CN116397827A - Large-span magnesium aluminum manganese plate roof structure and construction method - Google Patents

Abstract

The invention discloses a magnesium aluminum manganese plate roof structure with a large span and a construction method, and relates to the technical field of house decoration construction. This magnesium aluminum manganese board roof structure and construction method that span is big, can be quick splice each magnesium aluminum manganese board, the operation method convenient and fast of concatenation, and each magnesium aluminum manganese board after the concatenation can be firm together fixed, the difficult circumstances of separation that appears even meet the weather of strong wind, also can not blow away by strong wind for, when needs change magnesium aluminum manganese board, can conveniently dismantle arbitrary magnesium aluminum manganese board.

Description

Large-span magnesium aluminum manganese plate roof structure and construction method

Technical Field

The invention relates to the technical field of house decoration construction, in particular to a magnesium aluminum manganese plate roof structure with a large span and a construction method.

Background

Along with the advantages of light weight, durability and economy of the aluminum-magnesium-manganese plate roof system, the aluminum-magnesium-manganese plate roof system can be widely applied to the construction engineering of China, and compared with the traditional roof, the aluminum-magnesium-manganese plate roof system can effectively lighten the dead weight of the roof system, can replace the traditional reinforced concrete roof plate in the steel structure building, and reduces the consumption of structural steel.

Traditional roof magnesium aluminum manganese board is installed through the mode of concatenation, but the magnesium aluminum manganese board stability after the concatenation is poor, in the weather that runs into strong wind, is scraped away by the wind easily, and when changing magnesium aluminum manganese board, inconvenient dismantlement wherein a certain magnesium aluminum manganese board.

Disclosure of Invention

Aiming at the defects of the prior art, the invention provides a magnesium aluminum manganese plate roof structure with large span and a construction method, and solves the problems of poor stability and inconvenient disassembly of the traditional roof magnesium aluminum manganese plate.

In order to achieve the above purpose, the invention is realized by the following technical scheme: the utility model provides a magnesium aluminum manganese board roof structure that span is big, includes two crossbeams, two the crossbeam is fixed respectively to be set up on two edges of roof, and installs magnesium aluminum manganese board through the bolt between the upper portion of two crossbeams, and the upper portion of magnesium aluminum manganese board is provided with the water launder, and one side of magnesium aluminum manganese board is provided with the constant head tank, and the anterior rotation of opposite side of magnesium aluminum manganese board is provided with the knob, and the opposite side of magnesium aluminum manganese board is inside to be provided with the appearance chamber, and the inside of appearance chamber is provided with the installation setting element.

As a further scheme of the invention: the installation locating piece is including rotating the setting in the inside double-tooth screw rod of holding the chamber and sliding the locating plate of interlude in magnesium aluminium manganese board opposite side, and the outside symmetry of double-tooth screw rod has connect soon two nut cover, and one side of two nut covers all articulates has the regulation pole, and the other end of two regulation poles all articulates in one side of locating plate.

As a further scheme of the invention: the external screw threads of the double-tooth screw rod, which are positioned on the two sides of the center, are opposite to each other, and the two nut sleeves are respectively matched with the two screw threads.

As a further scheme of the invention: the locating plate is matched with the locating groove on one side of the magnesium aluminum manganese plate, so that the locating plate can be just inserted into the locating groove.

As a further scheme of the invention: one side of the locating plate is provided with a sealing gasket which is made of rubber.

As a further scheme of the invention: the front side of crossbeam is provided with the water collecting piece, the water collecting piece is including the water catch bowl, and the water catch bowl is located the front side below of magnesium aluminium manganese board, and the one side bottom of water catch bowl is provided with the outlet, and the lower part of outlet is provided with the drainage piece, and the inside of water catch bowl articulates there is the water guide plate, and the water guide plate downward sloping, and one side of water guide plate is located the position of outlet.

As a further scheme of the invention: the opposite side lower part of water catch bowl runs through slidable mounting and has the pull shaft, and the lower extreme of pull shaft is provided with the second regulating ball, and the upper end of pull shaft is provided with the stopper, and the upper portion of stopper articulates there is the movable rod, and the other end of movable rod articulates in the bottom of water guide plate, and the outside of pull shaft is located the inside position department cover of water catch bowl and is equipped with the second spring, and the both ends of second spring are connected with the inside bottom side of water catch bowl and the bottom of stopper respectively.

