CN215106478U - Three-dimensional adjusting system for installing keel in high and large space - Google Patents

Abstract

The utility model discloses a three-dimensional governing system for installation of tall and big space fossil fragments. The device comprises a hoop component, an angle brace component, a suspender, a universal joint component and a connecting lug plate; the corner brace component is arranged at the lower part of the hoop component; the upper part of the suspender is arranged on the corner brace component; the lower part of the suspender is provided with a universal joint component; one end of the connecting lug plate is connected with the universal joint assembly, and the other end of the connecting lug plate is connected with the keel; the angle brace component is adjustably connected with the hoop component, the suspender is adjustably connected with the angle brace component, and the connecting ear plate is adjustably connected with the universal joint component and the keel. This system has solved the limitation in the installation of traditional tall and big space fossil fragments: the installation space can be ensured under the condition that the field structure has deviation; the installation precision can be effectively and controllably ensured in the installation process; the whole effect is beautiful after the installation is finished, and the safety and the reliability are high; the installation effect is guaranteed, the main structure is not affected, meanwhile, the requirement of site construction is greatly met by the three-dimensional adjustable mode of the keel, the installation time is saved, and the installation efficiency is improved.

Description

Three-dimensional adjusting system for installing keel in high and large space

Technical Field

The utility model belongs to the technical field of architectural decoration fitment furred ceiling system (indoor furred ceiling braced system), a three-dimensional governing system for tall and big space fossil fragments installation is related to.

Background

The suspended ceiling is an important decoration material in building interior decoration, and can play an important role, and the decoration of the suspended ceiling not only can beautify the indoor space, but also can play a sound insulation effect. According to the specification of 'construction quality acceptance standard of architectural decoration project' 6.1.11, the distance between the suspension rod and the end part of the main keel is not more than 300 mm; when larger than 300mm, the hanger bar should be added. When the boom length is greater than 1.5m, a counter support (i.e., conversion layer) structure should be provided. The function of the counter support (conversion layer) is mainly to control the ceiling board to move upwards when negative wind pressure is generated indoors. When the face receives the wind load effect, the face can fluctuate, and the jib uses the preparation of phi 6 ~ 10mm reinforcing bar usually, can control the downward removal of board face, and can not control the upward removal of board face. The reverse support can support the board surface and prevent the board surface from moving upwards, thereby achieving the effect of controlling the deformation of the board surface.

The conversion layer is generally used for a space with a large difference between the original top surface of the suspended ceiling and the suspended ceiling surface. Usually more than 1.5m a conversion layer is used. The method is mainly used in large-scale concert halls, art studios, large indoor activity places and the like. Because audio equipment, professional lamp control equipment and other equipment need to be installed, the weight of the equipment cannot be borne by a suspension wire light steel keel and the like used in general decoration engineering, and at this time, a conversion layer needs to be welded by 50-degree steel. Mainly for the bearing consideration, what later stage equipment maintenance, got up people etc. need to use, must have.

In the installation of the tall and big space keel of the traditional ceiling system, the following limitation problems exist: in the case of a deviation of the field structure, the installation space cannot be guaranteed; the installation precision can not be effectively and controllably ensured in the installation process; after the installation is finished, the overall effect is not attractive, and the safety and reliability are not high; and later period, the inspection, adjustment and maintenance are inconvenient.

The defects of the prior art are as follows: the high and large space keel of the suspended ceiling system is directly rigidly connected with a steel structure, the construction mode is difficult and complicated, the efficiency is low, the suspended ceiling system is not attractive, and is safe and reliable, and hidden dangers can also appear in the later period.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to overcome prior art not enough, provide one kind and can effectively guarantee the installation accuracy in the furred ceiling system controllably, accomplish the installation back whole effect pleasing to the eye, the high three-dimensional governing system that is used for the installation of big space fossil fragments of safe and reliable degree.

The technical scheme of the utility model as follows:

the utility model relates to a three-dimensional adjusting system for installing keels in high and large space, which comprises a hoop component, an angle bracket component, a suspender (lead screw), a universal joint component and a connecting lug plate which are connected in sequence; the hoop component is arranged on a cylindrical support at the bottom of the spherical steel structure; the corner brace component is arranged at the lower part of the hoop component; the upper part of the suspender (screw rod) passes through the corner brace component and is arranged on the corner brace component; the lower part of the suspender (screw rod) is provided with a universal joint component; one end of the connecting lug plate is connected with the universal joint component; the other end of the connecting lug plate is connected with the keel; the angle code assembly is adjustably connected with the hoop assembly, the suspender (lead screw) is adjustably connected with the angle code assembly, the universal joint assembly is adjustably connected with the connecting ear plate, and the connecting ear plate is adjustably connected with the keel.

