upper layer and a lower layer, an aluminum-magnesium alloy upright lockstitching system is paved on the main steel structure after the main steel structure is completed, a complete waterproof and drainage system is formed, the requirements of moisture resistance, sound insulation and heat insulation are met, the outermost layer is an open aluminum veneer, the color of the aluminum plate is selected in various ways, the aluminum plate has metal texture, and the design intention of an architect can be embodied to the maximum. However, in the design process, most of the special-shaped roofs are irregular hyperboloids and some of the special-shaped roofs are irregular curved surfaces, so that the positioning and the adjustability in actual construction need to be considered, and meanwhile, the construction deviation of the main body steel structure needs to be considered, so that the deviation generated in the construction of the main body steel structure can be absorbed.

In summary, for the construction and installation of the existing special-shaped metal roof and the special-shaped curtain wall, especially some irregular hyperboloid special-shaped roof or special-shaped curtain wall, the three-dimensional adjustment must be considered in the design, and the operability in the actual construction is also considered. In order to better complete the construction of the special-shaped metal roof designed by architects, so as to facilitate the construction, how to provide an installation structure capable of realizing three-dimensional adjustment of a special-shaped roof or a curtain wall has become a technical problem to be solved by those skilled in the art.

SUMMERY OF THE UTILITY MODEL

The utility model discloses the technical problem that will solve is: aiming at the defects of the prior art, the three-dimensional adjustable supporting structure for mounting the special-shaped metal roof is provided, so that the special-shaped metal roof designed by an architect can be better built, and the special-shaped metal roof can be conveniently subjected to three-dimensional adjustment construction.

The utility model discloses a solve above-mentioned technical problem and adopt following technical scheme:

the utility model provides a three-dimensional adjustable bearing structure for installation of dysmorphism metal roofing, set up the adjustable changeover mechanism between building the support unit and dysmorphism roofing unit including a plurality of intervals, wherein: the adjustable switching mechanism comprises a first switching support shaft, a first switching sleeve, an L-shaped switching plate, a second switching support shaft, a second switching sleeve and a vertical support keel, the lower end of the first switching support shaft is fixed on the building support unit, and the upper end of the first switching support shaft is connected with the L-shaped switching plate through the first switching sleeve which is transversely hinged; one end of the second switching support shaft is connected with the L-shaped switching plate, and the other end of the second switching support shaft is connected with the special-shaped roof unit through the second switching sleeve which is hinged in the longitudinal direction and connected with the second switching plate through the vertical support keel.

Preferably, the surface of a plurality of first transfer support shafts is coated with a single undercut roof panel, and the lower ends of the first transfer support shafts are connected with the building support unit through first fasteners.

Preferably, the lower end of the first adapter sleeve is a tubular structure with an opening at the bottom and rotatably sleeved at the top end of the first adapter support shaft, and the upper end of the first adapter sleeve is connected with the vertical section at the lower end of the L-shaped adapter plate in an up-and-down adjustable manner through a second fastener.

Preferably, one end of the second adapter support shaft is connected with the horizontal section at the upper end of the L-shaped adapter plate through a third fastener, and the other end of the second adapter support shaft is hinged and sleeved in the second adapter sleeve.

Preferably, the top of the second adapter sleeve is connected with the vertical support keel through a fourth fastener, and the top end of the vertical support keel is connected with two adjacent special-shaped roof units.

Preferably, the building supporting unit comprises a steel purline and a waterproof heat-insulation layer, wherein the upper end of the steel purline is embedded in the waterproof heat-insulation layer and is connected with the lower end of the first transfer supporting shaft.

Preferably, a first connecting frame and a pressing plate are respectively arranged between the two left and right adjacent special-shaped roof units, wherein:

the two first connecting frames are arranged in a bilateral symmetry mode, and the upper ends of the two first connecting frames are respectively connected with the corresponding special-shaped roof units through fifth fasteners;

the pressing plate is in an inverted U shape, two ends of the pressing plate are respectively connected with the lower end of the first connecting frame in a buckling mode, and the middle of the pressing plate is connected with the vertical supporting keel through a sixth fastening piece.

