CN109179188B - Installation method of transportation and hoisting integrated auxiliary device for oversized special-shaped suspended ceiling unit - Google Patents

Abstract

The invention provides an installation method of an integrated auxiliary device for transporting and hoisting an oversized special-shaped suspended ceiling unit. The height adjusting rod selects a proper length according to the distance from the veneer of the suspended ceiling to the bottom frame system, so that the auxiliary device is suitable for suspended ceilings with various shapes. Meanwhile, the bottom of the bottom frame is provided with rollers, so that the suspended ceiling unit can move transversely conveniently; the side of bottom frame is provided with the lifting hook, when lifting by crane, and the rope is connected with the lifting hook, through auxiliary device, lifts by crane the atress equivalence for the multiple spot with 4 o 'clock of rope and lifting hook and lifts by crane the atress, has avoided the deformation of super large special-shaped furred ceiling, can guarantee super large special-shaped furred ceiling's safe transportation and lift by crane the installation effectively.

Description

Installation method of transportation and hoisting integrated auxiliary device for oversized special-shaped suspended ceiling unit

Technical Field

The invention relates to an installation method of an integrated auxiliary device for transporting and hoisting an oversized special-shaped suspended ceiling unit.

Background

Along with the large-space building is more and more, the application of the super large special-shaped suspended ceiling with the area larger than 5 square meters is more and more wide in the field of decoration. The transportation and hoisting of such suspended ceilings has been a difficult problem in the engineering world. Due to the particularity of the shape of the suspended ceiling, the suspended ceiling cannot be effectively protected in transportation; after the suspended ceiling is transported to the site, the suspended ceiling is inconvenient to operate, and the risk of damage to the suspended ceiling is increased; in the hoisting process, if the hoisting point is directly arranged on the suspended ceiling framework, the suspended ceiling framework is easy to deform due to overlarge self weight.

Disclosure of Invention

The invention aims to provide an installation method of an integrated auxiliary device for transporting and hoisting an oversized special-shaped suspended ceiling unit, which can solve the problems that the oversized special-shaped suspended ceiling is difficult to transport and inconvenient to hoist and install, and the suspended ceiling is easy to deform and damage by a traditional hoisting method.

In order to solve the problems, the invention provides an installation method of an integrated auxiliary device for transporting and hoisting an oversized special-shaped suspended ceiling unit, which comprises the following steps:

manufacturing a bottom frame, arranging rollers at the bottom of the bottom frame, and symmetrically arranging 4 lifting hooks on the side surface of the bottom frame;

determining the length of each height adjusting rod according to the distance between the facing of the oversized special-shaped ceiling unit and the bottom framework, manufacturing a plurality of height adjusting rods according to the determined length, and connecting the plurality of height adjusting rods on the bottom framework;

the preparation many furred ceilings that are used for erectting super large special-shaped furred ceiling unit are connected the stress pole, are connected every furred ceiling stress pole and the altitude mixture control pole that corresponds.

Further, in the above method, the manufacturing of the bottom chassis includes:

the bottom frame is formed by welding square steel, wherein the shape of the bottom frame is the same as the shape of the vertical projection of the oversized special-shaped ceiling unit on the ground.

Further, in the above method, providing a roller at a bottom of the bottom frame includes:

the bottom of the bottom frame is symmetrically provided with 6-8 rollers.

Further, in the above method, after the manufacturing of the bottom frame, the method further includes:

manufacturing a first connecting piece, wherein the first connecting piece is hollow first square steel, and two ends of the first square steel are respectively provided with a first connecting hole;

making a bottom frame comprising:

arranging a plurality of hollow second square steels at the top end of the bottom frame, and arranging second connecting holes at the top ends of the second square steels;

make many altitude mixture control poles, include:

each height adjusting rod is arranged into a hollow third square steel, the bottom end of the third square steel is provided with a third connecting hole,

connect many altitude mixture control poles on the bottom frame, include:

sleeving the bottom end of the first square steel in the second square steel, aligning a first connecting hole and a second connecting hole at the bottom end of the first square steel, and connecting the bottom end of the first square steel and the second square steel with each other through a first bolt penetrating through the first connecting hole and the second connecting hole at the bottom end of the first square steel;

and sleeving the top end of the first square steel in the third square steel, aligning the first connecting hole and the third connecting hole at the top end of the first square steel, and connecting the top end of the first square steel and the third square steel with each other through a second bolt arranged in the first connecting hole and the third connecting hole at the top end of the first square steel in a penetrating manner.

Further, in the above method, after the connecting the plurality of height adjustment rods to the bottom frame, the method further includes:

and a transverse support is also connected between two adjacent height adjusting rods and is a first angle steel.

Further, in the above method, make many furred ceiling connection stress bars that are used for erectting super large special-shaped furred ceiling unit, connect stress bar and the altitude mixture control pole that corresponds with every furred ceiling and be connected, include:

manufacturing a transverse stress rod piece, wherein the transverse stress rod piece is C-shaped square steel, and two free ends of the C-shaped square steel are connected with the top end of the height adjusting rod;

the manufacturing is connected to the ceiling connecting piece on the transverse stress rod piece, wherein the ceiling connecting piece is second angle steel, one end of the second angle steel is connected with the transverse stress rod piece through a bolt, and the other end of the second angle steel is connected with the back framework of the super-large special-shaped ceiling unit through a bolt.

