CN217557214U - Tensile device applied to daylighting roof structure - Google Patents

Abstract

The utility model discloses a be applied to tensile device of daylighting roof structure, including friction pendulum support, first bedplate and second bedplate are installed respectively at both ends about the friction pendulum support, first bedplate is installed in daylighting roof structure bottom, second bedplate is installed at concrete structure top, just install first built-in fitting on the first bedplate, install the second built-in fitting on the second bedplate, insert on the first built-in fitting top the daylighting roof structure is inside, insert in second built-in fitting bottom inside the concrete structure, just first built-in fitting bottom is connected with first pull ring, second built-in fitting top is connected with the second pull ring, first pull ring with be connected with the tensile rope between the second pull ring. The utility model discloses can effectively improve daylighting top structure and at vertical ability of drawing, play the guard action to whole daylighting top structure, improve overall structure's stability and security.

Description

Tensile device applied to daylighting roof structure

Technical Field

The utility model relates to a building trade field especially relates to a be applied to tensile device of daylighting roof structure.

Background

With the innovation of the existing buildings, a glass light roof structure system or a light-transmitting mold structure system is generally designed for meeting energy-saving requirements and indoor lighting requirements in part of projects, because the energy-saving systems generally need a steel net rack as a support frame, and a friction pendulum support is required to be arranged at the lower part of the energy-saving systems to resist deformation of an external force on the support frame in order to ensure the shock resistance and the shock absorption of the steel net rack structure and the support of the steel net rack, the traditional friction pendulum support can only resist vertical bearing capacity and horizontal displacement but cannot resist vertical pulling resistance, so that a sliding block and a cover plate are easy to separate from each other when the support is pulled, and a junction structure is damaged.

Disclosure of Invention

An object of the utility model is to provide a be applied to tensile device of daylighting roof structure can effectively improve the daylighting roof structure and in the vertical ability of drawing, has played the guard action to whole daylighting roof structure.

The utility model discloses a realize like this: the utility model provides a be applied to tensile device of daylighting top structure, includes friction pendulum support, first bedplate and second bedplate are installed respectively to friction pendulum support upper and lower both ends, first bedplate is installed in daylighting top structure bottom, second bedplate is installed at concrete structure top, just install first built-in fitting on the first bedplate, install the second built-in fitting on the second bedplate, insert on the first built-in fitting top inside the daylighting top structure, insert in the second built-in fitting bottom inside the concrete structure, just first built-in fitting bottom is connected with first pull ring, second built-in fitting top is connected with the second pull ring, first pull ring with be connected with the stretch-proofing rope between the second pull ring.

Optionally, the top end of the first support plate is further connected with a first inserted bar inserted into the daylighting roof structure, and the bottom end of the second support plate is connected with a second inserted bar inserted into the concrete structure.

Optionally, the top end of the first insertion rod and the bottom end of the second insertion rod are both connected with a first bending rod.

Optionally, the top end of the first embedded part and the bottom end of the second embedded part are both connected with a second bending rod.

Optionally, a spring sleeve is further connected between the first pull ring and the second pull ring, and the spring sleeve is sleeved outside the tensile cord.

Optionally, the first embedded part and the second embedded part connected to two ends of the same tensile rope are located on the same straight line.

The utility model discloses a be applied to tensile device of daylighting top structure connects the stretch-proofing rope through between the first pull ring at first built-in fitting and the second pull ring of second built-in fitting to improve the resistance of whole friction pendulum support to vertical drawing so that friction pendulum support is not fragile in vertical drawing, thereby improve the stability of whole daylighting top structure, whole device easily is under construction and realizes, and is with low costs, has effectively improved overall structure's security.

Drawings

Fig. 1 is a schematic front view of a tensile device applied to a daylighting roof structure according to the present invention;

fig. 2 is a schematic view of a tensile cord of the tensile apparatus applied to a daylighting roof structure of the present invention;

fig. 3 is a schematic structural diagram of a second embedded part of the tensile device applied to the daylighting roof structure.

Description of the reference symbols:

1. a friction pendulum support;

2. a first bracket plate;

3. a second support plate;

4. a daylighting roof structure;

5. a concrete structure;

6. a first embedded part;

7. a second embedded part;

8. a first pull ring;

9. a second tab;

10. a tensile strand;

11. a first plunger;

12. a second plunger;

13. a first bending bar;

14. a second bending bar;

15. and a spring sleeve.

Detailed Description

The invention will be further explained with reference to the drawings and the specific embodiments.

Please refer to fig. 1, fig. 2 and fig. 3, the utility model provides a be applied to tensile device of daylighting roof structure, including friction pendulum support 1, first bedplate 2 and second bedplate 3 are installed respectively at friction pendulum support 1 upper and lower both ends, first bedplate 2 is installed in daylighting roof structure 4 bottom, second bedplate 3 is installed at 5 tops of concrete structure, just install first built-in fitting 6 on the first bedplate 2, install second built-in fitting 7 on the second bedplate 3, insert on 6 tops of first built-in fitting the inside of daylighting roof structure, insert in 7 bottoms of second built-in fitting the inside of concrete structure 5, just 6 bottoms of first built-in fitting are connected with first pull ring 8, 7 tops of second built-in fitting are connected with second pull ring 9, first pull ring 8 with be connected with tensile rope 10 between the second pull ring 9.