Preferably, the cross section of the first connecting frame is of a C-shaped structure, the top of the first connecting frame is provided with a first clamping groove with an upward opening, and the bottom of the first connecting frame is provided with a clamping block which is arranged upwards.

Preferably, a second connecting frame and a third connecting frame are respectively arranged between the two front and back adjacent special-shaped roof units, wherein:

the upper end of the second connecting frame is connected with the special-shaped roof unit on one side through a seventh fastening piece, and the lower end of the second connecting frame is connected with the middle part of the third connecting frame through an eighth fastening piece; and

the upper end of the third connecting frame is connected with the special-shaped roof unit on the other side through a seventh fastener, and the lower end of the third connecting frame is connected with the top of the vertical supporting keel in an abutting mode.

Preferably, a first connecting plate which is horizontally arranged is arranged at the lower end of the inner side wall of the second connecting frame, and a second clamping groove is formed in the top of the end of the inner side of the first connecting plate; and

the middle part and the lower extreme of third connecting frame inside wall are provided with horizontally arranged second connecting plate and butt joint board respectively, the medial extremity top of second connecting plate is provided with the third draw-in groove.

The utility model adopts the above technical scheme, compare with prior art, have following technological effect:

the utility model provides a three-dimensional adjustable supporting structure for special-shaped metal roofing installation, through installing a plurality of adjustable switching mechanisms between the building supporting unit of the special-shaped roofing unit of surface and bottom, adjustable switching mechanism has two-way regulatory function and height control function, can adjust the inclination around and about special-shaped roofing unit and its mounting height in a flexible way, realize the purpose of three-dimensional adjustment; the three-dimensional adjustable supporting structure is simple in structure and convenient to operate, and the manufacturing cost of equipment is reduced; the special-shaped metal roof is used for mounting special-shaped metal roofs of high-rise and super high-rise buildings, the safety performance can be ensured, and the quick and convenient mounting of special-shaped curtain wall unit bodies is realized.

Drawings

Fig. 1 is a schematic cross-sectional structural view of a three-dimensional adjustable supporting structure for mounting a special-shaped metal roof according to the present invention;

fig. 2 is a schematic view of a partially enlarged structure of a portion a of a three-dimensional adjustable supporting structure for mounting a special-shaped metal roof according to the present invention;

fig. 3 is a schematic view of an assembly structure of two first connecting frames and a pressing plate in the three-dimensional adjustable supporting structure for mounting a special-shaped metal roof according to the present invention;

fig. 4 is a schematic view of a partially enlarged structure of a portion B of a three-dimensional adjustable supporting structure for mounting a special-shaped metal roof according to the present invention;

fig. 5 is a schematic longitudinal sectional view of the three-dimensional adjustable supporting structure for mounting a special-shaped metal roof according to the present invention;

fig. 6 is a schematic view of a partially enlarged structure of a portion C of a three-dimensional adjustable supporting structure for mounting a special-shaped metal roof according to the present invention;

fig. 7 is a schematic view of an assembly structure of a second connection frame and a third connection frame in the three-dimensional adjustable supporting structure for mounting a special-shaped metal roof according to the present invention;

fig. 8 is a schematic view of the local enlarged structure of the part D in the three-dimensional adjustable supporting structure for mounting special-shaped metal roof.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the 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.

In some embodiments, as shown in fig. 1 and 5, a three-dimensional adjustable supporting structure for installation of a special-shaped metal roof is provided, and the three-dimensional adjustable supporting structure mainly comprises a plurality of adjustable adapter mechanisms 300, wherein the plurality of adjustable adapter mechanisms 300 are arranged between the building supporting unit 100 and the special-shaped roof unit 200 at intervals and are used for erecting the special-shaped roof unit 200 on the building supporting unit 100 according to a certain curved surface. The three-dimensional adjustment of the special-shaped roof unit 200 is realized through the adjustable adapter mechanism 300, and meanwhile, the operability in construction is met.