Further, in the above method, after the plurality of height adjustment bars are manufactured, the method further includes:

manufacturing a second connecting piece, wherein the second connecting piece is hollow fourth square steel, and fourth connecting holes are respectively formed in two ends of the fourth square steel;

manufacturing a transverse stress rod piece, comprising:

a fifth connecting hole is formed in the top end of each C-shaped square steel;

make many altitude mixture control poles, include:

setting each height adjusting rod as hollow third square steel, and setting a sixth connecting hole at the top end of the third square steel;

connect every furred ceiling atress pole and the altitude mixture control pole that corresponds and be connected, include:

sleeving the bottom end of the fourth square steel in the third square steel, aligning a fourth connecting hole and a sixth connecting hole at the bottom end of the fourth square steel, and connecting the bottom end of the fourth square steel and the third square steel with each other through a sixth connecting hole penetrating through the bottom end of the third square steel and a third bolt in the fourth connecting hole;

and sleeving the top end of the fourth square steel in the C-shaped square steel, aligning a fourth connecting hole and a fifth connecting hole at the top end of the fourth square steel, and connecting the top end of the fourth square steel and the C-shaped square steel with each other through a fourth bolt arranged in the fourth connecting hole and the fifth connecting hole at the top end of the fourth square steel in a penetrating manner.

Further, in the above method, the manufacturing of the bottom chassis includes:

and sequentially connecting 8 square frames end to form the bottom frame.

Further, in the above method, the symmetrically arranging 4 hooks on the side of the bottom frame includes:

2 lifting hooks are symmetrically arranged on the side surface of the common connecting end of the second square frame and the third square frame;

and 2 hooks are symmetrically arranged on the side surface of the common connecting end of the sixth square frame and the seventh square frame.

Compared with the prior art, the invention aims at the problems that the transportation of the oversized special-shaped suspended ceiling is difficult, the hoisting and installation are inconvenient, and the deformation and the damage of the suspended ceiling are easily caused by the traditional hoisting method. The auxiliary device comprises a bottom frame, a height adjusting rod and a ceiling connecting stress rod, wherein the height adjusting rod and the ceiling connecting stress rod effectively fix the oversized special-shaped ceiling unit and the bottom frame together, and play a role in protection in the transportation and hoisting processes. The height adjusting rod selects a proper length according to the distance from the veneer of the suspended ceiling to the bottom frame system, so that the auxiliary device is suitable for suspended ceilings with various shapes. Meanwhile, the bottom of the bottom frame is provided with rollers, so that the suspended ceiling unit can move transversely conveniently; the side of bottom frame is provided with the lifting hook, and when lifting by crane, rope and lifting hook are connected, have avoided the deformation of super large special-shaped furred ceiling. The super-large special-shaped ceiling units are erected on the stress-bearing rods for connecting the respective ceilings, so that the auxiliary device and the ceilings are connected in multiple points. When lifting, the lifting rope is connected with the lifting hook, and the 4-point lifting stress of the rope and the lifting hook is equivalent to multi-point lifting stress through the auxiliary device, so that the deformation of the oversized special-shaped ceiling is avoided, and the safe transportation and lifting installation of the oversized special-shaped ceiling can be effectively ensured.

Drawings

Fig. 1 is a structural diagram of an integrated auxiliary device for transporting and hoisting an oversized special-shaped ceiling unit provided with the oversized special-shaped ceiling unit according to an embodiment of the invention;

fig. 2 is a structural diagram of an integrated auxiliary device for transporting and hoisting an oversized special-shaped ceiling unit without the oversized special-shaped ceiling unit;

fig. 3 is an exploded structural view of an integrated auxiliary device for transporting and hoisting an oversized special-shaped ceiling unit according to an embodiment of the invention;

FIG. 4 is a block diagram of a bottom frame of an embodiment of the present invention;

FIG. 5 is a diagram of a roller structure of the bottom frame according to an embodiment of the present invention;

FIG. 6 is a hook block diagram of the side of the bottom frame of one embodiment of the present invention;

fig. 7 is a side view of the integrated auxiliary device for transporting and hoisting the oversized special-shaped ceiling unit provided with the oversized special-shaped ceiling unit according to the embodiment of the invention;

FIG. 8 is an exploded view of the height adjustment bar and bottom frame of one embodiment of the present invention;

FIG. 9 is a schematic view of the attachment of a height adjustment bar to a bottom frame in accordance with an embodiment of the present invention;

FIG. 10 is a schematic view of a transverse force bar according to an embodiment of the present invention;

FIG. 11 is a schematic view of the attachment of a height adjustment bar to a ceiling receiving bar according to one embodiment of the present invention;

FIG. 12 is a schematic view of the attachment of the lateral support of one embodiment of the present invention;

FIG. 13 is a schematic view of the connection of the ceiling connecting stress rods and the oversized special-shaped ceiling unit according to one embodiment of the invention;

fig. 14 is an enlarged schematic view of the connection between the ceiling connection stress rod and the oversized special-shaped ceiling unit according to an embodiment of the invention.