As a further scheme of the invention: the water filtering piece comprises a filter screen plate hinged to the bottom of one side of the water outlet and a convex plate fixedly arranged on one side of the water outlet, a limiting cylinder is arranged at the bottom of the convex plate, a limiting shaft is inserted in the limiting cylinder in a sliding mode, the upper end of the limiting shaft is fixedly connected with the inner portion of the upper end of the limiting cylinder through a first spring, an adjusting shaft is hinged to one side of the lower end of the limiting shaft, the other end of the adjusting shaft is hinged to the bottom of the filter screen plate, the first spring is located in the original length, the filter screen plate just seals the bottom of the water outlet, a pull rope is connected to the lower end of the limiting shaft, and a first adjusting ball is connected to the lower end of the pull rope.

A construction method of a large-span magnesium aluminum manganese plate roof, which uses a large-span magnesium aluminum manganese plate during construction, comprises the following steps:

s1, fixing two cross beams on two edges of a roof, and fixing a magnesium-aluminum-manganese plate on the two cross beams through bolts;

s2, then the adjusting knob drives the double-tooth screw rod to rotate, the double-tooth screw rod respectively drives the two nut sleeves to move, and as the thread teeth on the two sides of the center of the outer part of the double-tooth screw rod are opposite to each other, and the two nut sleeves are respectively matched with the two thread teeth, when the double-tooth screw rod rotates, the moving directions of the two nut sleeves are opposite to each other, so that the adjusting rod on the two nut sleeves can drive the positioning plate to move back and forth, when the next magnesium aluminum manganese plate is installed, the positioning plate is moved to the inside of the accommodating cavity, then the next magnesium aluminum manganese plate is fixed on the two cross beams, the side surfaces of the magnesium aluminum manganese plate are attached to the side surfaces of the installed magnesium aluminum manganese plate, the positioning grooves on the magnesium aluminum manganese plate are aligned with the positioning plate, after the alignment, the adjusting knob is continuously adjusted, the positioning plate is clamped in the positioning grooves on the magnesium aluminum manganese plate, the fixing work between the two magnesium aluminum manganese plate can be completed, and then the steps are repeated, and the next magnesium aluminum manganese plate is installed;

s3, when one magnesium aluminum manganese plate needs to be disassembled, the knob is only required to be adjusted, so that the positioning plate leaves the positioning groove on the magnesium aluminum manganese plate, and then the magnesium aluminum manganese plate is taken off.

The invention provides a magnesium aluminum manganese plate roof structure with a large span and a construction method, which have the following beneficial effects compared with the prior art:

1. this magnesium aluminum manganese board roof structure and construction method that span is big, can be quick splice each magnesium aluminum manganese board, the operation method convenient and fast of concatenation, and each magnesium aluminum manganese board after the concatenation can be firm together fixed, the difficult separated condition that appears, even when meetting the weather of strong wind, also can not given the blowing away by strong wind, when needs change magnesium aluminum manganese board, can conveniently dismantle the magnesium aluminum manganese board of arbitrary piece, be convenient for change it.

2. According to the magnesium aluminum manganese plate roof structure with the large span and the construction method, when raining, rainwater can flow into the water collecting tank, and after being filtered by the filter screen plate, the rainwater can flow down towards one position, so that the rainwater can be conveniently collected and utilized, and convenience and rapidness are realized.

3. According to the magnesium aluminum manganese plate roof structure with the large span and the construction method, when more sundries are placed on the water guide plate, a user only needs to stand under an eave to pull the pull shaft, then the pull shaft is loosened, the operation is repeated, the water guide plate can continuously shake under the elasticity of the second spring, the sundries can slide onto the filter screen plate, then the pull rope is pulled, the filter screen plate can be opened, the sundries can be cleaned conveniently, after the sundries are cleaned, the pull rope is loosened, the first spring can reset the filter screen plate, and accordingly rainwater can be filtered continuously.