Specifically, as shown in fig. 1, 4, 5 and 8, the adjustable adapter mechanism 300 mainly includes a first adapter support shaft 301, a first adapter sleeve 304, an L-shaped adapter plate 306, a second adapter support shaft 308, a second adapter sleeve 309 and a vertical support keel 311.

The cross section of the first transfer support shaft 301 is of an inverted-T-shaped structure, two ends of a lower end transverse section of the first transfer support shaft are fixedly mounted on the building support unit 100 through fasteners respectively, the cross section of the top end of the first transfer support shaft is of an umbrella-shaped structure, the top of the umbrella-shaped structure is of a spherical surface, a circularly arranged single undercut roof panel 302 is not coated on the surface of the umbrella-shaped structure, and the top end of the first transfer support shaft 301 and the single undercut roof panel 302 coated outside the first transfer support shaft form a transfer shaft matched with the first transfer sleeve 304.

The upper end of the adapter shaft is connected to the L-shaped adapter plate 306 via the first adapter sleeve 304 which is hinged transversely. Specifically, an adapter shaft composed of a first adapter support shaft 301 and a single undercut roof panel 302 wrapped outside the first adapter support shaft is hinged to a hinge sleeve at the lower end of a first adapter sleeve 304, the first adapter sleeve 304 can be turned left and right by taking the adapter shaft as a hinge point, the angle of left and right turning relative to the vertical direction is 0-60 degrees, and the top end of the adjustable adapter mechanism 300 can be turned left and right to a specified angle as required. The upper end of the first adapter sleeve 304 is adjustably connected with the lower end of the L-shaped adapter plate 306, that is, the height of the L-shaped adapter plate 306 is adjustable.

As shown in fig. 5, the first adapter sleeve 304 is composed of two oppositely arranged spoon-shaped plates, the lower ends of the spoon-shaped plates are semi-annular spoon-shaped sleeves, and the two oppositely arranged spoon-shaped sleeves form a hinge sleeve which is rotatably sleeved on the adapter shaft. A plurality of rectangular waist holes are formed in the vertical plate at the lower end of the L-shaped adapter plate 306 and are vertically arranged, the upper end of the first adapter sleeve 304 penetrates through the rectangular waist holes through the second fastener 305, the lower end of the L-shaped adapter plate 306 is fixed between the upper ends of the two adjacent spoon-shaped plates, and the height of the L-shaped adapter plate 306 can be flexibly adjusted by controlling the second fastener 305 to the characters in the rectangular waist holes.

In some embodiments, as shown in fig. 1, 4, 5 and 8, a horizontal segment of the other end of the L-shaped adapter plate 306 is fixedly connected to one end of a second adapter support shaft 308, and the other end of the second adapter support shaft 308 is connected to the second adapter sleeve 309 through a longitudinal hinge, so that the second adapter sleeve 309 can be turned back and forth with the second adapter support shaft 308 as an interface point, the angle of turning back and forth with respect to the vertical direction is 0-60 °, and the top end of the adjustable adapter mechanism 300 can be turned back and forth to a designated angle as required.

The bottom of the lower end of the second adapter support shaft 308 is a hollow tubular structure, and is rotatably sleeved on the second adapter support shaft 308. The upper end of the second switching support shaft 308 is flat, and is connected with the bottom of the vertical support keel 311 through a fastener, and the top of the vertical support keel 311 is connected with the special-shaped roof unit 200 through a fastener, so as to support the special-shaped roof unit 200 at a certain inclination angle.

In some of these embodiments, as shown in fig. 1 and 5, a single undercut roof panel 302 is laid on the surface of the building support unit 100, and the single undercut roof panel 302 is clad on the surface of a plurality of said first adaptor support shafts 301 to form a single undercut structure which is convex upwards as shown and can be fitted with said first adaptor sleeve 304. The single undercut roof panel 302 is a 0.8mm thick single undercut aluminum alloy roof panel.

The cross section of the first switching support shaft 301 is in a T-shaped structure, and two ends of the lower end of the first switching support shaft are fixedly mounted on the galvanized steel plate in the building support unit 100 through first fasteners 303 respectively. And a gasket is arranged at the bottom of the first transfer support shaft 301, and the first fastener 303 adopts a stainless steel screw.

