CN102912879A - Sealing plate and sealing hole viscous damper - Google Patents

Abstract

The invention provides a sealing plate and sealing hole viscous damper. The sealing plate and sealing hole viscous damper mainly comprises a main cylinder, a guide rod, a main cylinder connection lug ring, an auxiliary cylinder connection lug ring, an auxiliary cylinder, auxiliary cylinder end plates, auxiliary cylinder built-in sealing plates, sealing plate connection ribs, a main cylinder division cavity, an auxiliary cylinder division cavity, a main cylinder end plate, viscous liquid, a sealing ring, a polyurethane oil seal, a resetting spring, fine sealing hole channels and the like, and is characterized in that the auxiliary cylinder mainly comprises two auxiliary cylinder end plates and a plurality of auxiliary cylinder built-in sealing plates; the auxiliary cylinder built-in sealing plates are arranged in parallel and are connected with one another through the guide rod and the sealing plate connection ribs; the fine sealing hole channels are formed in the auxiliary cylinder built-in sealing plates; pressure limiting valves are arranged on the auxiliary cylinder end plates; the auxiliary cylinder is connected with the main cylinder through a spring; and the sealing ring and the polyurethane oil seal are arranged on one side of the guide rod. The sealing plate and sealing hole viscous damper has the effects and the advantages of large damping force, high initial rigidity, high reliability and stability, simplicity in manufacturing and mounting and convenience in use and can be applied to earthquake resistant design of new building engineering and reinforcement and maintenance of existing engineering.

Description

The close hole of close plate viscous damper

Technical field

The present invention relates to a kind of building construction vibration control device, particularly relate to a kind of close hole of for building close plate viscous damper of building construction vibration control.

Background technology

Earthquake disaster has sudden and crushing, and the safety of human life, property in serious threat.Annual failure earthquake is nearly thousand times in the world, and a violent earthquake can cause the economic loss of more than one hundred billion dollar, causes the hundreds of thousands people dead or serious wounded or disabled.China is located in the world on two most active earthquake zones, is one of the most serious country that suffers disaster from an earthquake, and the casualties that earthquake causes occupies first place in the world, and economic loss is also very huge.In the earthquake considerable damage of building with collapse, be the immediate cause that causes earthquake disaster.When earthquake occured, ground vibration caused the earthquake response of structure.Be fixed in the building structure on ground for the basis, its reaction is along successively amplifying highly from top to bottom.Because the earthquake response (acceleration, speed or displacement) of works a part is excessive, makes the heavy damage of main body load-carrying members even collapse; Although or agent structure do not destroy, the breaking-up such as architectural coating, finishing or other non-structure accessory and cause heavy losses; Or indoor expensive instrument, damage of facilities cause serious loss or secondary disaster.For fear of the generation of above-mentioned disaster, people must control the earthquake response of structural system, and eliminate " amplifier " effect of structural system.

20 beginnings of the century, the seismic Calculation method that large gloomy professor Fang Ji of Japan proposes and the seismic coefficient method of helping wild sharp weapon doctor proposition are not all considered the dynamic characteristics of structure, successors are referred to as the static(al) theory of seismic design, in order to resist earthquake, tend to adopt firm building structure more, i.e. " rigid structural system ", but this structural system is difficult to real the realization, also uneconomical, only have the important building of only a few to adopt this structural system.Development along with society, building is more and more huger, complicated, and people have had higher requirement to safety of building, and the target of setting up defences that therefore will reach expection in rational economic limit is more difficult, between safety and economy, people face dilemma.Secondly, people to the understanding of earthquake not enough, predict thing earthquake response earthquake response actual with it also has certain gap, thereby the seismic measures of taking is also not exclusively reasonable.Break through the first time of antidetonation theoretical developments is in early 1950s, and the people such as the M A Biot of the U.S. propose the reacting spectrum theory of seismic design.At this moment people begin to consider that the dynamic characteristics between earthquake motion and the building concerns, have proposed " ductility structural system ".Compare with method for designing the earliest, Ductility Design Method is with the thought of energy being carried out " dredging ", so it has certain science.Yet works will stop the vibration reaction, must carry out power conversion or consumption.This Aseismic Structure System, damaging appears in earthquake in admissible structure and supporting member (post, beam, node etc.), namely rely on the damage of structure and supporting member to consume most of energy, often cause structural element heavy damage even collapse in earthquake, this be to a certain extent unreasonable also be unsafe.Progress and expanding economy along with society, people require also more and more higher to antidetonation shock attenuation, windproof, some important building (such as memorial architecture, the modern architecture of decorating costliness and nuclear power station etc.) does not allow structural element to enter inelastic state, the application of " ductility structural system " is restricted day by day, and these all become reality that the Structural Engineering technician faces and great problem.The various countries scholar actively is devoted to exploration and the research of new Aseismic Structure System, and U.S. mat scholar Yao Zhiping of Chinese origin (J T P Yao) professors in 1972 have clearly proposed the concept of vibration control of civil engineering structure for the first time.Yao thinks that the performance of structure can be controlled by control device, so that they under the environmental load effect, can remain in the scope of an appointment, for guaranteeing safety, displacement structure needs restriction, considers from occupants's comfort aspect, and acceleration needs restriction.Vibration control of civil engineering structure can alleviate reaction and the damage accumulation of structure under the dynamic actions such as earthquake, wind, vehicle, wave, stream, ice effectively, effectively improves the shock resistance of structure and combats a natural disaster performance.The antidetonation theory enters again a new developing stage like this.

