CN108385852A

CN108385852A - A kind of environmentally friendly damping device for building

Info

Publication number: CN108385852A
Application number: CN201810245731.0A
Authority: CN
Inventors: 卢洁
Original assignee: ZHEJIANG HONGAN CONSTRUCTION CO Ltd
Current assignee: Yangxin County Xinyang Heating Power Co ltd
Priority date: 2018-03-23
Filing date: 2018-03-23
Publication date: 2018-08-10
Anticipated expiration: 2038-03-23
Also published as: CN110424806B; CN110424806A; CN108385852B

Abstract

The invention discloses a kind of environmentally friendly damping devices for building, including fixation steel plate under damping device, shock structure guard shield is provided under the damping device on the upside of fixation steel plate, one end of the shock structure guard shield is provided with fixation steel plate on damping device, the both ends of the shock structure guard shield are fixedly connected with fixation steel plate bronze drum screw movement on fixation steel plate under damping device and damping device respectively, damping device laminated rubber shock structure is provided on the inside of the shock structure guard shield, the side of the damping device laminated rubber shock structure is provided with longitudinal damping spring；Damping device by design in damping device side laterally unloads power sliding block and longitudinal power transmission sliding block, it can be passed in laminated rubber shock structure and longitudinal damping spring by damping device longitudinal direction power transmission sliding block laterally power sliding block is unloaded when earthquake occurs, damping is carried out by horizontal shock-absorbing spring and laminated rubber shock structure and longitudinal damping spring and unloads power, keeps the damping effect of damping device more preferable.

Description

A kind of environmentally friendly damping device for building

Technical field

The invention belongs to build amping device technical field, and in particular to a kind of environmentally friendly damping device for building.

Background technology

Traditional Aseismic Structure System is to resist earthquake by the performance of enhancing structure itself, such as increases reinforcing bar and adds Crossbeam, column, wall sectional dimension, in this way with the raising of building construction seismic behavior, the reinforcing bar and sectional dimension of building structure will At the increase of geometry multiple, structure construction cost will be greatly increased, and can be to the layout of floor space and the beauty of structure Generation seriously affects.Traditional earthquake-resistant structure method is increasingly difficult to meet increasing shockproof requirements.Inquire into building in It is damaged the reason of collapsing in earthquake, and is taken precautions against, it is to reduce earthquake disaster to be built from engineering and stand the earthquake-resistant structure of macroseism Harmful most direct, most efficient method.Improve Antiseismic building performance, be improve city integrated defence capability major measure it One, while being also the main task of one " anti-" in protection against and mitigation of earthquake disasters work.

Existing environmentally friendly damping device for building when in use, due to when earthquake occurs not only to building production Raw longitudinal vibration, also will appear vibration in the horizontal causes building to be damaged, and existing environmentally friendly damping device for building exists The problem of can not carrying out comprehensive damping to building when use, thus it is proposed that a kind of environmentally friendly damping device for building.

Invention content

It is mentioned above in the background art to solve the purpose of the present invention is to provide a kind of environmentally friendly damping device for building Existing environmentally friendly damping device for building when in use, due to not only generating longitudinal direction to building when earthquake occurs Vibration, also will appear vibration in the horizontal causes building to be damaged, and existing environmentally friendly damping device for building is when in use simultaneously The problem of comprehensive damping cannot being carried out to building.

To achieve the above object, the present invention provides the following technical solutions：A kind of environmentally friendly damping device for building, including damping Fixation steel plate under device, shock structure guard shield is provided under the damping device on the upside of fixation steel plate, the shock structure is anti- One end of shield shell is provided with fixation steel plate on damping device, the both ends of the shock structure guard shield respectively under damping device Fixation steel plate is fixedly connected with fixation steel plate bronze drum screw movement on damping device, the inside setting of the shock structure guard shield There are damping device laminated rubber shock structure, the side of the damping device laminated rubber shock structure to be provided with longitudinal damping spring, The both ends of the damping device laminated rubber shock structure and longitudinal damping spring are both provided with shock structure fixed plate, the shock structure Fixed plate is fixedly connected with longitudinal damping spring and damping device laminated rubber shock structure by screw, the longitudinal direction damping The side of spring is provided with the flexible protective jacket of damping spring, and the flexible protective jacket of the damping spring passes through spiral shell with shock structure fixed plate Nail is fixedly connected, and the side of fixation steel plate and fixation steel plate on damping device is both provided with groove under the damping device, The shock structure fixed plate is mounted in groove, and shock structure fixed plate is consolidated on fixation steel plate under damping device and damping device Determine steel plate to be fixedly connected by screw, horizontal shock-absorbing spring, the cross are provided on the outside of the shock structure guard shield It is fixedly connected to damping spring by screw with shock structure guard shield, one end of the horizontal shock-absorbing spring passes through screw It is provided with damping device and laterally unloads power sliding block, the side that the damping device laterally unloads power sliding block is provided with damping device longitudinally biography Power sliding block, the damping device longitudinal direction power transmission sliding block are slidably connected with shock structure guard shield by sliding slot, the damping Power transmission sliding block in device longitudinal direction is fixedly connected with fixation steel plate on fixation steel plate under damping device and damping device by screw, The junction for laterally unloading power sliding block on the damping device longitudinal direction power transmission sliding block with damping device is provided with sliding slot, in the sliding slot It is provided with damping device longitudinal sliding motion wheel.