In some embodiments, as shown in fig. 5, the lower end of the first adapter sleeve 304 is a tubular structure with an open bottom and rotatably sleeved on the top end of the first adapter support shaft 301, as described above, the first adapter sleeve 304 is composed of two oppositely arranged spoon-shaped plates, the lower end of the spoon-shaped plate is a semi-annular spoon-shaped sleeve, and the two oppositely arranged spoon-shaped sleeves form a hinge sleeve rotatably sleeved on the adapter shaft.

Through the long waist hole formed at the lower end of the L-shaped adapter plate 306, the upper end of the first adapter sleeve 304 can be vertically adjusted and connected with the vertical section at the lower end of the L-shaped adapter plate 306 through a second fastener 305, and the second fastener 305 adopts a stainless steel bolt.

In some embodiments, as shown in fig. 5 and 8, one end of the second adapter support shaft 308 is connected to the horizontal section at the upper end of the L-shaped adapter plate 306 by a third fastener 307, and the other end of the second adapter support shaft 308 is hinged and sleeved in the second adapter sleeve 309, so that the second adapter sleeve 309 can be turned back and forth by using the second adapter support shaft 308 as a hinge point, and the turning angle relative to the vertical direction is 0-60 °.

The L-shaped adapter plate 306, the second adapter support shaft 308, and the second adapter sleeve 309 are made of stainless steel, and the third fastener 307 is a stainless steel bolt.

In some embodiments, as shown in fig. 1, 4, 5 and 8, the top of the second adapter sleeve 309 is a plate-shaped structure, which is connected to the bottom of the vertical support keel 311 through a plurality of fourth fasteners 310, and the top of the vertical support keel 311 is connected to two adjacent special-shaped roof units 200.

In some embodiments, as shown in fig. 1 and 5, the building supporting unit 100 mainly includes a steel purlin and a waterproof heat-insulating layer 101, wherein an upper end of the steel purlin is embedded in the waterproof heat-insulating layer 101 and connected to a lower end of the first joint supporting shaft 301. The steel purlines are galvanized steel plates and are fixedly connected with the bottoms of the first transfer support shafts 301 through screws.

In some embodiments, as shown in fig. 1, 2 and 3, two left and right adjacent profiled roof units 200 are connected together by a first connecting frame 201 and a pressing plate 203 in a snap-fit manner.

The number of the first connecting frames 201 is two, the two first connecting frames 201 are arranged in a bilateral symmetry manner, and the two first connecting frames 201 are respectively and fixedly installed on the left side wall and the right side wall of the special-shaped roof unit 200.

Specifically, the upper end of the first connecting frame 201 is connected to the corresponding special-shaped roof unit 200 through a plurality of fifth fasteners 202, and the fifth fasteners 202 are stainless steel screws or bolts. The pressing plate 203 is in an inverted U shape, two ends of the pressing plate are respectively connected with the lower end of the first connecting frame 201 in a buckling mode, and the middle of the pressing plate is connected with the vertical support keel 311 through a sixth fastener 204.

Specifically, the cross section of first link frame 201 is C style of calligraphy structure, and its top is provided with first draw-in groove 2011 that the opening is up, the tip of dysmorphism roofing unit 200 is buckled downwards and is inlayed and establish in first draw-in groove 2011, and the tip at first link frame 201 bottom one end is provided with the fixture block 2012 that upwards protrusion was arranged.

Correspondingly, the end parts of the two ends of the pressing plate 203 are respectively provided with a clamping strip 2031 which protrudes downwards, the clamping strip 2031 is connected with the clamping block 2012 in a clamping manner, the middle part of the pressing plate 203 is provided with a through hole for penetrating a sixth fastening piece 204, and the sixth fastening piece 204 is made of stainless steel screws.

In some embodiments, as shown in fig. 5, 6 and 7, two adjacent front and back profiled roof units 200 are fixedly connected together by using a second connecting frame 205 and a third connecting frame 206, the second connecting frame 205 is installed on the profiled roof unit 200 on one side, the third connecting frame 206 is installed on the profiled roof unit 200 on the other side, and the second connecting frame 205 and the third connecting frame 206 are made of aluminum alloy or stainless steel.

