CN102155057B - Assembled lead shear damper - Google Patents

Abstract

The invention provides an assembled lead shear damper, which is easy to assemble and has stable performance. The damper comprises a middle pulling plate, an end part connection plate, a lead column, a first inner layer pulling plate and a second inner layer pulling plate; the first inner layer pulling plate and the second inner layer pulling plate are positioned on both sides of the middle pulling plate and both sides of the end part connection plate; a middle layer lead column hole and a middle layer pin hole are formed on the middle pulling plate; the first inner layer pulling plate and thesecond inner layer pulling plate form an inner layer pulling plate; the inner layer pulling plate comprises an inner layer pulling plate main body on which an inner layer lead column hole and an obround limiting hole are formed; the inner layer lead column hole is positioned at one end of the inner layer pulling plate main body; the other end of the end part connection plate is connected with theinner layer pulling plate main body; a connection pin is arranged in the middle layer pin hole of the middle pulling plate and passes through the obround limiting hole of the inner layer pulling plate; the inner layer lead column hole is coaxial with the middle layer lead column hole; and the lead column is positioned in the inner layer lead column hole and the middle layer lead column hole. By changing of a shear area of the lead column, such as increasing of the diameter or the number of shear surfaces of the lead column, output force can be increased.

Description

The assembling lead shear damper

Technical field

The present invention is a kind of assembling lead shear damper, through setting effective lead block surface of shear, consumes the structural system energy, structure is played the effect of energy-dissipating and shock-absorbing (shaking).Since lead loss can validity, this assembling lead shear damper can be widely used in the power consumption support, bridge damping of building structure etc.

Background technology

Energy-dissipating and shock-absorbing (shaking) technology is a kind of effective structure control technology, and it is through in the appropriate location of structure energy-dissipating and shock-absorbing (shaking) device being installed, to reduce the dynamic response of structure under earthquake, strong wind or other dynamic load function.Lead damper is a kind of effective damping device that is widely used in the engineering structures damping.Common have plumbous extrusion pressing type and a plumbous shearing-type.In the last few years, some novel lead dampers appearred successively, like bright rotary type lead shear damper and the board-like shearing type lead damper that waits exploitation of the Yan Wei of Beijing University of Technology; Rotary type shearing damp device is mainly used in bean column node, and this damper will be had an effect when bean column node deforms in the earthquake; The Zhou Yun of Guangzhou University etc. has developed plumbous damping tube damper.

Existing research shows that lead damper (shearing-type, extrusion pressing type) has following characteristics: (1) can obtain good energy dissipation capacity under small deformation; (2) except that the column type damper, other damper hysteretic loop curves have typically " Coulomb friction " characteristic, and mechanical model is simple; (3) load frequency and cycle-index are less to the service behaviour influence, have good stable property and durability; (4) simple structure, easily manufactured.

Fig. 1 and Fig. 2 are respectively a kind of common plumbous extruding and lead shear damper.The former is through the lead in flanged central axis extruding closed cavity, with consumed energy; The latter is through lead block generation shear strain consumed energy.The shortcoming of lead extrusion damper shown in Figure 1 is closed cavity is irritated comparatively complicacy of splicer's skill; The shortcoming of lead shear damper shown in Figure 2 is a lead block and sliding panel and effective comparatively difficulty that is connected of cover plate up and down.

The present invention constructs a kind of novel assembling lead shear damper according to the characteristics of existing lead damper, has solved the filling splicer problems such as complicacy, lead block complex connection of planting to a great extent.The assembling lead shear damper that the present invention proposes can be widely used in the power consumption support, bridge damping of building structure etc.; Have simple structure, easy to process, the excellent characteristics of power consumption effect.

Summary of the invention

Technical problem

The present invention provides a kind of simple structure, easy to process, stable performance, assembling lead shear damper that energy dissipation capacity is strong.

Technical scheme

A kind of assembling lead extrusion damper of the present invention; Arm-tie, end junction plate, lead block, the first internal layer arm-tie and the second internal layer arm-tie in the middle of comprising; The both sides of arm-tie and end junction plate in the middle of the first internal layer arm-tie and the second internal layer arm-tie lay respectively at; On middle arm-tie, be provided with lead block hole, middle level and middle level pin-and-hole; The described first internal layer arm-tie and the second internal layer arm-tie are the internal layer arm-tie, and described internal layer arm-tie comprises internal layer arm-tie body, on internal layer arm-tie body, are provided with the end that internal layer lead block hole and Long Circle spacing hole and internal layer lead block hole are positioned at internal layer arm-tie body; The other end of said end junction plate is connected with internal layer arm-tie body; In the pin-and-hole of the middle level of middle arm-tie, be provided with the Long Circle spacing hole that connecting pin and said connecting pin pass the internal layer arm-tie, said internal layer lead block hole is coaxial with lead block hole, middle level, and lead block is arranged in internal layer lead block hole and lead block hole, middle level.