Drawings

FIG. 1 is a schematic diagram of the structure of the present invention;

FIG. 2 is a schematic structural view of a magnesium aluminum manganese panel according to the present invention;

FIG. 3 is a schematic view of the internal structure of the chamber of the present invention;

FIG. 4 is a schematic view of the structure of the water collecting member of the present invention;

FIG. 5 is a schematic view showing the internal structure of the water collecting tank of the present invention;

fig. 6 is a schematic structural view of the water filter according to the present invention.

In the figure: 1. a cross beam; 2. magnesium aluminum manganese plate; 3. a water flow channel; 4. a positioning groove; 5. a knob; 6. a cavity; 7. installing a positioning piece; 71. a double-flighted screw; 72. a positioning plate; 73. a nut sleeve; 74. an adjusting rod; 75. a sealing gasket; 8. a water collecting member; 81. a water collection tank; 82. a water outlet; 83. a water filter; 831. a screen plate; 832. a convex plate; 833. a limiting cylinder; 834. a limiting shaft; 835. a first spring; 836. an adjusting shaft; 837. a pull rope; 838. a first adjustment ball; 84. a water guide plate; 85. pulling a shaft; 86. a second adjustment ball; 87. a limiting block; 88. a movable rod; 89. and a second spring.

Detailed Description

The following description of the embodiments of the present invention will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present invention, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the invention without making any inventive effort, are intended to be within the scope of the invention.

Referring to fig. 1-6, the present invention provides three technical solutions:

example 1

Referring to fig. 1, in the embodiment of the invention, a magnesium aluminum manganese plate roof structure with a large span comprises two cross beams 1, wherein the two cross beams 1 are respectively and fixedly arranged on two edges of a roof, a magnesium aluminum manganese plate 2 is installed between the upper parts of the two cross beams 1 through bolts, a water flowing groove 3 is arranged at the upper part of the magnesium aluminum manganese plate 2, a positioning groove 4 is arranged at one side of the magnesium aluminum manganese plate 2, a knob 5 is rotatably arranged at the front part of the other side of the magnesium aluminum manganese plate 2, a containing cavity 6 is arranged inside the other side of the magnesium aluminum manganese plate 2, and an installation positioning piece 7 is arranged inside the containing cavity 6.

Referring to fig. 2-3, in the embodiment of the present invention, the installation positioning member 7 includes a double-tooth screw 71 rotatably disposed in the cavity 6 and a positioning plate 72 slidably inserted into the other side of the magnesium aluminum manganese plate 2, two nut sleeves 73 are symmetrically screwed on the outer sides of the double-tooth screw 71, one sides of the two nut sleeves 73 are hinged with adjusting rods 74, the other ends of the two adjusting rods 74 are hinged on one side of the positioning plate 72, the outer sides of the double-tooth screw 71 are opposite to each other, the two nut sleeves 73 are respectively matched with two kinds of screw threads, the positioning plate 72 is matched with a positioning groove 4 on one side of the magnesium aluminum manganese plate 2, so that the positioning plate 72 can be exactly inserted into the positioning groove 4, the two cross beams 1 are fixed on two edges of the roof, then the magnesium aluminum manganese plate 2 is fixed on the two cross beams 1 through bolts, then the adjusting knob 5 drives the double-tooth screw 71 to rotate, the double-tooth screw rod 71 drives the two nut sleeves 73 to move respectively, because the screw teeth of the outer part of the double-tooth screw rod 71 positioned at the two sides of the center are opposite to each other, and the two nut sleeves 73 are respectively matched with the two screw teeth, when the double-tooth screw rod 71 rotates, the moving directions of the two nut sleeves 73 are opposite to each other, so that the adjusting rod 74 on the two nut sleeves 73 drives the positioning plate 72 to move back and forth, when the next magnesium aluminum manganese plate 2 is installed, the positioning plate 72 moves to the inside of the accommodating cavity 6, then the next magnesium aluminum manganese plate 2 is fixed on the two cross beams 1, the side surfaces of the magnesium aluminum manganese plate 2 are attached to the side surfaces of the installed magnesium aluminum manganese plate 2, the positioning grooves 4 on the magnesium aluminum manganese plate 2 are aligned with the positioning plate 72, after alignment, the knob 5 is continuously adjusted, the positioning plate 72 is clamped into the positioning grooves 4 on the magnesium aluminum manganese plate 2, and the fixing work between the two magnesium aluminum manganese plates 2 can be completed, and then repeating the steps, and installing the next magnesium aluminum manganese plate 2, when one magnesium aluminum manganese plate 2 needs to be disassembled, only the knob 5 is needed to be adjusted, so that the positioning plate 72 leaves the positioning groove 4 on the magnesium aluminum manganese plate 2, and then the magnesium aluminum manganese plate 2 is taken out.