Viscous damper is according to fluid motion, and particularly the principle of viscosity resistance makes when fluid can produce during by throttle orifice.It is a kind of and rigidity, velocity correlation type damper.Be widely used in the fields such as highrise building, bridge, building structure aseismatic transformation, industrial pipeline equipment antivibration, military project.General oil damper replaces hydraulic giant cylinder and depression bar with oil cylinder and the piston of steel.And at piston tiny oilhole is set, replace the outlet of water.When oil body passed through narrow and small damping hole, the energy that damper absorbs was converted to heat energy by the fluid opposing.

At present the viscous damper of research and development has China Patent No. 201110324602.9 to disclose a kind of name to be called " a kind of online adjustable damping viscous damper " patent of invention; China Patent No. 200810040841.X discloses the patent of invention that a kind of name is called " with the viscous damper of axially stop block "; China Patent No. 200810040842.4 discloses a kind of name and has been called " with the viscous damper of radial limiting device " patent of invention; China Patent No. 200910027946.6 discloses the patent of invention that a kind of name is called " spiral-hole type viscous damper "; China Patent No. 200910027945.1 discloses a kind of name and has been called " controllable viscous damper " patent of invention; China Patent No. 201010136260.3 discloses the patent of invention that a kind of name is called " Shaftless anti-leakage viscous damper "; China Patent No. 201010293529.9 discloses a kind of name and has been called " a kind of viscous damping limit method and viscous damper with stopper " patent of invention; China Patent No. 201010282535.4 discloses the patent of invention that a kind of name is called " a kind of viscous damper ".

When damping hole diameter one timing that oil body passes through, the resistance of oil damper is roughly proportional with 2 powers of loading velocity.Oil damper can produce the product of the resistance with various characteristics by the combination of various pressure regulator valves and dropping valve.But on the other hand, because component of machine quantity increases, reliability reduces, and the possibility of the problem such as easily break down becomes large.

Summary of the invention

The object of the present invention is to provide the close hole of a kind of close plate viscous damper; this damper has good reliability and stability; and the power consumption effect that utilizes the close hole of close plate viscous damper can reduce the earthquake response of building structure, and building structure is played a very good protection.

In order to realize purpose of the present invention, the technical solution used in the present invention is:

The close hole of a kind of close plate viscous damper, include the master cylinder cylinder, guide rod, master cylinder cylinder connecting lug, secondary cylinder barrel connecting lug, secondary cylinder barrel, secondary cylinder barrel end plate, the built-in close plate of secondary cylinder barrel, close plate connection rib, the master cylinder cylinder divides a chamber, secondary cylinder barrel divides a chamber, the master cylinder tube end-plate, viscous liquid, sealing ring, the polyurethane oil sealing, back-moving spring and fine and closely woven duct, described secondary cylinder barrel is arranged in the master cylinder cylinder and by spring and is connected with the master cylinder cylinder, secondary cylinder barrel includes two secondary cylinder barrel end plates and the built-in close plate of several secondary cylinder barrels, the built-in close plate of secondary cylinder barrel is arranged in parallel, by guide rod be connected the plate connection rib and connect, the tail end of guide rod is equipped with secondary cylinder barrel connecting lug; The built-in close plate of secondary cylinder barrel arranges fine and closely woven duct, secondary cylinder barrel end plate arranges pressure limiting valve, the master cylinder cylinder is equipped with sealing ring and polyurethane oil sealing at this end that is provided with guide rod, master cylinder cylinder connecting lug is installed on the master cylinder tube end-plate of the other end of master cylinder cylinder, and viscous liquid is filled the master cylinder cylinder, the master cylinder cylinder divides a chamber, secondary cylinder barrel, secondary cylinder barrel to divide a chamber.

Advantage and effect that the present invention has are:

The close hole of the close plate of the present invention viscous damper adopts the close hole of close plate method for designing, and the number of times by fine and closely woven duct is significantly increased, and has increased the damping force of damper, has more increased the reliability and stability of damper.Utilize the power consumption effect of the close hole of close plate viscous damper can reduce the earthquake response of building structure, building structure is played a very good protection.Gong the damping force of the close hole of close plate viscous damper is large, and initial stiffness is large, and reliability and stability are high, makes, installs simple, easy to use, both can be used for the seismic design of new building engineering, also can be used for the reinforcing maintenance of existing engineering.

Description of drawings

Fig. 1 is the close hole of the close plate of the present invention viscous damper elevational schematic view;

Fig. 2 is the close hole of the close plate of the present invention viscous damper floor map;

Fig. 3 is the A-A generalized section of Fig. 2;

Fig. 4 is the B-B generalized section of Fig. 2.