Beneficial effect

The invention provides the assembling lead shear damper of a kind of simple structure, easy to process, stable performance.Related parts get final product through simple assembling, both need not to irritate plumbous, also need not to be provided with complicated structure to connect lead block and steel plate.Existing research shows that the lead damper energy dissipation capacity is strong, does not receive work sclerosis or tired influence, has good stable property and durability, can be widely used in vibration damping (shake) power consumption of engineering structures.The assembling lead shear damper that the present invention proposes has the general character of traditional lead damper.The energy dissipation capacity of lead shear damper is directly related with the plumbous area of shearing, thereby can be through changing the shearing area of lead block, to reach the requirement of power consumption and output damping force.The method of common change lead block shearing area comprises: (1) increases the lead block diameter; (2) quantity of increase lead block surface of shear.

For the power consumption effect of this damper is described, carry out simple example as a means of explanation based on the finite element platform.For simplicity, ignoring friction and other between buck plate to the less factor of damper power output influence, is example with 4 lead block surface of shear, analyzes the energy dissipation behavior of this damper based on the Abaqus platform.Take following supposition in the FEM model: the coefficient of contact friction of (1) steel plate and lead block is 0.02; (2) plumbous material behavior is taked this structure of ideal elastic-plastic, and poisson's ratio is got 0.42 characteristics to consider that its compressibilty is little; (3) elastic deformation only takes place in steel plate.

Suppose that the lead block diameter is that 100mm, steel plate thickness are 20mm, it is as shown in Figure 3 to set up nonlinear finite element analysis model, and unit and node number are respectively 24840 and 15380.Adopt 8 nodes reduction integration solid element C3D8R simulation lead block and steel plate; The mesh-density of lead block is restrained to help nonlinear solution greater than the mesh-density of steel plate; Between lead block and steel plate hard the contact is set, i.e. the not penetrable steel plate of lead block; Constraint lead block translational degree of freedom vertically.Because it is bigger that lead block is out of shape in shear history,, adopt the Explicit solver to intend static analysis in the literary composition, and the lead block unit is carried out the quality convergent-divergent for practicing thrift computing time and being convenient to the model convergence.Consider material and geometrical non-linearity simultaneously in the non-linear plan static analysis.Steel plate one end node is provided with fixed boundary, and other end node is provided with the translational velocity fringe conditions, and it is as shown in Figure 4 that speed loads course, and corresponding end displacement time-histories is as shown in Figure 5.

The hysteresis loop of this damper is as shown in Figure 6, and visible by Fig. 6, (1) this hysteretic loop is comparatively full; The initial stiffness of strong (2) damper of energy dissipation capacity is bigger; In case lead block generation part shear failure, its damper power output changes less, and the rigidity after the lead block surrender is relevant with the rigidity of steel plate; (3) burr partly acutely causes owing to lead block is out of shape on the hysteresis loop.With regard to example, the about 440kN of maximum power output of this damper, the method for increase damping force is as previously mentioned.

Description of drawings

Further the present invention will be described below in conjunction with accompanying drawing and embodiment.

Fig. 1 tradition lead extrusion damper.

Fig. 2 tradition lead shear damper.

Fig. 3 assembling lead shear damper is simplified FEM model.

Fig. 4 speed loads time-histories.

Fig. 5 displacement time-histories.

Displacement-the line of load of Fig. 6 assembling lead shear damper.

Arm-tie 3-D view in the middle of Fig. 7.

The outer arm-tie 3-D view of Fig. 8.

Fig. 9 internal layer arm-tie 3-D view.

Figure 10 end junction plate 3-D view.

Figure 11 liner plate 3-D view.

Figure 12 lead block 3-D view.

Figure 13 lead block shrouding 3-D view.

Figure 14 assembling lead extrusion damper plan view.

Figure 15 assembling lead extrusion damper elevation.

A-A section among Figure 16 Figure 14.

B-B section among Figure 17 Figure 15.

Figure 18 assembling lead shear damper 3-D view (not containing shrouding).

Figure 19 assembling lead shear damper 3-D view.

Have among the above figure: middle arm-tie (1), end junction plate (4), lead block (9), the first internal layer arm-tie and the second internal layer arm-tie, connecting pin (8), the first lead block shrouding (61) and the second lead block shrouding (62) first outside arm-ties (21) and second outside arm-tie (22).

The specific embodiment

A kind of assembling lead shear damper; Arm-tie 1, end junction plate 4, lead block 9, the first internal layer arm-tie and the second internal layer arm-tie in the middle of comprising; The both sides of arm-tie 1 and end junction plate 4 in the middle of the first internal layer arm-tie and the second internal layer arm-tie lay respectively at; On middle arm-tie 1, be provided with lead block hole, middle level 11 and middle level pin-and-hole 12; The described first internal layer arm-tie and the second internal layer arm-tie are internal layer arm-tie 3, and described internal layer arm-tie 3 comprises internal layer arm-tie body 30, on internal layer arm-tie body 30, are provided with the end that internal layer lead block hole 31 and Long Circle spacing hole 32 and internal layer lead block hole 31 are positioned at internal layer arm-tie body 30; The other end of said end junction plate 4 is connected with internal layer arm-tie body 30; In the middle level of middle arm-tie 1 pin-and-hole 12, be provided with the Long Circle spacing hole 32 that connecting pin 8 and said connecting pin 8 pass internal layer arm-tie 3, said internal layer lead block hole 31 is coaxial with lead block hole 11, middle level, and lead block 9 is arranged in internal layer lead block hole 31 and lead block hole, middle level 11.In the present embodiment,