Referring to fig. 2-3, in the embodiment of the present invention, a sealing pad 75 is disposed on one side of the positioning plate 72, the sealing pad 75 is made of rubber, and the sealing pad 75 plays a role in sealing.

The second embodiment is different from the first embodiment in that:

referring to fig. 4-5, in the embodiment of the present invention, a water collecting member 8 is disposed on the front side of a beam 1, the water collecting member 8 includes a water collecting tank 81, the water collecting tank 81 is located below the front side of a magnesium aluminum manganese plate 2, a water outlet 82 is disposed at the bottom of one side of the water collecting tank 81, a water filtering member 83 is disposed at the lower part of the water outlet 82, a water guide plate 84 is hinged inside the water collecting tank 81, the water guide plate 84 is inclined downward, one side of the water guide plate 84 is located at the position of the water outlet 82, during raining, rainwater falls onto the magnesium aluminum manganese plate 2, and flows into the water collecting tank 81 from a water flowing tank 3 on the magnesium aluminum manganese plate 2, and because the water guide plate 84 is inclined inside the water collecting tank 81, rainwater flows into the water outlet 82 through the water guide plate 84, and then the water is filtered by the water filter plate 831, so that clean rainwater flows down, and a user can collect and utilize the rainwater.

Embodiment three differs from embodiments one and two in that:

referring to fig. 5, in the embodiment of the present invention, a pull shaft 85 is slidably installed at the lower portion of the other side of the water collecting tank 81, a second adjusting ball 86 is provided at the lower end of the pull shaft 85, a limiting block 87 is provided at the upper end of the pull shaft 85, a movable rod 88 is hinged at the upper portion of the limiting block 87, the other end of the movable rod 88 is hinged at the bottom of the water guiding plate 84, a second spring 89 is sleeved at the inner position of the water collecting tank 81 outside the pull shaft 85, two ends of the second spring 89 are respectively connected with the inner bottom side of the water collecting tank 81 and the bottom of the limiting block 87, when the sundries on the water guiding plate 84 are more, a user stands under the eave, holds the second adjusting ball 86 to pull the pull shaft 85 downwards, under the elasticity of the second spring 89, the movable rod 88 on the limiting block 87 drives the water guiding plate 84 to rotate downwards, at this time, the second spring 89 is in a compressed state, then releases the second adjusting ball 86, the second spring 89 resets the limiting block 87, the movable rod 88 resets the water guiding plate 84, and then repeatedly pulls and releases the second adjusting ball 84, and the sundries on the water guiding plate 84 will not slide down on the eave, and the filter screen 82 is accumulated on the water draining plate 831.

Referring to fig. 6, in the embodiment of the present invention, the water filtering member 83 includes a filtering screen plate 831 hinged to the bottom of one side of the water outlet 82 and a convex plate 832 fixedly disposed on one side of the water outlet 82, a limiting cylinder 833 is disposed at the bottom of the convex plate 832, a limiting shaft 834 is inserted in the limiting cylinder 833 in a sliding manner, an upper end of the limiting shaft 834 and an upper end of the limiting cylinder 833 are fixedly connected through a first spring 835, an adjusting shaft 836 is hinged to one side of a lower end of the limiting shaft 834, the other end of the adjusting shaft 836 is hinged to the bottom of the filtering screen plate 831, the first spring 835 is in an original length, the filtering screen plate 831 just seals the bottom of the water outlet 82, a pull rope 837 is connected to the lower end of the limiting shaft 834, when sundries on the filtering screen plate 831 need to be cleaned, a user stands under the eave, the first adjusting ball 838 pulls the pull rope 837 downwards, the limiting shaft 834 slides downwards under the elasticity of the first spring 835, the adjusting shaft 836 on the limiting shaft 834 drives the filtering screen plate 834 to rotate downwards, the filtering screen plate 836 is hinged to the other end of the filtering screen plate 831, and the filtering screen plate 834 is reset to the first adjusting ball 831 to reset the first adjusting shaft 834 to enable the filtering screen plate 831 to be reset, and then the filtering screen plate 831 is reset to be kept on one side of the filtering screen plate 831.