Detailed Description

In order to make the aforementioned objects, features and advantages of the present invention comprehensible, embodiments accompanied with figures are described in further detail below.

As shown in fig. 1 to 14, the invention provides an integrated auxiliary device for transporting and hoisting an oversized special-shaped suspended ceiling unit, which comprises:

the lifting device comprises a bottom frame 1, wherein the bottom of the bottom frame 1 is provided with a roller 2, and the side surface of the bottom frame is symmetrically distributed with 4 lifting hooks 3;

a plurality of height adjustment rods 4 connected to the bottom frame 1;

stress rods 5 are connected to many furred ceilings, and every furred ceiling is connected stress rod 5 and is connected with corresponding altitude mixture control pole 4, and wherein, super large dysmorphism furred ceiling unit 6 erects on each furred ceiling is connected stress rod 5, and every altitude mixture control pole 4's length is confirmed according to the distance of the veneer of super large dysmorphism furred ceiling unit 6 above that apart from bottom frame 1.

The invention aims at the problems that the transportation of an oversized special-shaped suspended ceiling is difficult, the lifting and installation are inconvenient, and the deformation and the damage of the suspended ceiling are easily caused by the traditional lifting method. The auxiliary device comprises a bottom frame, a height adjusting rod and a ceiling connecting stress rod, wherein the height adjusting rod and the ceiling connecting stress rod effectively fix the oversized special-shaped ceiling unit and the bottom frame together, and play a role in protection in the transportation and hoisting processes. The height adjusting rod selects a proper length according to the distance from the veneer of the suspended ceiling to the bottom frame system, so that the auxiliary device is suitable for suspended ceilings with various shapes. Meanwhile, the bottom of the bottom frame is provided with rollers, so that the suspended ceiling unit can move transversely conveniently; the side of bottom frame is provided with the lifting hook, and when lifting by crane, rope and lifting hook are connected, have avoided the deformation of super large special-shaped furred ceiling. The super-large special-shaped ceiling units are erected on the stress-bearing rods for connecting the respective ceilings, so that the auxiliary device and the ceilings are connected in multiple points. When lifting, the lifting rope is connected with the lifting hook, and the 4-point lifting stress of the rope and the lifting hook is equivalent to multi-point lifting stress through the auxiliary device, so that the deformation of the oversized special-shaped ceiling is avoided, and the safe transportation and lifting installation of the oversized special-shaped ceiling can be effectively ensured.

As shown in fig. 1 and 3, in an embodiment of the integrated auxiliary device for transporting and hoisting the oversized special-shaped ceiling unit, the bottom frame 1 is formed by welding square steel, and the shape of the bottom frame 1 is the same as the shape of the vertical projection of the oversized special-shaped ceiling unit 6 on the ground, so that the stability of ceiling transportation and hoisting installation is ensured.

According to the integrated auxiliary device for transporting and hoisting the oversized special-shaped ceiling unit, 6-8 rollers 2 are symmetrically arranged at the bottom of the bottom frame 1, so that the device can conveniently and freely move on the ground integrally.

As shown in fig. 9, in an embodiment of the integrated auxiliary device for transporting and hoisting an oversized special-shaped suspended ceiling unit, the integrated auxiliary device further comprises a first connecting piece 71, the bottom frame 1 is respectively connected with a plurality of height adjusting rods through a plurality of first connecting pieces 71, wherein,

the first connecting piece 71 is a hollow first square steel, and two ends of the first square steel are respectively provided with a first connecting hole 711;

the top end of the bottom frame 1 is provided with a plurality of hollow second square steels, and the top ends of the second square steels are provided with second connecting holes 11;

each height adjusting rod 4 is a hollow third square steel, a third connecting hole 41 is formed in the bottom end of the third square steel, the bottom end of the first square steel is sleeved in the second square steel, a first connecting hole 711 in the bottom end of the first square steel is aligned with a second connecting hole 11, and the bottom end of the first square steel is connected with the second square steel through a first bolt 92 penetrating through the first connecting hole 711 in the bottom end of the first square steel and the second connecting hole 11; the top end of the first square steel is sleeved in the third square steel, the first connecting hole 711 and the third connecting hole 41 at the top end of the first square steel are aligned, and the top end of the first square steel and the third square steel are connected with each other through the second bolt 91 penetrating through the first connecting hole 711 and the third connecting hole 41 at the top end of the first square steel.

The height adjustment lever and the base frame are connected by a connecting element anchor bolt, so that a reliable connection is achieved.

As shown in fig. 12, in an embodiment of the integrated auxiliary device for transporting and hoisting an oversized special-shaped ceiling unit, a transverse support 10 is further connected between two adjacent height adjusting rods 4, and the transverse support 10 is a first angle steel.

Herein, when the length of the required height adjusting rod is more than 1 meter, a transverse support is further connected and arranged between two adjacent height adjusting rods, the transverse support is an angle steel and is connected with the height adjusting rods through bolts so as to enhance the support stability of the height adjusting rods.