Furthermore, the hoop component comprises a hoop member and a hoop adapter member which are fixedly connected together; the hoop member is formed by combining two hoop sheets with semicircular middles; the upper part of the hoop adapter is inserted between the two hoop sheets and is fixedly connected with the two hoop sheets through bolts; and a bolt mounting hole is formed in the lower part of the hoop adapter.

Furthermore, the angle code assembly comprises a vertical piece and a horizontal piece which form an angle of 90 degrees with each other; wherein, the vertical sheet is fixed at the lower part of the hoop component through a bolt; the transverse sheet is fixedly connected with the upper part of the suspender (screw rod) through a bolt.

Furthermore, the lower part of the hoop adapter is in an inverted triangle shape, and an upper bolt mounting hole and a lower bolt mounting hole are formed in the inverted triangle shape, wherein the upper bolt mounting hole is a waist-shaped hole, and the lower bolt mounting hole is a round hole; an upper bolt mounting hole and a lower bolt mounting hole are also formed in the vertical sheet of the corner brace assembly, and the vertical sheet is fixedly connected with the lower part of the hoop adapter of the hoop assembly through two bolts; the upper part of the suspender (screw rod) penetrates through the transverse sheet of the angle code assembly and is fixedly connected with the transverse sheet of the angle code assembly through an upper large bolt and a lower large bolt, the two large bolts are sleeved on the suspender (screw rod), one of the large bolts is tightly attached to the upper surface of the transverse sheet, and the other large bolt is tightly attached to the lower surface of the transverse sheet.

Furthermore, the universal joint component comprises an anti-drop inserting core and two universal joint inserting pieces which are crossed mutually; the anti-drop core insert is a cylinder with a bottom support and is sleeved outside the lower part of the suspender (screw rod); the central cylinders of the two universal joint insertion sheets are sequentially sleeved outside the cylinder of the anti-falling insertion core and positioned on the bottom support of the anti-falling insertion core; each universal joint insert comprises two symmetrical wings, two bolt mounting holes are respectively formed in the outer sides of the two wings, the bolt mounting hole close to the inner side is a waist-shaped hole, and the bolt mounting hole close to the outer side is a round hole; one end of the connecting lug plate is also provided with two corresponding bolt mounting holes.

Furthermore, the connecting lug plate is a twice-bending plate and comprises a front plate, a rear plate and a middle plate, the front plate is parallel to the rear plate, two bolt mounting holes corresponding to the two bolt mounting holes in the anti-falling inserting core are formed in the front plate, and two waist-shaped bolt mounting holes connected with the keels are formed in the rear plate.

Furthermore, each wing of each universal joint insertion piece is connected with a keel through two connecting lug plates.

Furthermore, the keel and the ceiling board installation system are connected through a U-shaped hoop assembly.

The utility model has the advantages that:

the utility model discloses a three-dimensional governing system for installation of tall and big space fossil fragments, for the trend of guaranteeing the fossil fragments radian, adopt staple bolt subassembly, angle sign indicating number subassembly, jib (lead screw), universal joint subassembly and the three-dimensional governing system that engaging lug board and fossil fragments are connected, the efficiency of construction is fast, and the security performance is high. The anchor ear assembly and the corner brace assembly, the universal joint assembly and the connecting ear plate and the keel are connected by bolts with waist-shaped holes (all adjustable connections), so that the connecting system is adjustable in the X-axis direction and the Y-axis direction; moreover, the suspender (the screw rod) is also connected with the angle brace component in an adjustable way: the upper part of a suspender (a screw rod) penetrates through a transverse sheet of the corner brace component and is fixedly connected with the corner brace component through an upper large bolt and a lower large bolt, so that the connecting system is adjustable in the z-axis direction; therefore, the connecting system has the characteristic of three-dimensional adjustability, and is called a three-dimensional adjusting system.

The utility model discloses a three-dimensional governing system for installation of tall and big space fossil fragments, the advantage is as follows: compared with the existing installation mode, the system ensures the installation effect, does not influence the main structure, greatly meets the requirement of site construction in a three-dimensional adjustable mode of the keel, saves the installation time and improves the installation efficiency.