A construction method of a large-span magnesium aluminum manganese plate roof, which uses a large-span magnesium aluminum manganese plate during construction, comprises the following steps:

s1, fixing two cross beams 1 on two edges of a roof, and then fixing a magnesium-aluminum-manganese plate 2 on the two cross beams 1 through bolts;

s2, afterwards, the adjusting knob 5 drives the double-tooth screw rods 71 to rotate, the double-tooth screw rods 71 respectively drive the two nut sleeves 73 to move, and as the thread teeth on the two sides of the center of the outer part of the double-tooth screw rods 71 are opposite to each other, and the two nut sleeves 73 are respectively matched with the two thread teeth, when the double-tooth screw rods 71 rotate, the moving directions of the two nut sleeves 73 are opposite to each other, so that the adjusting rod 74 on the two nut sleeves 73 can drive the positioning plate 72 to move back and forth, when the next magnesium aluminum manganese plate 2 is installed, the positioning plate 72 is moved to the inside of the accommodating cavity 6, then the next magnesium aluminum manganese plate 2 is fixed on the two cross beams 1, the side surface of the magnesium aluminum manganese plate 2 is attached to the side surface of the installed magnesium aluminum manganese plate 2, and the positioning groove 4 on the magnesium aluminum manganese plate 2 is aligned with the positioning plate 72, after the alignment, the fixing operation between the two magnesium aluminum manganese plates 2 can be completed, and then the above steps are repeated, and the next magnesium aluminum manganese plate 2 is installed;

and S3, when one magnesium aluminum manganese plate 2 needs to be disassembled, only the knob 5 needs to be adjusted, so that the positioning plate 72 leaves the positioning groove 4 on the magnesium aluminum manganese plate 2, and then the magnesium aluminum manganese plate 2 is taken off.

Working principle: the two cross beams 1 are fixed on two edges of a roof, then the magnesium aluminum manganese plate 2 is fixed on the two cross beams 1 through bolts, then the adjusting knob 5 drives the double-tooth screw rods 71 to rotate, the double-tooth screw rods 71 respectively drive the two nut sleeves 73 to move, as the thread teeth of the outer parts of the double-tooth screw rods 71 positioned on two sides of the center are opposite to each other, and the two nut sleeves 73 are respectively matched with the two thread teeth, when the double-tooth screw rods 71 rotate, the moving directions of the two nut sleeves 73 are opposite to each other, the adjusting rod 74 on the two nut sleeves 73 can drive the positioning plate 72 to move back and forth, when the next magnesium aluminum manganese plate 2 is installed, the positioning plate 72 can move into the accommodating cavity 6, then the next magnesium aluminum manganese plate 2 is fixed on the two cross beams 1, and the side surfaces of the magnesium aluminum manganese plate 2 are attached to the side surfaces of the installed magnesium aluminum manganese plate 2, and after the alignment, the positioning groove 4 on the magnesium aluminum manganese plate 2 is aligned, the adjusting knob 5 is continued, the positioning plate 72 is clamped to the magnesium aluminum plate 2, and when the magnesium aluminum manganese plate 2 is installed, and the magnesium aluminum manganese plate 2 is required to be removed from the positioning plate 2, and the magnesium aluminum plate 2 is required to be removed from the positioning plate 2 after the positioning plate 2 is removed;

when raining, rainwater falls onto the magnesium aluminum manganese plate 2, flows into the water collecting tank 81 from the water flowing tank 3 on the magnesium aluminum manganese plate 2, and flows into the water outlet 82 through the water guiding plate 84 because the water guiding plate 84 is obliquely arranged in the water collecting tank 81, and then the rainwater is filtered by the filter screen plate 831, so that clean rainwater flows down, and a user can collect and use the rainwater;