As shown in fig. 10, 13 and 14, in an embodiment of the integrated auxiliary device for transporting and hoisting an oversized special-shaped suspended ceiling unit, each suspended ceiling connecting stress rod 5 includes:

the horizontal stress rod piece 51 is C-shaped square steel, and two free ends of the C-shaped square steel are connected with the top end of the height adjusting rod 4;

connect in the furred ceiling connecting piece 52 on the horizontal atress member 51, the furred ceiling connecting piece 52 is the second angle steel, the one end of second angle steel pass through the bolt with horizontal atress member 51 is connected, the other end of second angle steel pass through the bolt with the back frame connection of super large dysmorphism furred ceiling unit 6.

Herein, through C style of calligraphy square steel and second angle steel, realize that the furred ceiling is connected the stress beam and is reliably connected with altitude mixture control pole and furred ceiling respectively.

As shown in fig. 11, in an embodiment of the integrated auxiliary device for transporting and hoisting an oversized special-shaped ceiling unit, the integrated auxiliary device further comprises a second connecting piece 72, two free ends of each C-shaped square steel are respectively connected with the corresponding height adjusting rod 4 through the second connecting piece 72, wherein,

the second connecting piece 72 is made of hollow fourth square steel, and both ends of the fourth square steel are respectively provided with a fourth connecting hole 712;

the top end of each C-shaped square steel 51 is provided with a fifth connecting hole 511;

each height adjusting rod 4 is made of hollow third square steel, a sixth connecting hole 42 is formed in the top end of the third square steel, the bottom end of the fourth square steel is sleeved in the third square steel, a fourth connecting hole 712 and a sixth connecting hole 42 in the bottom end of the fourth square steel are aligned, and the bottom end of the fourth square steel and the third square steel are connected with each other through a sixth connecting hole 42 formed in the bottom end of the third square steel and a third bolt 94 arranged in the fourth connecting hole 712 in a penetrating manner; the top end of the fourth square steel is sleeved in the C-shaped square steel, a fourth connecting hole 712 and a fifth connecting hole 511 at the top end of the fourth square steel are aligned, and the top end of the fourth square steel and the C-shaped square steel are connected with each other through a fourth bolt 93 penetrating through the fourth connecting hole 712 and the fifth connecting hole 511 at the top end of the fourth square steel.

The height adjusting rod and the transverse stress rod piece are connected through the connecting piece anchor bolt, so that reliable connection is achieved.

As shown in fig. 4, in an embodiment of the integrated auxiliary device for transporting and hoisting the oversized special-shaped ceiling unit, the bottom frame is formed by sequentially connecting 8 square frames end to end, so that the stability of the bottom frame is improved.

As shown in fig. 4, in an embodiment of the integrated auxiliary device for transporting and hoisting the oversized special-shaped ceiling unit, 2 lifting hooks 3 are symmetrically distributed on the side surface of the common connecting end of the second square frame and the third square frame; and 2 lifting hooks 3 are symmetrically distributed on the side surfaces of the public connecting ends of the sixth square frame and the seventh square frame so as to improve the stability of the auxiliary device during lifting.

As shown in fig. 1 to 14, the invention also provides an installation method of the transportation and hoisting integrated auxiliary device for the oversized special-shaped ceiling unit, which comprises the following steps:

manufacturing a bottom frame 1, arranging rollers 2 at the bottom of the bottom frame 1, and symmetrically arranging 4 lifting hooks 3 on the side surface of the bottom frame;

determining the length of each height adjusting rod 4 according to the distance between the facing of the oversized special-shaped ceiling unit 6 and the bottom frame, manufacturing a plurality of height adjusting rods 4 according to the determined length, and connecting the plurality of height adjusting rods 4 to the bottom frame 1;

the preparation many furred ceilings that are used for erectting super large special-shaped furred ceiling unit 6 are connected stress pole 5, are connected every furred ceiling stress pole 5 and the altitude mixture control pole 4 that corresponds.

The invention aims at the problems that the transportation of an oversized special-shaped suspended ceiling is difficult, the lifting and installation are inconvenient, and the deformation and the damage of the suspended ceiling are easily caused by the traditional lifting method. The auxiliary device comprises a bottom frame, a height adjusting rod and a ceiling connecting stress rod, wherein the height adjusting rod and the ceiling connecting stress rod effectively fix the oversized special-shaped ceiling unit and the bottom frame together, and play a role in protection in the transportation and hoisting processes. The height adjusting rod selects a proper length according to the distance from the veneer of the suspended ceiling to the bottom frame system, so that the auxiliary device is suitable for suspended ceilings with various shapes. Meanwhile, the bottom of the bottom frame is provided with rollers, so that the suspended ceiling unit can move transversely conveniently; the side of bottom frame is provided with the lifting hook, and when lifting by crane, rope and lifting hook are connected, have avoided the deformation of super large special-shaped furred ceiling. The super-large special-shaped ceiling units are erected on the stress-bearing rods for connecting the respective ceilings, so that the auxiliary device and the ceilings are connected in multiple points. When lifting, the lifting rope is connected with the lifting hook, and the 4-point lifting stress of the rope and the lifting hook is equivalent to multi-point lifting stress through the auxiliary device, so that the deformation of the oversized special-shaped ceiling is avoided, and the safe transportation and lifting installation of the oversized special-shaped ceiling can be effectively ensured.