The upper end of the second connecting frame 205 is connected to the special-shaped roof unit 200 on one side by a seventh fastening member 207, and the lower end is connected to the middle of the third connecting frame 206 by an eighth fastening member 208. The upper end of the third connecting frame 206 is connected to the special-shaped roof unit 200 on the other side through a seventh fastener 207, and the lower end of the third connecting frame is connected to the top of the vertical supporting keel 311 in an abutting manner. The seventh fastener 207 and the eighth fastener 208 are stainless steel bolts or stainless steel screws.

As one preferred embodiment, the second connection frame 205 has a square tube structure, a first connection plate 2051 is horizontally arranged at the lower end of the inner side wall of the square tube structure, a second clamping groove 2052 is arranged at the top of the inner end of the first connection plate 2051, and a through hole is formed at the outer end of the first connection plate. The upper part of the inner side wall of the second connecting frame 205 is fixed on the side wall of the special-shaped roof unit 200 on one side through a plurality of seventh fasteners 207, and the end part of the special-shaped roof unit 200 is bent downwards and embedded in the second clamping groove 2052.

The main body of the third connecting frame 206 is a square tube structure, the middle part and the lower end of the inner side wall of the main body are respectively provided with a second connecting plate 2061 and an abutting plate 2063 which are horizontally arranged, and the top of the inner side end of the second connecting plate 2061 is provided with a third clamping groove 2062. The outer end of the second connecting plate 2061 is provided with a through hole. The upper part of the inner side wall of the third connecting frame 206 is fixed on the side wall of the special-shaped roof unit 200 on the other side through a plurality of seventh fasteners 207, and the end part of the special-shaped roof unit 200 is bent downwards and embedded in the second clamping groove 2052.

The utility model provides a three-dimensional adjustable bearing structure for installation of special-shaped metal roofing, through the interconnecting link at first adapter sleeve 304 and single undercut roof boarding 302 top, can make second adapter sleeve 309 rotate about as required to appointed angle, through L type adapter plate 306 with first adapter sleeve 304 through second adapter support shaft 308 with second adapter sleeve 309 link to each other simultaneously, vertical support fossil fragments 311 are fixed on second adapter sleeve 309, second adapter sleeve 309 is rotatable, make second adapter sleeve 309 rotate to the assigned position around as required; and the L-shaped adapter plate 306 is adjustable in the height direction through the waist hole formed in the L-shaped adapter plate, so that the installation coordinate point can be determined according to the three-dimensional coordinate in three directions through the adjustable adapter mechanism 300, and the requirement of three-dimensional adjustment of the special-shaped roof unit 200 in actual construction is met.

The points to be finally explained are: first, in the description of the present application, it should be noted that, unless otherwise specified and limited, the terms "mounted," "connected," and "connected" should be understood broadly, and may be a mechanical connection or an electrical connection, or a communication between two elements, and may be a direct connection, and "upper," "lower," "left," and "right" are only used to indicate a relative positional relationship, and when the absolute position of the object to be described is changed, the relative positional relationship may be changed;

secondly, in the drawings of the disclosed embodiments of the present invention, only the structures related to the disclosed embodiments are referred to, and other structures can refer to common designs, and under the condition of no conflict, the same embodiment and different embodiments of the present invention can be combined with each other;

finally, the above description is only a preferred embodiment of the present invention and should not be taken as limiting the invention, and any modifications, equivalents, improvements and the like made within the spirit and principles of the present invention should be included in the protection scope of the present invention.

Claims (10)

1. The utility model provides a three-dimensional adjustable bearing structure for installation of dysmorphism metal roofing which characterized in that includes that a plurality of intervals set up the adjustable changeover mechanism between building supporting element and dysmorphism roofing unit, wherein: the adjustable switching mechanism comprises a first switching support shaft, a first switching sleeve, an L-shaped switching plate, a second switching support shaft, a second switching sleeve and a vertical support keel, the lower end of the first switching support shaft is fixed on the building support unit, and the upper end of the first switching support shaft is connected with the L-shaped switching plate through the first switching sleeve which is transversely hinged; one end of the second switching support shaft is connected with the L-shaped switching plate, and the other end of the second switching support shaft is connected with the special-shaped roof unit through the second switching sleeve which is hinged in the longitudinal direction and connected with the second switching plate through the vertical support keel.