when more sundries are on the water guide plate 84, a user stands under the eave, holds the second adjusting ball 86 to pull the pull shaft 85 downwards, under the elasticity of the second spring 89, the movable rod 88 on the limiting block 87 drives the water guide plate 84 to rotate downwards, at the moment, the second spring 89 is in a compressed state, then the second adjusting ball 86 is loosened, the second spring 89 can reset the limiting block 87, the movable rod 88 can reset the water guide plate 84, and then the second adjusting ball 86 is repeatedly pulled and loosened, so that the water guide plate 84 can continuously shake up and down, and sundries on the water guide plate 84 slide into the water outlet 82 and are accumulated on the filter screen plate 831;

when the sundries on the filter screen plate 831 need to be cleaned, a user stands under the eave, holds the first adjusting ball 838 and pulls the pull rope 837 downwards, the limiting shaft 834 slides downwards under the elasticity of the first spring 835, the adjusting shaft 836 on the limiting shaft 834 drives the filter screen plate 831 to rotate downwards, the sundries on the filter screen plate 831 fall down, the first adjusting ball 838 is loosened after the sundries fall down, the first spring 835 resets the limiting shaft 834, the adjusting shaft 836 on one side of the limiting shaft 834 resets the filter screen plate 831, the filter screen plate 831 plugs the water outlet 82, and rainwater is filtered continuously.

In summary, the invention can quickly splice the magnesium aluminum manganese plates 2, the operation mode of splicing is convenient and quick, the spliced magnesium aluminum manganese plates 2 can be firmly fixed together, the split situation is not easy to occur, the magnesium aluminum manganese plates 2 cannot be blown away by strong wind even in the weather of strong wind, and when the magnesium aluminum manganese plates 2 need to be replaced, any magnesium aluminum manganese plate 2 can be conveniently detached, so that the magnesium aluminum manganese plates can be conveniently replaced;

when raining, rainwater can flow into the water collecting tank 81, and then after being filtered by the filter screen plate 831, the rainwater can flow down towards one position, so that the rainwater can be conveniently collected and utilized, and the rainwater collecting device is convenient and quick.

When the sundries on the water guide plate 84 are more, the user only needs to stand under the eave, pull the pull shaft 85, then loosen the pull shaft 85, repeatedly operate, continuously shake the water guide plate 84 under the elasticity of the second spring 89, enable the sundries to slide onto the filter screen plate 831, then pull the pull rope 837 again, enable the filter screen plate 831 to be opened, facilitate cleaning the sundries, and after cleaning, loosen the pull rope 837, enable the first spring 835 to reset the filter screen plate 831, so that the rainwater can be continuously filtered.

And all that is not described in detail in this specification is well known to those skilled in the art.

Claims (8)

1. The utility model provides a magnesium aluminium manganese board roof structure that span is big, includes two crossbeams (1), its characterized in that: the two cross beams (1) are respectively and fixedly arranged on two edges of a roof, a magnesium aluminum manganese plate (2) is arranged between the upper parts of the two cross beams (1) through bolts, a water flowing groove (3) is arranged on the upper part of the magnesium aluminum manganese plate (2), a positioning groove (4) is arranged on one side of the magnesium aluminum manganese plate (2), a knob (5) is rotatably arranged on the front part of the other side of the magnesium aluminum manganese plate (2), a containing cavity (6) is arranged in the other side of the magnesium aluminum manganese plate (2), and a mounting positioning piece (7) is arranged in the containing cavity (6);

the installation locating piece (7) comprises a double-tooth screw rod (71) which is arranged in the accommodating cavity (6) in a rotating mode and a locating plate (72) which is inserted into the other side of the magnesium aluminum manganese plate (2) in a sliding mode, two nut sleeves (73) are symmetrically screwed on the outer portion of the double-tooth screw rod (71), adjusting rods (74) are hinged to one sides of the two nut sleeves (73), and the other ends of the two adjusting rods (74) are hinged to one side of the locating plate (72).

2. A spanned magnesium aluminum manganese panel roof structure as claimed in claim 1 wherein: the thread teeth of the outer parts of the double-tooth screw rods (71) positioned on two sides of the center are opposite, and the two nut sleeves (73) are respectively matched with the two thread teeth.

3. A spanned magnesium aluminum manganese panel roof structure as claimed in claim 1 wherein: the locating plate (72) is matched with the locating groove (4) on one side of the magnesium aluminum manganese plate (2), so that the locating plate (72) can be just inserted into the locating groove (4).