The utility model discloses a three-dimensional governing system for tall and big space fossil fragments installation has solved the limitation problem in the tall and big space fossil fragments installation of traditional ceiling system: the installation space can be ensured under the condition that the field structure has deviation; the installation precision can be effectively and controllably ensured in the installation process; after the installation is finished, the overall effect is attractive, and the safety and reliability are high; later period is convenient for checking, adjusting and maintaining, etc.

Drawings

Fig. 1 is a system assembly view of the three-dimensional adjustment system for high and large space keel installation of the present invention;

fig. 2 is a system assembly perspective view of the three-dimensional adjustment system for high and large space keel installation of the present invention;

fig. 3 is a schematic installation diagram of the hoop assembly 1 in the three-dimensional adjusting system of the present invention;

fig. 4 is a schematic view of the installation of the corner brace assembly 2 of the connecting boom 3 in the three-dimensional adjusting system of the present invention;

fig. 5 is a schematic view of the installation of the gimbal assembly 4 in the three-dimensional adjustment system of the present invention;

fig. 6 is an enlarged schematic view of the gimbal assembly 4 in the three-dimensional adjustment system of the present invention;

fig. 7 is a schematic view of the installation of the engaging lug plate 5 in the three-dimensional adjusting system of the present invention;

fig. 8 is an exploded schematic view of the connection position between the engaging lug plate 5 and the gimbal assembly 4 and the keel 6 in the three-dimensional adjusting system of the present invention.

In the figure: 1. staple bolt subassembly 11, staple bolt spare 12, staple bolt adaptor 2, angle sign indicating number subassembly 21, riser 22, horizontal piece 23, diagonal bracing piece 24, M12 bolt 25, big bolt 3, jib 4, universal joint subassembly 41, anticreep lock pin 42, universal joint inserted sheet 43, universal joint inserted sheet 44, collet 5, connection ear board 51, front bezel 52, intermediate lamella 53, back plate 6, fossil fragments 7, spherical steel construction 8, cylindrical support 9, steel sheet 10, U-shaped staple bolt subassembly

Detailed Description

The present invention will be further described with reference to the accompanying drawings and examples.

Examples

As shown in fig. 1-8, the utility model relates to a three-dimensional adjusting system for installing a keel in a high and large space, which comprises a hoop component 1, an angle bracket component 2, a suspender 3 (screw), a universal joint component 4 and a connection ear plate 5 which are connected in sequence; the hoop component 1 is arranged on a cylindrical bracket 8 at the bottom of the spherical steel structure 7; the corner brace component 2 is arranged at the lower part of the hoop component 1; the upper part of a suspender 3 (a screw rod) passes through the corner brace component and is arranged on the corner brace component 2; the lower part of the suspender 3 (screw rod) is provided with a universal joint component 4; one end of the connecting lug plate 5 is connected with the universal joint component 4; the other end of the connecting ear plate 5 is connected with the keel 6; the keel 6 is connected with the aluminum plate mounting system through a U-shaped hoop component 10.

The hoop component 1 comprises a hoop piece 11 and a hoop adapter piece 12 which are fixedly connected together; the hoop member 11 is formed by combining two hoop sheets with a semicircular middle part (after the two hoop sheets are combined, the hoop is arranged on the cylindrical bracket 8); the upper part of the hoop adapter 12 is inserted between the two hoop sheets, and the upper part of the hoop adapter 12 is fixedly connected with the two hoop sheets (the hoop 11) through bolts; the lower part of the hoop adapter 12 is in the shape of an inverted triangle, and an upper bolt mounting hole and a lower bolt mounting hole are arranged on the inverted triangle, wherein the upper bolt mounting hole is a waist-shaped hole, and the lower bolt mounting hole is a round hole.

The angle brace component 2 comprises a vertical piece 21 and a horizontal piece 22 which form an angle of 90 degrees with each other, and also comprises an inclined support rod 23 connected with the tail ends of the vertical piece 21 and the horizontal piece 22; wherein, the riser 21 of the corner brace component 2 is also provided with an upper bolt mounting hole and a lower bolt mounting hole, and the riser 21 is fixedly mounted at the lower part of the hoop adaptor 12 of the hoop component 1 through two M12 bolts 24; the upper part of the suspender 3 (screw rod) penetrates through the cross piece 22 of the angle brace component 2 and is fixedly connected with the cross piece 22 of the angle brace component 2 through an upper large bolt 25 and a lower large bolt 25, the two large bolts 25 are sleeved on the suspender 3 (screw rod), one of the two large bolts is tightly attached to the upper surface of the cross piece 22, and the other large bolt is tightly attached to the lower surface of the cross piece 22.