As shown in fig. 1 and 3, in an embodiment of the installation method of the transportation and hoisting integrated auxiliary device for the oversized special-shaped ceiling unit, the manufacturing of the bottom frame 1 includes:

form by the welding of square steel bottom frame 1, wherein, bottom frame 1's shape with the vertical projection of super large special-shaped furred ceiling unit 6 is the same at the shape on ground to guarantee the furred ceiling transportation and lift by crane the steadiness of installation.

In one embodiment of the installation method of the transportation and hoisting integrated auxiliary device for the oversized special-shaped ceiling unit, the rollers 2 are arranged at the bottom of the bottom frame 1, and the installation method comprises the following steps:

the bottom of the bottom frame 1 is symmetrically provided with 6-8 rollers 2, so that the whole device can freely move on the ground conveniently.

As shown in fig. 9, in an embodiment of the installation method of the transportation and hoisting integrated auxiliary device for the oversized special-shaped ceiling unit, after the bottom frame 1 is manufactured, the method further includes:

manufacturing a first connecting piece 71, wherein the first connecting piece 71 is a hollow first square steel, and two ends of the first square steel are respectively provided with a first connecting hole 711;

making a bottom frame 1 comprising:

the top end of the bottom frame 1 is provided with a plurality of hollow second square steels, and the top ends of the second square steels are provided with second connecting holes 11;

making a plurality of height adjustment rods 4, comprising:

each height adjusting rod 4 is arranged to be hollow third square steel, the bottom end of the third square steel is provided with a third connecting hole 41,

connect many height adjusting rod 4 on bottom frame 1 includes:

sleeving the bottom end of the first square steel into the second square steel, aligning the first connecting hole 711 and the second connecting hole 11 at the bottom end of the first square steel, and connecting the bottom end of the first square steel and the second square steel with each other through a first bolt 92 penetrating through the first connecting hole 711 and the second connecting hole 11 at the bottom end of the first square steel;

the top end of the first square steel is sleeved in the third square steel, the first connecting hole 711 and the third connecting hole 41 at the top end of the first square steel are aligned, and the top end of the first square steel and the third square steel are connected with each other through the first connecting hole 711 and the second bolt 91 in the third connecting hole 41, which are arranged at the top end of the first square steel in a penetrating manner.

The height adjustment lever and the base frame are connected by a connecting element anchor bolt, so that a reliable connection is achieved.

As shown in fig. 12, in an embodiment of the installation method of the integrated transportation and hoisting auxiliary device for the oversized special-shaped ceiling unit, after connecting a plurality of height adjusting rods to the bottom frame, the installation method further includes:

and a transverse support 10 is also connected between two adjacent height adjusting rods, and the transverse support 10 is a first angle steel.

Herein, when the length of the required height adjusting rod is more than 1 meter, a transverse support is further connected and arranged between two adjacent height adjusting rods, the transverse support is an angle steel and is connected with the height adjusting rods through bolts so as to enhance the support stability of the height adjusting rods.

As shown in fig. 10, 13 and 14, in an embodiment of the installation method of the transportation and hoisting integrated auxiliary device for the oversized special-shaped ceiling unit, a plurality of ceiling connection stress rods for erecting the oversized special-shaped ceiling unit are manufactured, and each ceiling connection stress rod is connected with a corresponding height adjustment rod, including:

manufacturing a transverse stress rod piece 51, wherein the transverse stress rod piece 51 is C-shaped square steel, and two free ends of the C-shaped square steel are connected with the top end of the height adjusting rod;

and manufacturing a ceiling connecting piece 52 connected to the transverse stress rod piece 51, wherein the ceiling connecting piece is a second angle steel, one end of the second angle steel is connected with the transverse stress rod piece through a bolt, and the other end of the second angle steel is connected with the back framework of the oversized special-shaped ceiling unit 6 through a bolt.

Herein, through C style of calligraphy square steel and second angle steel, realize that the furred ceiling is connected the stress beam and is reliably connected with altitude mixture control pole and furred ceiling respectively.

In one embodiment of the installation method of the transportation and hoisting integrated auxiliary device for the oversized special-shaped ceiling unit, after the plurality of height adjusting rods 4 are manufactured, the method further comprises the following steps:

manufacturing a second connecting piece 72, wherein the second connecting piece is made of hollow fourth square steel, and fourth connecting holes 712 are respectively formed in two ends of the fourth square steel;

the transverse force-bearing rod member 51 is manufactured, and comprises:

a fifth connecting hole 511 is formed in the top end of each C-shaped square steel;

making a plurality of height adjustment rods 4, comprising:

each height adjusting rod 4 is made of hollow third square steel, and a sixth connecting hole 42 is formed in the top end of the third square steel;

connect every furred ceiling stress bar 5 and the altitude mixture control pole 4 that corresponds to be connected, include:

sleeving the bottom end of the fourth square steel in the third square steel, aligning a fourth connecting hole 712 and a sixth connecting hole 42 at the bottom end of the fourth square steel, and connecting the bottom end of the fourth square steel and the third square steel with each other through a third bolt 94 penetrating through the sixth connecting hole 42 and the fourth connecting hole 712 at the bottom end of the third square steel;

the top end of the fourth square steel is sleeved in the C-shaped square steel, the fourth connecting hole 712 and the fifth connecting hole 511 at the top end of the fourth square steel are aligned, and the top end of the fourth square steel and the C-shaped square steel are connected with each other through a fourth bolt arranged in the fourth connecting hole 712 and the fifth connecting hole 511 in a penetrating manner.