4. A spanned magnesium aluminum manganese panel roof structure as claimed in claim 3, wherein: one side of the positioning plate (72) is provided with a sealing gasket (75), and the sealing gasket (75) is made of rubber materials.

5. A spanned magnesium aluminum manganese panel roof structure as claimed in claim 1 wherein: the front side of crossbeam (1) is provided with catchment spare (8), catchment spare (8) are including water catch bowl (81), and water catch bowl (81) are located the front side below of magnesium aluminium manganese board (2), and one side bottom of water catch bowl (81) is provided with outlet (82), and the lower part of outlet (82) is provided with drainage spare (83), and the inside of water catch bowl (81) articulates has water guide plate (84), and water guide plate (84) downward sloping, and one side of water guide plate (84) is located the position of outlet (82).

6. A spanned magnesium aluminum manganese panel roof structure as defined in claim 5, wherein: the opposite side lower part of water catch bowl (81) runs through slidable mounting and has pull shaft (85), the lower extreme of pull shaft (85) is provided with second regulating ball (86), and the upper end of pull shaft (85) is provided with stopper (87), the upper portion of stopper (87) articulates there is movable rod (88), the other end of movable rod (88) articulates in the bottom of water guide plate (84), the outside of pull shaft (85) is located the inside position department cover of water catch bowl (81) and is equipped with second spring (89), the both ends of second spring (89) are connected with the inside bottom side of water catch bowl (81) and the bottom of stopper (87) respectively.

7. A spanned magnesium aluminum manganese panel roof structure as defined in claim 5, wherein: the utility model provides a drainage spare (83) including articulated in filter screen board (831) of outlet (82) one side bottom and fixed boss (832) that set up in outlet (82) one side, the bottom of boss (832) is provided with spacing section of thick bamboo (833), the inside slip of spacing section of thick bamboo (833) is interlude has spacing axle (834), through first spring (835) fixed connection between the upper end of spacing axle (834) and the upper end inside of spacing section of thick bamboo (833), the lower extreme one side of spacing axle (834) articulates there is regulating spindle (836), the other end of regulating spindle (836) articulates in the bottom of filter screen board (831), when first spring (835) are in former length, filter screen board (831) just blocks up the bottom of outlet (82), the lower extreme of spacing axle (834) is connected with stay cord (837), the lower extreme of stay cord (837) is connected with first regulating ball (838).

8. A construction method of a magnesium aluminum manganese plate roof with a large span is characterized by comprising the following steps: the large-span magnesium aluminum manganese plate according to any one of claims 1 to 7, which is used in construction, comprises the following steps:

s1, fixing two cross beams (1) on two edges of a roof, and then fixing a magnesium-aluminum-manganese plate (2) on the two cross beams (1) through bolts;

s2, afterwards, the adjusting knob (5) drives the double-tooth screw (71) to rotate, the double-tooth screw (71) respectively drives the two nut sleeves (73) to move, as the thread teeth on the two sides of the center of the double-tooth screw (71) are opposite to each other, and the two nut sleeves (73) are respectively matched with the two thread teeth, when the double-tooth screw (71) rotates, the moving directions of the two nut sleeves (73) are opposite to each other, so that an adjusting rod (74) on the two nut sleeves (73) can drive the positioning plate (72) to move back and forth, when the next magnesium aluminum manganese plate (2) is installed, the positioning plate (72) is moved to the inside of the containing cavity (6), then the next magnesium aluminum manganese plate (2) is fixed on the two cross beams (1), the side surfaces of the installed magnesium aluminum manganese plate (2) are attached, the positioning grooves (4) on the magnesium aluminum manganese plate (2) are aligned with the positioning plate (72), after the aligning, the adjusting knob (74) can continuously adjust the positioning plate (5), and then the two magnesium aluminum manganese plates (2) can be repeatedly installed between the two magnesium aluminum manganese plates (2) to finish the steps;

s3, when one magnesium aluminum manganese plate (2) needs to be detached, the knob (5) is only required to be adjusted, so that the positioning plate (72) leaves the positioning groove (4) on the magnesium aluminum manganese plate (2), and then the magnesium aluminum manganese plate (2) is taken off.

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