The universal joint component 4 comprises an anti-drop inserting core 41 and two universal joint inserting sheets 42 and 43 which are crossed mutually; the anti-drop core insert 41 is a cylinder with a bottom support 44 and is sleeved outside the lower part of the suspender 3 (screw rod); the central cylinders of the two universal joint insertion sheets 42 and 43 are sequentially sleeved outside the cylinder of the anti-falling insertion core 42 (the central cylinder of the universal joint insertion sheet 42 is positioned at the lower half height, and the central cylinder of the universal joint insertion sheet 43 is positioned at the upper half height), and are positioned on the bottom support 44 of the anti-falling insertion core 41. Each universal joint insertion piece 42 and each universal joint insertion piece 43 comprises two symmetrical wings, two bolt mounting holes are respectively formed in the outer sides of the two wings, the bolt mounting holes close to the inner sides are kidney-shaped holes, and the bolt mounting holes close to the outer sides are round holes.

One end of the connecting lug plate 5 is also provided with two corresponding bolt mounting holes. The connecting lug plate 5 is a twice-bending plate and comprises a front plate 51, a rear plate 53 and a middle plate 52, the front plate 51 is parallel to the rear plate 53, two bolt mounting holes corresponding to the two bolt mounting holes on the anti-falling inserting core 42 are formed in the front plate 51, and two kidney-shaped bolt mounting holes connected with the keels 6 are formed in the rear plate 53.

The utility model discloses a three-dimensional governing system for installation of tall and big space fossil fragments, the installation method as follows:

1) as shown in fig. 3, firstly, the cylindrical bracket 8 is pre-installed at the bottom of the spherical steel structure 7 (the spherical steel structure 7 is made in advance), meanwhile, the steel plate 9 is welded at the bottom of the cylindrical bracket 8, and then, the designed hoop assembly 1 is installed on the cylindrical bracket 8;

2) as shown in fig. 4, the vertical piece 21 of the corner brace assembly 2 is arranged at the lower part of the hoop assembly 1;

3) as shown in fig. 4 and 5, the upper part of the boom (lead screw) 3 is attached to the cross piece 22 of the corner brace assembly 2;

4) as shown in fig. 5 and 6, the gimbal assembly 4 is mounted on the lower part of the suspension rod (lead screw) 3;

4) as shown in fig. 7 and 8, one end (front plate 51) of the connecting lug plate 5 is connected to the gimbal assembly 4, and the other end (rear plate 53) of the connecting lug plate 5 is connected to the keel 6. Each wing of each universal joint insert 42, 43 is connected with a keel 6 through two connecting ear plates 5.

The utility model discloses a three-dimensional governing system for installation of tall and big space fossil fragments, as shown in FIG. 1, for the trend of guaranteeing 6 radians of fossil fragments, adopt staple bolt subassembly 1, angle sign indicating number subassembly 2, jib (lead screw) 3, universal joint subassembly 4 and the three-dimensional governing system that 5 and fossil fragments 6 of engaging lug are connected, the efficiency of construction is fast, and the security performance is high. As the bolt connection modes (all adjustable connections) of the waist-shaped holes are adopted between the hoop component 1 and the corner brace component 2, between the universal joint component 4 and the connecting ear plate 5 and between the connecting ear plate 5 and the keel 6, the connection system is adjustable in the X-axis direction and the Y-axis direction; moreover, the suspender (the screw rod) is also connected with the angle brace component in an adjustable way: the upper part of the suspender 3 (screw rod) passes through the cross piece 22 of the angle bracket assembly 2 and is fixedly connected with the angle bracket assembly 2 through an upper large bolt 25 and a lower large bolt 25, so that the connecting system is adjustable in the z-axis direction; therefore, the connecting system has the characteristic of three-dimensional adjustability, and is called a three-dimensional adjusting system.

The utility model discloses a three-dimensional governing system for tall and big space fossil fragments installation has solved the limitation problem in the tall and big space fossil fragments installation of traditional ceiling system: the installation space can be ensured under the condition that the field structure has deviation; the installation precision can be effectively and controllably ensured in the installation process; after the installation is finished, the overall effect is attractive, and the safety and reliability are high; later period is convenient for checking, adjusting and maintaining, etc.

