CN210216789U - Damper mounting structure with out-of-plane limiting function - Google Patents

Abstract

The utility model relates to a contain spacing attenuator mounting structure of off-plate for install the attenuator between the butt joint face of a pair of wall body of relative setting from top to bottom, mounting structure includes: the protruding parts are formed on the abutting surfaces of the wall in a protruding mode, and the side surfaces of the pair of protruding parts are arranged oppositely; a pair of connecting members fixed to opposite sides of the pair of protruding portions, the pair of connecting members being fixedly connected to opposite axial ends of the damper to mount the damper between the pair of protruding portions; a first limiting piece fixed on the protruding part; and the second limiting piece is fixed on the wall body opposite to the protruding part, the second limiting piece and the first limiting piece are connected in a sliding mode, and the corresponding side faces are mutually blocked, so that the pair of wall bodies are limited to be positioned on the same plane. The lateral stiffness outside the wall surface of the whole structure is enhanced, so that the structural integrity of the damper is ensured and the energy consumption capability of the damper is not affected.

Description

Damper mounting structure with out-of-plane limiting function

Technical Field

The utility model relates to a attenuator field indicates a contain spacing attenuator mounting structure of off-plate especially.

Background

The building shock absorption is that energy dissipation devices are arranged at certain parts (such as supports, shear walls, connecting joints or connecting pieces) of a structure, and the energy input into the structure is dissipated or absorbed by the friction, bending (or shearing, torsion) and elastic-plastic (or viscoelasticity) hysteretic deformation generated by the energy dissipation devices so as to reduce the seismic reaction of the main structure, thereby avoiding the structure from being damaged or collapsed and achieving the purpose of shock absorption control.

The various frictional and other damping effects that damp free vibrations are referred to as damping. The damper is a device for providing resistance to movement and reducing movement energy. Kinetic energy is dissipated by placing a damper on the structural system to provide resistance to motion.

Referring to fig. 1, a front view of a damper installed between two opposite walls in the related art is shown. Referring to fig. 2, a side view of a damper installed between two opposite walls in the related art is shown. Referring to fig. 1 and 2, the damper 10a is installed between a pair of walls 20a disposed opposite to each other in a shear-type connection manner, the main motion direction of the damper 10a is along the plane direction of the wall 20a, and the damper 10a provides resistance to motion in the plane direction of the wall 20a to effectively dissipate seismic energy.

Referring to fig. 3, a schematic diagram of the variation of fig. 2 under a two-way seismic event is shown. Referring to fig. 1 to 3, there is an earthquake direction perpendicular to the plane direction of the wall 20a, when, as shown in fig. 3, a pair of walls 20a connected up and down rotate in a direction perpendicular to the plane direction of the wall 20a and in a reverse direction, the pair of walls 20a are offset from each other and are located on different planes, since the stiffness of the damper 10a outside the plane of the wall 20a is weak, the damper 10a deforms greatly in the direction perpendicular to the plane of the wall 20a, which affects the energy consumption of the damper 10a in the plane direction of the wall 20 a.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to overcome prior art's defect, provide a contain spacing attenuator mounting structure of off-plate, solve among the prior art a pair of wall body of connecting from top to bottom and produce perpendicular to wall body plane direction and reverse rotation, influence the problem of attenuator at the power consumption of wall body plane direction.

The technical scheme for realizing the purpose is as follows:

the utility model provides a contain spacing attenuator mounting structure of off-plate for install the attenuator between the butt joint face of a pair of wall body of relative setting from top to bottom, mounting structure includes:

the pair of protruding parts are arranged oppositely on the side surfaces of the protruding parts;

a pair of connecting members fixed to opposite side surfaces of the pair of protruding portions, the pair of connecting members being fixedly connected to opposite axial ends of the damper so as to mount the damper between the pair of protruding portions;

a first limiting member fixed to the protruding portion; and

and the second limiting part is fixed on the wall body opposite to the protruding part, the second limiting part and the first limiting part are connected in a sliding mode, and corresponding side faces are mutually blocked, so that the pair of wall bodies are limited to be positioned on the same plane.