Among the figure, 1 is the master cylinder cylinder; 2 is guide rod; 3 is master cylinder cylinder connecting lug; 4 is secondary cylinder barrel connecting lug; 5 is secondary cylinder barrel; 6 is secondary cylinder barrel end plate; 7 is the built-in close plate of secondary cylinder barrel; 8 is close plate connection rib; 9 divide a chamber for the master cylinder cylinder; 10 divide a chamber for secondary cylinder barrel; 11 is the master cylinder tube end-plate; 12 is viscous liquid; 13 is sealing ring; 14 is the polyurethane oil sealing; 15 is back-moving spring; 16 is fine and closely woven duct.

The specific embodiment

The present invention is described in detail below in conjunction with technical scheme with reference to accompanying drawing.

Such as Fig. 1 ~ shown in Figure 4, the close hole of a kind of close plate of the present invention viscous damper, include master cylinder cylinder 1, guide rod 2, master cylinder cylinder connecting lug 3, secondary cylinder barrel connecting lug 4, secondary cylinder barrel 5, secondary cylinder barrel end plate 6, the built-in close plate 7 of secondary cylinder barrel, close plate connection rib 8, the master cylinder cylinder divides a chamber 9, secondary cylinder barrel divides a chamber 10, master cylinder tube end-plate 11, viscous liquid 12, sealing ring 13, polyurethane oil sealing 14, back-moving spring 15 and fine and closely woven duct 16, described secondary cylinder barrel 5 is arranged in the master cylinder cylinder 1 and by spring and is connected with master cylinder cylinder 1, secondary cylinder barrel 5 includes two secondary cylinder barrel end plates 6 and the built-in close plate 7 of several secondary cylinder barrels, the built-in close plate 7 of secondary cylinder barrel is arranged in parallel, by guide rod 2 be connected plate connection rib 8 and connect, the tail end of guide rod 2 is equipped with secondary cylinder barrel connecting lug 4; The built-in close plate 7 of secondary cylinder barrel arranges fine and closely woven duct 16, secondary cylinder barrel end plate 6 arranges pressure limiting valve, master cylinder cylinder 1 is equipped with sealing ring 13 and polyurethane oil sealing 14 at this end that is provided with guide rod 2, master cylinder cylinder connecting lug 3 is installed on the master cylinder tube end-plate 11 of the other end of master cylinder cylinder 1, and master cylinder cylinder 1, master cylinder cylinder divide a chamber 9, secondary cylinder barrel 5 and secondary cylinder barrel to divide to fill viscous liquid 12 in the chamber 10.

Operating principle of the present invention is as follows:

When being subject to tension and compression, the close hole of close plate viscous damper does the time spent, when reaching pre-set threshold value, mutually motion between master cylinder cylinder and the secondary cylinder barrel, make the master cylinder cylinder divide viscous liquid in the chamber to continue to flow and divide a chamber to secondary cylinder barrel, and constantly divide a chamber to flow to the secondary cylinder barrel of opposite side, enter another master cylinder cylinder and divide a chamber.Because the close plate that arranges is more, so viscous liquid will repeatedly flow through the close hole of close plate, and the number of times by fine and closely woven duct is significantly increased, and increase the damping force of damper, more increase the reliability and stability of damper.

Claims (1)

1. the close hole of close plate viscous damper, it is characterized in that including master cylinder cylinder (1), guide rod (2), master cylinder cylinder connecting lug (3), secondary cylinder barrel connecting lug (4), secondary cylinder barrel (5), secondary cylinder barrel end plate (6), the secondary built-in close plate of cylinder barrel (7), close plate connection rib (8), the master cylinder cylinder divides a chamber (9), secondary cylinder barrel divides a chamber (10), master cylinder tube end-plate (11), viscous liquid (12), sealing ring (13), polyurethane oil sealing (14), back-moving spring (15) and fine and closely woven duct (16), described secondary cylinder barrel (5) is arranged in the master cylinder cylinder (1) and by spring and is connected with master cylinder cylinder (1), secondary cylinder barrel (5) includes two secondary cylinder barrel end plates (6) and the built-in close plate of several secondary cylinder barrels (7), the secondary built-in close plate of cylinder barrel (7) is arranged in parallel, by guide rod (2) be connected plate connection rib (8) and connect, the tail end of guide rod (2) is equipped with secondary cylinder barrel connecting lug (4); The secondary built-in close plate of cylinder barrel (7) arranges fine and closely woven duct (16), secondary cylinder barrel end plate (6) arranges pressure limiting valve, master cylinder cylinder (1) is equipped with sealing ring (13) and polyurethane oil sealing (14) at this end that is provided with guide rod (2), on the master cylinder tube end-plate (11) of the other end of master cylinder cylinder (1) master cylinder cylinder connecting lug (3) is installed, viscous liquid (12) is filled master cylinder cylinder (1), the master cylinder cylinder divides a chamber (9), secondary cylinder barrel (5) and secondary cylinder barrel to divide a chamber (10).

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