Be respectively equipped with first outside arm-tie 21 and second outside arm-tie 22 in the outside of the first internal layer arm-tie and the second internal layer arm-tie; Said connecting pin 8 stretches out and passes an end of first outside arm-tie 21 and an end of second outside arm-tie 22 respectively; The other end of the other end of first outside arm-tie 21 and second outside arm-tie 22 is connected with middle arm-tie 1 respectively, and said lead block 9 stretches out and passes an end and second outside arm-tie 22 of first outside arm-tie 21 respectively.

Be respectively equipped with the first lead block shrouding 61 and the second lead block shrouding 62 that is used to cover lead block 9 at first outside arm-tie 21 and second outside arm-tie 22.

Case study on implementation:

Case study on implementation shown in figure 19: middle arm-tie 1 can adopt high-strength bolt 7 to be connected with the first internal layer arm-tie and the second internal layer arm-tie and fix; End junction plate 4 also can adopt high-strength bolt 7 to be connected with the first internal layer arm-tie and the second internal layer arm-tie and fix; The space adopts liner plate 5 to fill and lead up between first outside arm-tie 21 and second outside arm-tie 22 and the middle arm-tie 1, and high-strength bolt 7 passes first outside arm-tie 21, second outside arm-tie 22, middle arm-tie 1 and liner plate 5, applies certain prestressing force and carries out fastening.Connecting pin (8) also can adopt high-strength bolt, and 3 internal layer arm-ties, first outside arm-tie 21 and second outside arm-tie 22 are applied certain prestressing force, to improve friction effect, to strengthen energy dissipation capacity.

Center arm-tie 1 can weld with associated components with end junction plate 4 ends or bolt is connected to be mounted in the structure that needs damping.

The length of the Long Circle spacing hole 32 of internal layer arm-tie 3 need be looked damping and required to be provided with, and the length of slotted hole 32 should be near 2 times of shock-damping structure demand displacement limit value.

The end face that adopts high-strength bolt to connect need carry out rubbing surface to be handled, and executes and twists the pretightning force that needs to consider the high-strength bolt design specifications.High-strength caging bolt 8 limits lead block 9 both sides arm-ties on the one hand and rotates around lead block, on the other hand certain frictional force can be provided, and helps the energy dissipation capacity of assembling lead shear damper.High-strength caging bolt 8 pretightning forces can be considered the half the of design load, and excessive pretightning force can cause the initial stiffness of damper excessive, and is unfavorable for the structural safety of assembling lead shear damper.

Claims (3)

1. assembling lead shear damper; It is characterized in that; Arm-tie (1), end junction plate (4), lead block (9), the first internal layer arm-tie and the second internal layer arm-tie in the middle of comprising; The both sides of arm-tie (1) and end junction plate (4) in the middle of the first internal layer arm-tie and the second internal layer arm-tie lay respectively at; On middle arm-tie (1), be provided with lead block hole, middle level (11) and middle level pin-and-hole (12); The described first internal layer arm-tie and the second internal layer arm-tie are internal layer arm-tie (3), and described internal layer arm-tie (3) comprises internal layer arm-tie body (30), on internal layer arm-tie body (30), are provided with the end that internal layer lead block hole (31) and Long Circle spacing hole (32) and internal layer lead block hole (31) are positioned at internal layer arm-tie body (30); One end of said end junction plate (4) is connected with internal layer arm-tie body (30); In the middle level pin-and-hole (12) of middle arm-tie (1), be provided with the Long Circle spacing hole (32) that connecting pin (8) and said connecting pin (8) pass internal layer arm-tie (3), said internal layer lead block hole (31) is coaxial with lead block hole, middle level (11), and lead block (9) is arranged in internal layer lead block hole (31) and lead block hole, middle level (11).

2. assembling lead shear damper according to claim 1; It is characterized in that; Be respectively equipped with first outside arm-tie (21) and second outside arm-tie (22) in the outside of the first internal layer arm-tie and the second internal layer arm-tie; Said connecting pin (8) stretches out and passes an end of first outside arm-tie (21) and an end of second outside arm-tie (22) respectively; The other end of the other end of first outside arm-tie (21) and second outside arm-tie (22) is connected with middle arm-tie (1) respectively, and said lead block (9) stretches out and passes an end and second outside arm-tie (22) of first outside arm-tie (21) respectively.

3. assembling lead shear damper according to claim 2 is characterized in that, is respectively equipped with the first lead block shrouding (61) and the second lead block shrouding (62) that is used to cover lead block (9) at first outside arm-tie (21) and second outside arm-tie (22).

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