The damper mounting structure with the external limit of the utility model is further improved,

the first limiting piece is a sliding groove or a protrusion fixed on the protruding part;

the second limiting part is a bulge or a sliding groove fixed on the wall body opposite to the protruding part.

The utility model discloses contain spacing attenuator mounting structure's of off-plate further improvement lie in, the inner wall of spout be fixed with the isolation layer that the arch pasted mutually.

The utility model discloses contain spacing attenuator mounting structure's of off-plate further improvement lie in, the spout includes:

a groove bottom plate fixed on the protruding part is pasted; and

the pair of wall plates are vertically and oppositely arranged on the groove bottom plate;

the projection includes:

a convex bottom plate which is attached and fixed on the wall body opposite to the convex part; and

the inserting plates are vertically fixed on the convex bottom plate and are inserted between the pair of the wall plates.

The utility model discloses contain spacing attenuator mounting structure's of off-plate further improvement lie in, the spout includes:

a groove bottom plate fixed on the protruding part is pasted; and

the pair of wall plates are vertically and oppositely arranged on the groove bottom plate;

the projection includes:

a convex bottom plate which is attached and fixed on the wall body opposite to the convex part;

the inserting plate is vertically fixed on the convex bottom plate; and

and the square pipe is fixed at the end part of the inserting plate and is inserted between the pair of wall plates.

The utility model discloses contain spacing attenuator mounting structure's of off-plate further improvement lie in, the spout includes:

a groove bottom plate fixed on the protruding part is pasted; and

the pair of wall plates are vertically and oppositely arranged on the groove bottom plate;

the projection includes:

a convex bottom plate which is attached and fixed on the wall body opposite to the convex part;

the inserting plate is vertically fixed on the convex bottom plate; and

the square tube is fixed at the end part of the inserting plate and inserted between the pair of wall plates, and the wall plates are provided with a baffle plate transversely blocked on the top surface of the square tube.

The utility model discloses contain spacing attenuator mounting structure's of off-plate further improvement lie in, the connecting piece includes:

an end plate fixed to an axial end of the damper;

the connecting plate is vertically fixed on the end plate and is fixed on the side surface of the corresponding protruding part; and

and the stiffening ribs are fixed between the end plates and the connecting plates.

The utility model discloses contain spacing attenuator mounting structure's of off-plate further improvement lie in, the side subsides of protruding portion are established and are fixed with the built-in panel, the connecting plate vertical fixation in the built-in panel.

The utility model discloses contain spacing attenuator mounting structure's of off-plate beneficial effect:

the utility model discloses a protruding stretch separately on a pair of wall body relative forms a pair of protruding portion relative, can make things convenient for the axial installation attenuator between the side of a pair of protruding portion, protruding portion and relative wall body can slide each other along the plane direction of wall body under the earthquake action and establish, draw the attenuator motion and produce the damping power consumption and dissipate major structure's vibration energy.

A limiting part is arranged between the abutting surfaces of the protruding part and the opposite wall bodies, and the pair of wall bodies rotate in the same direction perpendicular to the plane direction of the wall bodies under the action of the two-way seismic force through the limiting part, so that the pair of wall bodies are prevented from being staggered with each other, the pair of wall bodies are ensured to be positioned on the same plane, and the lateral stiffness outside the wall body surface of the whole structure is enhanced. The structural integrity of the damper is guaranteed, the damper is not damaged, and the energy consumption capability of the damper is not affected, so that the damper can adapt to the rotation outside the plane of the wall body.

Drawings

Fig. 1 is a front view of a damper installed between two opposite walls in the related art.

Fig. 2 is a side view of a damper installed between two opposite walls in the related art.

Fig. 3 is a schematic diagram of a variation of fig. 2 under the action of a two-way earthquake.