Because traditional friction pendulum support 1 generally all bonds together with first support board 2, second support board 3, in the in-service use process, friction pendulum support 1 can bear vertical pressure and horizontal displacement, but when vertical drawing appearing, very easily leads to the separation of friction pendulum support 1 with daylighting roof structure 4 and concrete structure 5 to influence the stability and the security of whole structure. In this embodiment, through install first pull ring 8 and second pull ring 9 on first built-in fitting 6 on first bedplate 2 and the second built-in fitting 7 on the second bedplate 3 respectively, and link together first pull ring 8 and second pull ring 9 through tensile rope 10, thereby bear friction pendulum support 1 at vertical pulling-out effort through tensile rope 10, in order to guarantee when vertical pulling-out appears, the condition of separation with first bedplate 2 and second bedplate 3 can not appear in friction pendulum support 1, thereby whole daylighting top structure 4 and concrete structure 5's stability and security have been improved.

In some embodiments, a first insertion rod 11 inserted into the daylighting top structure 4 is further connected to the top end of the first support plate 2, a second insertion rod 12 inserted into the concrete structure 5 is connected to the bottom end of the second support plate 3, and a first bending rod 13 is connected to each of the top end of the first insertion rod 11 and the bottom end of the second insertion rod 12. Through the first pole 13 of buckling on 11 tops of first inserted bar for first bedplate 2 and daylighting top structure 4 are connected more stably, and through the first pole 13 of buckling in 12 bottoms of second inserted bars, make and connect more stably between second bedplate 3 and the concrete structure 5.

In some embodiments, a second bending rod 14 is connected to each of the top end of the first embedment 6 and the bottom end of the second embedment 7 to ensure the stability between the first embedment 6 and the daylighting top structure 4 and between the second embedment 7 and the concrete structure 5.

In this embodiment, the number of the first embedded parts 6 and the number of the second embedded parts 7 are two, the number of the first inserted bars 11 and the number of the second inserted bars 12 are also two, the two first embedded parts 6 are distributed on two sides of the two first inserted bars 11, and the two second embedded parts 7 are distributed on two sides of the second inserted bars 12.

In some embodiments, a spring sleeve 15 is further connected between the first pull ring 8 and the second pull ring 9, and the spring sleeve 15 is sleeved outside the tensile cord 10. When tensile rope 10 bore vertical effort of drawing, share the effort of drawing jointly through spring housing 15, when further guaranteeing the stability of friction pendulum support 1, confrontation stay cord 10 plays the guard action for tensile rope 10 is difficult for the fracture, utilizes spring housing 15's contractile action simultaneously, and the friction pendulum support of being convenient for 1 resumes after drawing.

For example, the material of the tensile strand 10 may be selected according to different situations, and may be capable of withstanding a pulling force, which is not described herein again.

In some embodiments, the first embedded part 6 and the second embedded part 7 connected to two ends of the same tensile rope 10 are located on the same straight line, so that dispersion of vertical pulling force is avoided, and the pulling-resistant effect of the tensile rope 10 is improved.

The above description is only for the purpose of illustrating the preferred embodiments of the present invention and should not be construed as limiting the scope of the present invention, therefore, any modifications, equivalents, improvements and the like made within the spirit and principles of the present invention should be included in the scope of the present invention.

Claims (6)

1. The utility model provides a be applied to tensile device of daylighting top structure, a serial communication port, including friction pendulum support (1), first bedplate (2) and second bedplate (3) are installed respectively to friction pendulum support (1) upper and lower both ends, install in daylighting top structure (4) bottom first bedplate (2), install at concrete structure (5) top second bedplate (3), just install first built-in fitting (6) on first bedplate (2), install second built-in fitting (7) on second bedplate (3), insert on first built-in fitting (6) top the daylighting top structure is inside, insert in second built-in fitting (7) bottom concrete structure (5) is inside, just first built-in fitting (6) bottom is connected with first pull ring (8), second built-in fitting (7) top is connected with second pull ring (9), first pull ring (8) with be connected with stretch-proofing rope (10) between second pull ring (9).

2. The tension preventing device applied to a daylighting top structure of claim 1, wherein a first inserted rod (11) inserted into the daylighting top structure (4) is further connected to the top end of the first support plate (2), and a second inserted rod (12) inserted into the concrete structure (5) is connected to the bottom end of the second support plate (3).

3. A tensile device applied to a daylighting top structure according to claim 2, wherein a first bending rod (13) is connected to both the top end of the first inserted rod (11) and the bottom end of the second inserted rod (12).

4. The tension preventing device applied to the daylighting top structure of claim 1, wherein a second bending rod (14) is connected to each of the top ends of the first embedded part (6) and the bottom end of the second embedded part (7).

5. The tensile apparatus applied to a daylighting roof structure of claim 1, wherein a spring sleeve (15) is further connected between the first pull ring (8) and the second pull ring (9), and the spring sleeve (15) is sleeved outside the tensile cord (10).

6. The tension preventing device applied to a daylighting roof structure of claim 4, wherein the first embedment (6) and the second embedment (7) connected to both ends of the same tensile strand (10) are positioned on the same straight line.

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