Preferably, the shape of the damping device longitudinal direction power transmission sliding block is right-angled trapezium, and damping device laterally unloads power sliding block Shape be isosceles trapezoid, and the bevel angle of right-angled trapezium is identical as the bevel angle of isosceles trapezoid.

Preferably, the damping device laterally unloads the side of power sliding block and is provided with limiting plate.

Preferably, the flexible protective jacket of the damping spring on the outside of longitudinal damping spring is divided into two sections, and is arranged Damping device laminated rubber shock structure in longitudinal damping spring side is that rubber column is laminated by screw.

Preferably, the shock structure fixed plate and the shape of the flexible protective jacket of damping spring are hexagon.

Preferably, the damping device is generally cylindricality, and damping device laterally unloads power sliding block and installed by center array In the periphery of damping device.

Preferably, the damping device in the side inclined-plane upper groove of damping device longitudinal direction power transmission sliding block is longitudinal Movable pulley laterally unloads power sliding block with damping device and is contacted.

Preferably, the longitudinal damping spring, damping device laminated rubber shock structure and shock structure guard shield form It is provided with support lead block in the middle part of shock structure.

Compared with prior art, the beneficial effects of the invention are as follows：By designing the damping device cross in damping device side To power sliding block and longitudinal power transmission sliding block is unloaded, can be unloaded lateral by damping device longitudinal direction power transmission sliding block when earthquake occurs Power sliding block passes in laminated rubber shock structure and longitudinal damping spring, by horizontal shock-absorbing spring and laminated rubber shock structure and indulges It carries out damping together to damping spring and unloads power, keep the damping effect of damping device more preferable；By designing in damping device lamination rubber Glue shock structure and longitudinal damping spring, can be by being mounted in damping device laminated rubber shock structure when earthquake occurs The longitudinal damping spring in portion keeps damping device stressed effect more preferable, prevents damping device to be damaged when earthquake occurs.

Description of the drawings

Fig. 1 is the damping device positive structure diagram of the present invention；

Fig. 2 is the horizontal shock-absorbing structural schematic diagram of the present invention；

Fig. 3 is the damping device overlooking structure diagram of the present invention；

Fig. 4 is the damping spring structural schematic diagram of the present invention；

In figure：Fixation steel plate, 2- horizontal shock-absorbings spring, 3- damping devices laterally unload power sliding block, 4- dampings dress under 1- damping devices Set longitudinal power transmission sliding block, fixation steel plate on 5- damping devices, 6- longitudinal damping springs, 7- damping device laminated rubbers shock structure, The flexible protective jacket of 8- shock structures guard shield, 9- damping device longitudinal sliding motions wheel, 10- shock structures fixed plate, 11- damping springs.

Specific implementation mode

Following will be combined with the drawings in the embodiments of the present invention, and technical solution in the embodiment of the present invention carries out clear, complete Site preparation describes, it is clear that described embodiments are only a part of the embodiments of the present invention, instead of all the embodiments.It is based on Embodiment in the present invention, it is obtained by those of ordinary skill in the art without making creative efforts every other Embodiment shall fall within the protection scope of the present invention.