Fig. 4 is a front view of the construction state of the damper mounting structure including the out-of-plane limit of the present invention.

Fig. 5 is a side view of the damper mounting structure including the outer limit according to the present invention in a construction state under the action of a bidirectional earthquake.

Fig. 6 is a side view of a first embodiment of a stop member of the damper mounting structure including an out-of-plane stop according to the present invention.

Fig. 7 and 8 are a side view and an exploded view of a second embodiment of a stop member of a damper mounting structure including an out-of-plane stop according to the present invention.

Fig. 9 and 10 are a side view and an exploded schematic view of a third embodiment of a stop member of a damper mounting structure including an out-of-plane stop according to the present invention.

Fig. 11 is a schematic view of a connector of the damper mounting structure including an out-of-plane limit of the present invention.

Detailed Description

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

Referring to fig. 4, a front view of the construction state of the damper mounting structure including the out-of-plane limiting of the present invention is shown. Fig. 5 shows a side view of the damper mounting structure including the outer limit according to the present invention in a construction state under the action of a bidirectional earthquake. With reference to fig. 4 and 5, the present invention provides an outer-limiting damper mounting structure for mounting a damper 10 between the abutting surfaces of a pair of walls 20, which are arranged up and down relatively, the mounting structure includes:

a protrusion 30 protruding from the abutting surface of the wall 20, wherein a pair of sides of the protrusion 30 are opposite to each other;

a pair of connecting members 40 fixed to opposite sides of the pair of protrusions 30, the pair of connecting members 40 being fixedly coupled to opposite axial ends of the damper 10 to mount the damper 10 between the pair of protrusions 30;

a first stopper 51 fixed to the protruding portion 30; and

and the second limiting member 52 is fixed to the wall opposite to the protruding portion, the second limiting member 52 and the first limiting member 51 are slidably connected, and corresponding side surfaces are mutually blocked, so that the pair of walls 20 is limited to be located on the same plane.

In this embodiment, the wall 20 is provided with a frame beam, and a certain distance is left between a pair of walls 20 arranged opposite to each other up and down for placing the damper 10. The bottom surface of the upper wall 20 and the top surface of the lower wall 20 are abutting surfaces.

A pair of walls 20 are formed with a protrusion 30, respectively, and the protrusions 30 are located at the edges of the walls 20 such that a space is left between the sides of the pair of protrusions 30, and the damper 10 is transversely fixed between the two protrusions 30 such that the damper can be axially coupled to the pair of walls 20. Therefore, the vibration energy of the main body structure is dissipated by using the damping energy consumption of the damper during the use process.

As a preferred embodiment of the damper mounting structure including the out-of-plane limiting according to the present invention, referring to fig. 6, a side view of a limiting member of the damper mounting structure including the out-of-plane limiting according to the present invention is shown. Fig. 7 is an exploded view of fig. 6. As shown in connection with figures 4 to 6,

the first limiting member 51 is a sliding slot or a protrusion fixed to the protruding portion 30;

the second position-limiting element 52 is a protrusion or a sliding slot fixed on the wall 20 opposite to the protruding portion 30.

The protrusions are slidably disposed in the sliding grooves, so that the protruding portion 30 and the opposite wall 20 can be slidably disposed along the plane direction of the wall 20 under the action of the damper, and the vibration energy of the main structure is dissipated by using the damping energy consumption of the damper in the using process. The pair of walls 20 can rotate in the same direction perpendicular to the plane direction of the walls under the action of the two-way seismic force through the first limiting piece and the second limiting piece, so that the pair of walls 20 are prevented from being staggered with each other, the pair of walls 20 are ensured to be located on the same plane, and the lateral stiffness of the whole structure outside the wall surface is enhanced.

As a preferred embodiment of the damper mounting structure including the out-of-plane limit, the inner wall of the sliding groove is fixed with an isolation layer attached to the protrusion, and also plays a certain role in buffering.