As shown in fig. 4, in an embodiment of the installation method of the transportation and hoisting integrated auxiliary device for the oversized special-shaped ceiling unit, the bottom frame is manufactured, and the method includes the following steps:

and sequentially connecting 8 square frames end to form the bottom frame.

The height adjusting rod and the transverse stress rod piece are connected through the connecting piece anchor bolt, so that reliable connection is achieved, and stability of the bottom frame is improved.

As shown in fig. 4, in an embodiment of the installation method of the transportation and hoisting integrated auxiliary device for the oversized special-shaped ceiling unit, 4 hooks are symmetrically arranged on the side surface of the bottom frame, and the installation method includes:

2 lifting hooks are symmetrically arranged on the side surface of the common connecting end of the second square frame and the third square frame;

and 2 lifting hooks are symmetrically arranged on the side surfaces of the public connecting ends of the sixth square frame and the seventh square frame so as to improve the stability of the auxiliary device during lifting.

The invention also discloses a use method of the integrated transportation and hoisting auxiliary device for the oversized special-shaped ceiling unit, which comprises the following steps:

manufacturing a bottom frame, arranging rollers at the bottom of the bottom frame, and symmetrically arranging 4 lifting hooks on the side surface of the bottom frame;

determining the length of each height adjusting rod according to the distance between the facing of the oversized special-shaped ceiling unit and the bottom framework, manufacturing a plurality of height adjusting rods according to the determined length, and connecting the plurality of height adjusting rods on the bottom framework;

manufacturing a plurality of ceiling connecting stress rods for erecting the oversized special-shaped ceiling units, and connecting each ceiling connecting stress rod with a corresponding height adjusting rod to obtain a manufactured auxiliary device;

fixing the oversized special-shaped ceiling unit and the manufactured auxiliary device together in a factory, locking the roller of the bottom framework, and taking the oversized special-shaped ceiling unit and the auxiliary device as a whole for loading, unloading and transporting;

the oversized special-shaped ceiling unit and the auxiliary device are integrally loaded, unloaded and transported to a construction site, and then the rollers at the bottom of the bottom frame are unlocked;

moving the oversized special-shaped ceiling unit and the auxiliary device to the lower part of the ceiling installation position as a whole;

fixing a rope of a hoisting device on a lifting hook on the side surface of the bottom frame, and hoisting the oversized special-shaped ceiling unit and the auxiliary device as a whole;

when the hoisting reaches the installation height, the hoisting device does not release force, and meanwhile, the oversized special-shaped ceiling unit is installed, and the auxiliary device and the oversized special-shaped ceiling unit are still kept integrally connected;

after the oversized special-shaped ceiling unit is installed, the oversized special-shaped ceiling unit is separated from the auxiliary device while the lifting device does not release force;

and (3) lowering the auxiliary device to the ground, removing the connection between the rope of the lifting device and the lifting hook on the side surface of the bottom frame, and completing the transportation and installation work of the oversized special-shaped suspended ceiling unit. .

The use method of the integrated auxiliary device for transporting and hoisting the oversized special-shaped ceiling unit, disclosed by the invention, comprises the following steps of:

the bottom frame is formed by welding square steel, wherein the shape of the bottom frame is the same as the shape of the vertical projection of the oversized special-shaped ceiling unit on the ground.

The use method of the transportation and hoisting integrated auxiliary device for the oversized special-shaped suspended ceiling unit, disclosed by the invention, in the embodiment of manufacturing the bottom frame, the bottom of the bottom frame is provided with the rollers, and the method comprises the following steps:

the bottom of the bottom frame is symmetrically provided with 6-8 rollers.

The use method of the transportation and hoisting integrated auxiliary device for the oversized special-shaped ceiling unit, disclosed by the invention, comprises the following steps of in the embodiment of manufacturing the bottom frame:

manufacturing a first connecting piece, wherein the first connecting piece is hollow first square steel, and two ends of the first square steel are respectively provided with a first connecting hole;

making a bottom frame comprising:

arranging a plurality of hollow second square steels at the top end of the bottom frame, and arranging second connecting holes at the top ends of the second square steels;

make many altitude mixture control poles, include:

each height adjusting rod is arranged into a hollow third square steel, the bottom end of the third square steel is provided with a third connecting hole,

connect many altitude mixture control poles on the bottom frame, include:

sleeving the bottom end of the first square steel in the second square steel, aligning a first connecting hole and a second connecting hole at the bottom end of the first square steel, and connecting the bottom end of the first square steel and the second square steel with each other through a first bolt penetrating through the first connecting hole and the second connecting hole at the bottom end of the first square steel;

and sleeving the top end of the first square steel in the third square steel, aligning the first connecting hole and the third connecting hole at the top end of the first square steel, and connecting the top end of the first square steel and the third square steel with each other through a second bolt arranged in the first connecting hole and the third connecting hole at the top end of the first square steel in a penetrating manner.