Compared with the existing installation mode, the system ensures the installation effect, does not influence the main structure, greatly meets the requirement of site construction in a three-dimensional adjustable mode of the keel, saves the installation time and improves the installation efficiency.

Claims (8)

1. A three-dimensional adjusting system for installing a keel in a tall and big space is characterized by comprising a hoop component, an angle brace component, a suspender, a universal joint component and a connecting lug plate which are sequentially connected; the hanger rod is a screw rod; the hoop component is arranged on a cylindrical support at the bottom of the spherical steel structure; the corner brace component is arranged at the lower part of the hoop component; the upper part of the suspender passes through the corner brace component and is arranged on the corner brace component; the lower part of the suspender is provided with a universal joint component; one end of the connecting lug plate is connected with the universal joint component; the other end of the connecting lug plate is connected with the keel; the angle code assembly is adjustably connected with the hoop assembly, the suspender is adjustably connected with the angle code assembly, the universal joint assembly is adjustably connected with the connecting lug plate, and the connecting lug plate is adjustably connected with the keel.

2. The three-dimensional adjustment system for high and large space keel installation according to claim 1, wherein the hoop component comprises a hoop member and a hoop adapter member which are fixedly connected together; the hoop member is formed by combining two hoop sheets with semicircular middles; the upper part of the hoop adapter is inserted between the two hoop sheets and is fixedly connected with the two hoop sheets through bolts; and a bolt mounting hole is formed in the lower part of the hoop adapter.

3. The three-dimensional adjustment system for high bay keel installation of claim 1, wherein the corner brace assembly comprises risers and crossbars angled at 90 degrees to each other; wherein, the vertical sheet is fixed at the lower part of the hoop component through a bolt; the transverse sheet is fixedly connected with the upper part of the suspender through a bolt.

4. The three-dimensional adjusting system for the installation of the keel in the tall and big space as claimed in claim 2, wherein the lower part of the hoop adapter is in the shape of an inverted triangle, and the inverted triangle is provided with an upper bolt mounting hole and a lower bolt mounting hole, wherein the upper bolt mounting hole is a waist-shaped hole, and the lower bolt mounting hole is a round hole; the angle brace component comprises a vertical piece and a horizontal piece which form an angle of 90 degrees with each other, and also comprises an inclined support rod connected with the tail ends of the vertical piece and the horizontal piece; an upper bolt mounting hole and a lower bolt mounting hole are also formed in the vertical sheet of the corner brace assembly, and the vertical sheet is fixedly connected with the lower part of the hoop adapter of the hoop assembly through two bolts; the upper part of the suspender penetrates through the transverse sheet of the corner brace component and is fixedly connected with the transverse sheet of the corner brace component through an upper large bolt and a lower large bolt, the two large bolts are sleeved on the suspender, one of the large bolts is tightly attached to the upper surface of the transverse sheet, and the other large bolt is tightly attached to the lower surface of the transverse sheet.

5. The three-dimensional adjustment system for keel installation in high and large spaces of claim 4, wherein the gimbal assembly comprises an anti-drop core insert and two gimbal insert pieces crossing each other; the anti-drop core insert is a cylinder with a bottom support and is sleeved outside the lower part of the suspender; the central cylinders of the two universal joint insertion sheets are sequentially sleeved outside the cylinder of the anti-falling insertion core and positioned on the bottom support of the anti-falling insertion core; each universal joint insert comprises two symmetrical wings, two bolt mounting holes are respectively formed in the outer sides of the two wings, the bolt mounting hole close to the inner side is a waist-shaped hole, and the bolt mounting hole close to the outer side is a round hole; one end of the connecting lug plate is also provided with two corresponding bolt mounting holes.

6. The three-dimensional adjusting system for the installation of the keel in the tall and big space as claimed in claim 5, wherein the connecting ear plate is a twice-bent plate comprising a front plate, a rear plate and a middle plate, the front plate is parallel to the rear plate, two bolt installation holes corresponding to the two bolt installation holes on the anti-drop inserting core are arranged on the front plate, and two kidney-shaped bolt installation holes connected with the keel are arranged on the rear plate.

7. The three-dimensional adjustment system for high and large space keel installation according to claim 5, wherein each wing of each gimbal insert is connected with one keel by two connecting ear plates.

8. The three-dimensional adjustment system for high and large space keel installation according to claim 7, wherein the keel and ceiling tile installation system are connected by a U-shaped hoop assembly.

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