As a preferred embodiment of the damper mounting structure with out-of-plane limiting according to the present invention, refer to fig. 6, which is a side view of a first embodiment of a limiting member of the damper mounting structure with out-of-plane limiting according to the present invention. As shown in fig. 4 to 6, the chute includes: a groove bottom plate 510b attached and fixed to the protruding portion; and a pair of wall plates 511b disposed vertically opposite to the tank bottom plate 510 b; the projection includes: a convex bottom plate 520b attached to the wall opposite to the convex portion; and an insertion plate 521b vertically fixed to the raised bottom plate, wherein the insertion plate 521b is inserted between the pair of wall plates 511 b.

As a preferred embodiment of the damper mounting structure including the out-of-plane limiting structure of the present invention, reference is made to fig. 7 and 8 for a side view and an exploded view of a second embodiment of the limiting member of the damper mounting structure including the out-of-plane limiting structure of the present invention. The chute includes: a groove bottom plate 510c fixed to the protruding portion; and a pair of wall plates 511c disposed vertically opposite to the cell bottom plate 510 c; the projection includes: a convex bottom plate 520c attached to the wall opposite to the convex portion; an insert plate 521c vertically fixed to the raised bottom plate 520 c; and a square pipe 522c fixed to an end of the insert plate 521c and interposed between the pair of wall plates 511 c.

As a preferred embodiment of the damper mounting structure with out-of-plane limiting according to the present invention, reference is made to fig. 9 and 10 for a side view and an exploded schematic view of a third embodiment of the limiting member of the damper mounting structure with out-of-plane limiting according to the present invention. The chute includes: a groove bottom plate 510d attached and fixed to the protruding portion; and a pair of wall plates 511d vertically disposed opposite to the tank bottom plate 510 d; the projection includes: a convex bottom plate 520d attached to the wall opposite to the convex portion; an insert plate 521d vertically fixed to the raised bottom plate 520 d; and a square tube 522d fixed to an end of the inserting plate 521d and inserted between the pair of wall plates 511d, wherein the wall plate 511d is formed with a baffle plate laterally blocking a top surface of the square tube 522 d. The bottom of the square pipe 522d is arranged on the groove bottom plate 510d, so that vertical pulling and pressing limiting can be simultaneously carried out.

As a preferred embodiment of the damper mounting structure including the out-of-plane limiting according to the present invention, refer to fig. 11, which is a schematic diagram of the connecting member of the damper mounting structure including the out-of-plane limiting according to the present invention. As described in conjunction with fig. 4 to 11, the connection member 40 includes: an end plate 41 fixed to an axial end of the damper 10; a connecting plate 42 vertically fixed to the end plate 41, the connecting plate 42 being fixed to a side of the corresponding protrusion 30; and a stiffening rib 43 fixed between the end plate 41 and the connecting plate 42. The damper 10 is axially connected between a pair of walls by a connecting member 40.

As a preferred embodiment of the damper mounting structure including the out-of-plane limit of the present invention, the side surface of the protruding portion 30 is attached and fixed with the embedded plate 60, and the connecting plate 42 is perpendicularly fixed to the embedded plate 60. The pre-buried plate 60 is pre-buried in the process of forming the protruding portion 30 in construction for subsequent installation and fixation.

The distance between the sides of the two protrusions 30 is the sum of the axial length of the damper 10 and the length of the two connection members 40. The distance between the end face of the protrusion 30 and the abutting face of the opposite wall 20 is adapted to the height of the stopper.

The utility model discloses contain spacing attenuator mounting structure of off-plate's beneficial effect does:

the utility model discloses a protruding stretch separately on a pair of wall body relative forms a pair of protruding portion relative, can make things convenient for the axial installation attenuator between the side of a pair of protruding portion, protruding portion and relative wall body can slide each other along the plane direction of wall body under the effect of attenuator and establish, utilize the damping power consumption of attenuator to dissipate major structure's vibration energy in the use.