The use method of the integrated auxiliary device for transporting and hoisting the oversized special-shaped ceiling unit, disclosed by the invention, comprises the following steps of in one embodiment of manufacturing the bottom framework, after the bottom framework is connected with a plurality of height adjusting rods:

and a transverse support is also connected between two adjacent height adjusting rods and is a first angle steel.

The use method of the integrated auxiliary device for transporting and hoisting the oversized special-shaped ceiling unit, disclosed by the invention, comprises the following steps of manufacturing a plurality of ceiling connecting stress rods for erecting the oversized special-shaped ceiling unit in one embodiment of manufacturing the bottom framework, and connecting each ceiling connecting stress rod with the corresponding height adjusting rod, wherein the method comprises the following steps:

manufacturing a transverse stress rod piece, wherein the transverse stress rod piece is C-shaped square steel, and two free ends of the C-shaped square steel are connected with the top end of the height adjusting rod;

manufacturing a ceiling connecting piece connected to the transverse stress rod piece, wherein the ceiling connecting piece is a second angle steel, and one end of the second angle steel is connected with the transverse stress rod piece through a bolt;

the auxiliary device who accomplishes super large dysmorphism furred ceiling unit and preparation in the mill is fixed together, includes:

connecting the other end of the second angle steel with a back framework of the oversized special-shaped ceiling unit through a bolt;

break away from super large dysmorphism furred ceiling unit and auxiliary device, include:

and the other end of the second angle steel is disconnected with the oversized special-shaped suspended ceiling unit.

The use method of the transportation and hoisting integrated auxiliary device for the oversized special-shaped suspended ceiling unit, disclosed by the invention, comprises the following steps of after manufacturing a plurality of height adjusting rods in the embodiment of manufacturing the bottom framework:

manufacturing a second connecting piece, wherein the second connecting piece is hollow fourth square steel, and fourth connecting holes are respectively formed in two ends of the fourth square steel;

manufacturing a transverse stress rod piece, comprising:

a fifth connecting hole is formed in the top end of each C-shaped square steel;

make many altitude mixture control poles, include:

setting each height adjusting rod as hollow third square steel, and setting a sixth connecting hole at the top end of the third square steel;

connect every furred ceiling atress pole and the altitude mixture control pole that corresponds and be connected, include:

sleeving the bottom end of the fourth square steel in the third square steel, aligning a fourth connecting hole and a sixth connecting hole at the bottom end of the fourth square steel, and connecting the bottom end of the fourth square steel and the third square steel with each other through a sixth connecting hole penetrating through the bottom end of the third square steel and a third bolt in the fourth connecting hole;

and sleeving the top end of the fourth square steel in the C-shaped square steel, aligning a fourth connecting hole and a fifth connecting hole at the top end of the fourth square steel, and connecting the top end of the fourth square steel and the C-shaped square steel with each other through a fourth bolt arranged in the fourth connecting hole and the fifth connecting hole at the top end of the fourth square steel in a penetrating manner.

The use method of the transportation and hoisting integrated auxiliary device for the oversized special-shaped ceiling unit, disclosed by the invention, in the embodiment of manufacturing the bottom frame, the manufacturing of the bottom frame comprises the following steps:

and sequentially connecting 8 square frames end to form the bottom frame.

The use method of the transportation and hoisting integrated auxiliary device for the oversized special-shaped suspended ceiling unit, disclosed by the invention, comprises the following steps of, in one embodiment of manufacturing the bottom frame, symmetrically arranging 4 lifting hooks on the side surface of the bottom frame:

2 lifting hooks are symmetrically arranged on the side surface of the common connecting end of the second square frame and the third square frame;

and 2 hooks are symmetrically arranged on the side surface of the common connecting end of the sixth square frame and the seventh square frame.

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.

It will be apparent to those skilled in the art that various changes and modifications may be made in the invention without departing from the spirit and scope of the invention. Thus, if such modifications and variations of the present invention fall within the scope of the claims of the present invention and their equivalents, the present invention is also intended to include such modifications and variations.