- 4 are please referred to Fig.1, the present invention provides a kind of technical solution：A kind of environmentally friendly damping device for building, including damping dress Set lower fixation steel plate 1, the upside of fixation steel plate 1 is provided with shock structure guard shield 8, shock structure guard shield 8 under damping device One end be provided with fixation steel plate 5 on damping device, the both ends of shock structure guard shield 8 respectively with fixation steel plate under damping device 1 is fixedly connected with 5 bronze drum screw movement of fixation steel plate on damping device, and the inside of shock structure guard shield 8 is provided with damping dress Laminated rubber shock structure 7 is set, the side of damping device laminated rubber shock structure 7 is provided with longitudinal damping spring 6, and damping device is folded The both ends of layer rubber shock absorber strut 7 and longitudinal damping spring 6 are both provided with shock structure fixed plate 10, shock structure fixed plate 10 and longitudinal direction Damping spring 6 and damping device laminated rubber shock structure 7 are fixedly connected by screw, and the side of longitudinal damping spring 6 is set It is equipped with the flexible protective jacket 11 of damping spring, the flexible protective jacket 11 of damping spring is fixed with shock structure fixed plate 10 by screw It connects, fixation steel plate 1 and the side of fixation steel plate 5 on damping device are both provided with groove, shock structure fixed plate under damping device 10 are mounted in groove, and shock structure fixed plate 10 passes through with fixation steel plate 5 on fixation steel plate under damping device 1 and damping device Screw is fixedly connected, and the outside of shock structure guard shield 8 is provided with horizontal shock-absorbing spring 2, horizontal shock-absorbing spring 2 and damping Column guard shield 8 is fixedly connected by screw, and one end of horizontal shock-absorbing spring 2 is provided with damping device transverse direction by screw Power sliding block 3 is unloaded, the side that damping device laterally unloads power sliding block 3 is provided with damping device longitudinal direction power transmission sliding block 4, and damping device is longitudinal Power transmission sliding block 4 is slidably connected with shock structure guard shield 8 by sliding slot, and damping device longitudinal direction power transmission sliding block 4 is filled with damping It sets fixation steel plate 5 on lower fixation steel plate 1 and damping device to be fixedly connected by screw, damping device longitudinal direction power transmission sliding block 4 The junction that upper and damping device laterally unloads power sliding block 3 is provided with sliding slot, and damping device longitudinal sliding motion wheel 9 is provided in sliding slot.

In order to facilitate connection, this implementation between so that damping device longitudinal direction power transmission sliding block 4 and damping device is laterally unloaded power sliding block 3 In example, the shape of preferred damping device longitudinal direction power transmission sliding block 4 is right-angled trapezium, and damping device laterally unloads the shape of power sliding block 3 For isosceles trapezoid, and the bevel angle of right-angled trapezium is identical as the bevel angle of isosceles trapezoid.

Damping device laterally unloads power sliding block 3 and slides in order to prevent, and in the present embodiment, preferred damping device laterally unloads power cunning The side of block 3 is provided with limiting plate.

Longitudinal damping spring 6 rubs with damping device laminated rubber shock structure 7 in order to prevent, excellent in the present embodiment It is two sections that the damping spring for being mounted on the outside of longitudinal damping spring 6 of choosing, which stretches that protective jacket 11 is divided to, and is arranged in longitudinal damping bullet The damping device laminated rubber shock structure 7 of 6 side of spring is that rubber column is laminated by screw.

In order to keep the flexible protective jacket 11 of shock structure fixed plate 10 and damping spring and longitudinal damping spring 6 and damping device folded It is easy to connect between layer rubber shock absorber strut 7, in the present embodiment, preferred shock structure fixed plate 10 and the flexible protective jacket of damping spring 11 shape is hexagon.

In order to make damping device laterally unload, 3 effect of power sliding block is more preferable, and in the present embodiment, preferred damping device is generally column Shape, and damping device laterally unloads the periphery that power sliding block 3 is mounted on damping device by center array.

In order to which sliding friction is changed to roll between damping device longitudinal direction power transmission sliding block 4 and damping device are laterally unloaded power sliding block 3 Dynamic friction is prevented damping device longitudinal direction power transmission sliding block 4 from laterally unloading power sliding block 3 with damping device and is damaged due to abrasion, this implementation In example, the damping device longitudinal sliding motion wheel that is preferably mounted in the side inclined-plane upper groove of damping device longitudinal direction power transmission sliding block 4 9, power sliding block 3 is laterally unloaded with damping device to be contacted.

In order to keep stabilized equipment support power better, in the present embodiment, preferred longitudinal damping spring 6, damping device are folded It is provided with support lead block in the middle part of the shock structure that layer rubber shock absorber strut 7 and shock structure guard shield 8 form.

The operation principle and process for using of the present invention：After the present invention installs, the installation for first checking for the present invention is fixed And security protection, it then can use, damping device is mounted in the foundation pile under building body frame, in spot Vibration wave laterally unloads power sliding block 3 by damping device and the vibration of oscillation crosswise wave is transmitted to horizontal shock-absorbing spring 2 when shake With on damping device longitudinal direction power transmission sliding block 4, and by damping device longitudinal direction power transmission sliding block 4 oscillation crosswise switch to stringer vibration, And damping is carried out by longitudinal damping spring 6 and damping device laminated rubber shock structure 7, when damping device is worked Damping device is reduced by damping device longitudinal sliding motion wheel 9 laterally to unload between power sliding block 3 and damping device longitudinal direction power transmission sliding block 4 Frictional force prevents damping device from laterally unloading power sliding block 3 and is damaged with damping device longitudinal direction power transmission sliding block 4, and is subtracted by longitudinal Shake spring 6 keeps the damping effect of damping device more preferable, prevents damping device to be damaged, this completes make to the present invention With process, the configuration of the present invention is simple is safe and convenient to use.