A limiting part is arranged between the abutting surfaces of the protruding part and the opposite wall bodies, and the pair of wall bodies rotate in the same direction perpendicular to the plane direction of the wall bodies under the action of the two-way seismic force through the limiting part, so that the pair of wall bodies are prevented from being staggered with each other, the pair of wall bodies are ensured to be positioned on the same plane, and the lateral stiffness outside the wall body surface of the whole structure is enhanced. The structural integrity of the damper is guaranteed, the damper is not damaged, and the energy consumption capability of the damper is not affected, so that the damper can adapt to the rotation outside the plane of the wall body.

The present invention has been described in detail with reference to the embodiments shown in the drawings, and those skilled in the art can make various modifications to the present invention based on the above description. Therefore, certain details of the embodiments should not be construed as limitations of the invention, which are intended to be covered by the following claims.

Claims (8)

1. The utility model provides a contain spacing attenuator mounting structure of off-plane for install the attenuator between the butt joint face of a pair of wall body of relative setting from top to bottom, its characterized in that, mounting structure includes:

the pair of protruding parts are arranged oppositely on the side surfaces of the protruding parts;

a pair of connecting members fixed to opposite side surfaces of the pair of protruding portions, the pair of connecting members being fixedly connected to opposite axial ends of the damper so as to mount the damper between the pair of protruding portions;

a first limiting member fixed to the protruding portion; and

and the second limiting part is fixed on the wall body opposite to the protruding part, the second limiting part and the first limiting part are connected in a sliding mode, and corresponding side faces are mutually blocked, so that the pair of wall bodies are limited to be positioned on the same plane.

2. The out-of-plane limit-containing damper mounting structure of claim 1,

the first limiting piece is a sliding groove or a protrusion fixed on the protruding part;

the second limiting part is a bulge or a sliding groove fixed on the wall body opposite to the protruding part.

3. The mounting structure for a damper including an out-of-plane limit as recited in claim 2, wherein an isolation layer is secured to an inner wall of said channel and abuts said protrusion.

4. The out-of-plane limit-containing damper mounting structure of claim 2,

the chute includes:

a groove bottom plate fixed on the protruding part is pasted; and

the pair of wall plates are vertically and oppositely arranged on the groove bottom plate;

the projection includes:

a convex bottom plate which is attached and fixed on the wall body opposite to the convex part; and

the inserting plates are vertically fixed on the convex bottom plate and are inserted between the pair of the wall plates.

5. The out-of-plane limit-containing damper mounting structure of claim 2,

the chute includes:

a groove bottom plate fixed on the protruding part is pasted; and

the pair of wall plates are vertically and oppositely arranged on the groove bottom plate;

the projection includes:

a convex bottom plate which is attached and fixed on the wall body opposite to the convex part;

the inserting plate is vertically fixed on the convex bottom plate; and

and the square pipe is fixed at the end part of the inserting plate and is inserted between the pair of wall plates.

6. The out-of-plane limit-containing damper mounting structure of claim 2,

the chute includes:

a groove bottom plate fixed on the protruding part is pasted; and

the pair of wall plates are vertically and oppositely arranged on the groove bottom plate;

the projection includes:

a convex bottom plate which is attached and fixed on the wall body opposite to the convex part;

the inserting plate is vertically fixed on the convex bottom plate; and

the square tube is fixed at the end part of the inserting plate and inserted between the pair of wall plates, and the wall plates are provided with a baffle plate transversely blocked on the top surface of the square tube.

7. The out-of-plane restraint-containing damper mounting structure of claim 1, wherein the connector comprises:

an end plate fixed to an axial end of the damper;

the connecting plate is vertically fixed on the end plate and is fixed on the side surface of the corresponding protruding part; and

and the stiffening ribs are fixed between the end plates and the connecting plates.

8. The out-of-plane limit-containing damper mounting structure of claim 7, wherein a pre-buried plate is affixed to a side of the protruding portion, and the connecting plate is perpendicularly fixed to the pre-buried plate.

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