2. The three-dimensional adjustable supporting structure for special-shaped metal roof installation according to claim 1, wherein the surfaces of a plurality of first junction supporting shafts are coated with single undercut roof panels, and the lower ends of the first junction supporting shafts are connected with the building supporting units through first fasteners.

3. The three-dimensional adjustable supporting structure for special-shaped metal roof installation according to claim 1, wherein the lower end of the first adapter sleeve is a tubular structure with an opening at the bottom and is rotatably sleeved at the top end of the first adapter support shaft, and the upper end of the first adapter sleeve is vertically connected with the vertical section of the lower end of the L-shaped adapter plate through a second fastener in an adjustable manner.

4. The three-dimensional adjustable supporting structure for mounting the special-shaped metal roof as claimed in claim 1, wherein one end of the second switching supporting shaft is connected with the horizontal section at the upper end of the L-shaped adapter plate through a third fastener, and the other end of the second switching supporting shaft is hinged and sleeved in the second switching sleeve.

5. The three-dimensional adjustable supporting structure for special-shaped metal roof installation according to claim 1, wherein the top of the second adapter sleeve is connected with the vertical supporting keel through a fourth fastener, and the top end of the vertical supporting keel is connected with two adjacent special-shaped roof units.

6. The three-dimensional adjustable supporting structure for mounting of the special-shaped metal roof as claimed in claim 1, wherein the building supporting unit comprises a steel purlin and a waterproof heat-preservation and thermal-insulation layer, wherein the upper end of the steel purlin is embedded in the waterproof heat-preservation and thermal-insulation layer and is connected with the lower end of the first transfer supporting shaft.

7. The three-dimensional adjustable supporting structure for mounting of the special-shaped metal roof as claimed in claim 1, wherein a first connecting frame and a pressing plate are respectively arranged between two left and right adjacent special-shaped roof units, wherein:

the two first connecting frames are arranged in a bilateral symmetry mode, and the upper ends of the two first connecting frames are respectively connected with the corresponding special-shaped roof units through fifth fasteners;

the pressing plate is of an inverted U shape, two ends of the pressing plate are respectively connected with the lower end of the first connecting frame in a buckling mode, and the middle of the pressing plate is connected with the vertical supporting keel through a sixth fastening piece.

8. The three-dimensional adjustable supporting structure for mounting the special-shaped metal roof as claimed in claim 7, wherein the cross section of the first connecting frame is in a C-shaped structure, the top of the first connecting frame is provided with a first clamping groove with an upward opening, and the bottom of the first connecting frame is provided with a clamping block arranged upwards.

9. The three-dimensional adjustable supporting structure for special-shaped metal roof installation according to claim 1, wherein a second connecting frame and a third connecting frame are respectively arranged between two adjacent special-shaped roof units in front and back, wherein:

the upper end of the second connecting frame is connected with the special-shaped roof unit on one side through a seventh fastening piece, and the lower end of the second connecting frame is connected with the middle part of the third connecting frame through an eighth fastening piece; and

the upper end of the third connecting frame is connected with the special-shaped roof unit on the other side through a seventh fastener, and the lower end of the third connecting frame is connected with the top of the vertical supporting keel in an abutting mode.

10. The three-dimensional adjustable supporting structure for special-shaped metal roof installation according to claim 9, wherein a first connecting plate arranged horizontally is arranged at the lower end of the inner side wall of the second connecting frame, and a second clamping groove is formed in the top of the inner end of the first connecting plate; and

the middle part and the lower extreme of third connecting frame inside wall are provided with horizontally arranged second connecting plate and butt joint board respectively, the medial extremity top of second connecting plate is provided with the third draw-in groove.

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