It although an embodiment of the present invention has been shown and described, for the ordinary skill in the art, can be with Understanding without departing from the principles and spirit of the present invention can carry out these embodiments a variety of variations, modification, replace And modification, the scope of the present invention is defined by the appended.

Claims

1. a kind of environmentally friendly damping device for building, including fixation steel plate under damping device（1）Deng, it is characterised in that：The damping Fixation steel plate under device（1）Upside be provided with shock structure guard shield（8）, the shock structure guard shield（8）One end set It is equipped with fixation steel plate on damping device（5）, the shock structure guard shield（8）Both ends respectively with fixation steel plate under damping device （1）With fixation steel plate on damping device（5）Bronze drum screw movement is fixedly connected, the shock structure guard shield（8）Inside set It is equipped with damping device laminated rubber shock structure（7）, the damping device laminated rubber shock structure（7）Side be provided with longitudinal subtract Shake spring（6）, the damping device laminated rubber shock structure（7）With longitudinal damping spring（6）Both ends be both provided with shock structure Fixed plate（10）, the shock structure fixed plate（10）With longitudinal damping spring（6）With damping device laminated rubber shock structure（7）It is logical It crosses screw to be fixedly connected, the longitudinal damping spring（6）Side be provided with damping spring stretch protective jacket（11）, described Damping spring stretches protective jacket（11）With shock structure fixed plate（10）It is fixedly connected by screw, it is solid under the damping device Determine steel plate（1）With fixation steel plate on damping device（5）Side be both provided with groove, the shock structure fixed plate（10）It is mounted on In groove, and shock structure fixed plate（10）With fixation steel plate under damping device（1）With fixation steel plate on damping device（5）Pass through spiral shell Nail is fixedly connected, the shock structure guard shield（8）Outside be provided with horizontal shock-absorbing spring（2）, the horizontal shock-absorbing Spring（2）With shock structure guard shield（8）It is fixedly connected by screw, the horizontal shock-absorbing spring（2）One end pass through Screw is provided with damping device and laterally unloads power sliding block（3）, the damping device laterally unloads power sliding block（3）Side be provided with damping Device longitudinal direction power transmission sliding block（4）, the damping device longitudinal direction power transmission sliding block（4）With shock structure guard shield（8）By sliding slot into Row is slidably connected, the damping device longitudinal direction power transmission sliding block（4）With fixation steel plate under damping device（1）It is fixed on damping device Steel plate（5）It is fixedly connected by screw, the damping device longitudinal direction power transmission sliding block（4）Upper and damping device laterally unloads power cunning Block（3）Junction be provided with sliding slot, damping device longitudinal sliding motion wheel is provided in the sliding slot（9）.

2. one kind according to claim 1 environmentally friendly damping device for building, it is characterised in that：The damping device longitudinally passes Power sliding block（4）Shape be right-angled trapezium, damping device laterally unloads power sliding block（3）Shape be isosceles trapezoid, and right-angled trapezium Bevel angle it is identical as the bevel angle of isosceles trapezoid.

3. one kind according to claim 1 environmentally friendly damping device for building, it is characterised in that：The damping device laterally unloads Power sliding block（3）Side be provided with limiting plate.

4. one kind according to claim 1 environmentally friendly damping device for building, it is characterised in that：It is described to be mounted on longitudinal damping Spring（6）The flexible protective jacket of the damping spring in outside（11）It is divided into two sections, and is arranged in longitudinal damping spring（6）The damping of side Device laminated rubber shock structure（7）It is laminated by screw for rubber column.

5. one kind according to claim 1 or 4 environmentally friendly damping device for building, it is characterised in that：The shock structure is fixed Plate（10）It stretches protective jacket with damping spring（11）Shape be hexagon.

6. one kind according to claim 1 environmentally friendly damping device for building, it is characterised in that：The damping device is generally Cylindricality, and damping device laterally unloads power sliding block（3）The periphery of damping device is mounted on by center array.

7. one kind according to claim 1 or 2 environmentally friendly damping device for building, it is characterised in that：It is described to be mounted on damping Device longitudinal direction power transmission sliding block（4）Side inclined-plane upper groove in damping device longitudinal sliding motion wheel（9）, laterally unloaded with damping device Power sliding block（3）It is contacted.

8. one kind according to claim 1 environmentally friendly damping device for building, it is characterised in that：The longitudinal damping spring （6）, damping device laminated rubber shock structure（7）With shock structure guard shield（8）It is provided with support lead in the middle part of the shock structure of composition Column.