Claims (8)

1. The utility model provides an installation method of transportation of super large dysmorphism furred ceiling unit and hoist and mount integration auxiliary device which characterized in that includes:

manufacturing a bottom frame, arranging rollers at the bottom of the bottom frame, and symmetrically arranging 4 lifting hooks on the side surface of the bottom frame;

determining the length of each height adjusting rod according to the distance between the facing of the oversized special-shaped ceiling unit and the bottom framework, manufacturing a plurality of height adjusting rods according to the determined length, and connecting the plurality of height adjusting rods on the bottom framework;

manufacturing a plurality of ceiling connecting stress rods for erecting the oversized special-shaped ceiling units, and connecting each ceiling connecting stress rod with the corresponding height adjusting rod;

after the bottom frame is manufactured, the method further comprises the following steps:

manufacturing a first connecting piece, wherein the first connecting piece is hollow first square steel, and two ends of the first square steel are respectively provided with a first connecting hole;

making a bottom frame comprising:

arranging a plurality of hollow second square steels at the top end of the bottom frame, and arranging second connecting holes at the top ends of the second square steels;

make many altitude mixture control poles, include:

each height adjusting rod is arranged into a hollow third square steel, the bottom end of the third square steel is provided with a third connecting hole,

connect many altitude mixture control poles on the bottom frame, include:

sleeving the bottom end of the first square steel in the second square steel, aligning a first connecting hole and a second connecting hole at the bottom end of the first square steel, and connecting the bottom end of the first square steel and the second square steel with each other through a first bolt penetrating through the first connecting hole and the second connecting hole at the bottom end of the first square steel;

and sleeving the top end of the first square steel in the third square steel, aligning the first connecting hole and the third connecting hole at the top end of the first square steel, and connecting the top end of the first square steel and the third square steel with each other through a second bolt arranged in the first connecting hole and the third connecting hole at the top end of the first square steel in a penetrating manner.

2. The method for installing the integrated transportation and hoisting auxiliary device of the oversized special-shaped ceiling unit as claimed in claim 1, wherein the step of manufacturing the bottom frame comprises the following steps:

the bottom frame is formed by welding square steel, wherein the shape of the bottom frame is the same as the shape of the vertical projection of the oversized special-shaped ceiling unit on the ground.

3. The method for installing the integrated auxiliary device for transporting and hoisting the oversized special-shaped ceiling unit as claimed in claim 1, wherein the rollers are arranged at the bottom of the bottom frame, and the method comprises the following steps:

the bottom of the bottom frame is symmetrically provided with 6-8 rollers.

4. The method for installing the integrated auxiliary device for transporting and hoisting the oversized special-shaped ceiling unit as claimed in claim 1, wherein after the plurality of height adjusting rods are connected to the bottom frame, the method further comprises the following steps:

and a transverse support is also connected between two adjacent height adjusting rods and is a first angle steel.

5. The installation method of the integrated auxiliary device for transporting and hoisting the oversized special-shaped ceiling unit as claimed in claim 1, wherein a plurality of ceiling connecting stress rods for erecting the oversized special-shaped ceiling unit are manufactured, and each ceiling connecting stress rod is connected with a corresponding height adjusting rod, and the method comprises the following steps:

manufacturing a transverse stress rod piece, wherein the transverse stress rod piece is C-shaped square steel, and two free ends of the C-shaped square steel are connected with the top end of the height adjusting rod;

the manufacturing is connected to the ceiling connecting piece on the transverse stress rod piece, wherein the ceiling connecting piece is second angle steel, one end of the second angle steel is connected with the transverse stress rod piece through a bolt, and the other end of the second angle steel is connected with the back framework of the super-large special-shaped ceiling unit through a bolt.

6. The installation method of the integrated auxiliary device for transporting and hoisting the oversized special-shaped ceiling unit as claimed in claim 5, wherein after the plurality of height adjusting rods are manufactured, the method further comprises the following steps:

manufacturing a second connecting piece, wherein the second connecting piece is hollow fourth square steel, and fourth connecting holes are respectively formed in two ends of the fourth square steel;

manufacturing a transverse stress rod piece, comprising:

a fifth connecting hole is formed in the top end of each C-shaped square steel;

make many altitude mixture control poles, include:

setting each height adjusting rod as hollow third square steel, and setting a sixth connecting hole at the top end of the third square steel;

connect every furred ceiling atress pole and the altitude mixture control pole that corresponds and be connected, include:

sleeving the bottom end of the fourth square steel in the third square steel, aligning a fourth connecting hole and a sixth connecting hole at the bottom end of the fourth square steel, and connecting the bottom end of the fourth square steel and the third square steel with each other through a sixth connecting hole penetrating through the bottom end of the third square steel and a third bolt in the fourth connecting hole;

and sleeving the top end of the fourth square steel in the C-shaped square steel, aligning a fourth connecting hole and a fifth connecting hole at the top end of the fourth square steel, and connecting the top end of the fourth square steel and the C-shaped square steel with each other through a fourth bolt arranged in the fourth connecting hole and the fifth connecting hole at the top end of the fourth square steel in a penetrating manner.

7. The method for installing the integrated transportation and hoisting auxiliary device of the oversized special-shaped ceiling unit as claimed in claim 1, wherein the step of manufacturing the bottom frame comprises the following steps:

and sequentially connecting 8 square frames end to form the bottom frame.

8. The installation method of the integrated auxiliary device for transporting and hoisting the oversized special-shaped ceiling unit as claimed in claim 7, wherein the 4 lifting hooks are symmetrically arranged on the side surface of the bottom frame, and the method comprises the following steps:

2 lifting hooks are symmetrically arranged on the side surface of the common connecting end of the second square frame and the third square frame;

and 2 hooks are symmetrically arranged on the side surface of the common connecting end of the sixth square frame and the seventh square frame.

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