CN209670436U - Struggle against the wooden earthquake isolating equipment of arch formula - Google Patents

Abstract

The utility model discloses a kind of wooden earthquake isolating equipment of bucket arch formula, including layer component, the layer component includes multiple crossbeams and at least one stringer, and the stringer and the crossbeam, which intersect, to be connected and fixed and be located in same level；The layer component has multilayer, and layer component described in multilayer is in interval setting up and down；Layer connector, the layer connector is connected to up and down between the adjacent layer component two-by-two, so that Relative sliding can occur in case of shock for layer component described in adjacent two layers.This device can dissipate a large amount of seismic energies when geological process lower stress deforms, and can effectively reduce the damage at the other positions of structure.While realizing energy-dissipating and shock-absorbing, it can be consistent with Wood construction style.

Description

Struggle against the wooden earthquake isolating equipment of arch formula

Technical field

The utility model relates to technical field of buildings, more particularly, to a kind of wooden earthquake isolating equipment of bucket arch formula.

Background technique

Seismic isolation technology is to be widely used in concrete structure and a kind of newly-built effective skill with seismic hardening of steel building Art means.As the reinforcement means based on layer of structure, principle is by the way that energy-consuming shock absorber is arranged in the structure, in earthquake Under effect, a large amount of seismic energies of energy-consuming shock absorber dissipation, so that the damage at the other positions of structure is effectively reduced, lift structure Anti-seismic performance.Its core is the construction of energy-consuming shock absorber and its structural system with it.

However, although existing shock isolating pedestal such as rubber support, friction support are able to satisfy the requirement in mechanical property, but It is that can not be consistent with ancient building style, influences the aesthetics of ancient building.

Utility model content

The utility model aims to solve at least one of the technical problems existing in the prior art.For this purpose, the utility model mentions The wooden earthquake isolating equipment of a kind of bucket arch formula out, not only can be with energy-dissipating and shock-absorbing when earthquake, and can be consistent with Wood construction style.

According to the bucket arch formula wood earthquake isolating equipment of the utility model embodiment, comprising:

Layer component, the layer component includes multiple crossbeams and at least one stringer, and the stringer is mutually handed over the crossbeam Fork connects and fixes and is located in same level；The layer component is equipped with multilayer, and layer component described in multilayer is set in interval up and down It sets；

Layer connector, the layer connector is connected to up and down between the adjacent layer component two-by-two, so that adjacent two layers Relative sliding can occur in case of shock for the layer component.

The wooden earthquake isolating equipment of bucket arch formula according to the present utility model, including layer component and layer connector, layer component include more A crossbeam and at least one stringer, layer component can be equipped with multilayer, the stringer and crossbeam of same layer intersect connect and fix and Positioned at the same horizontal plane, to guarantee the globality and stability of the component of same layer；Layer connector is set to neighbouring Two layer by layer between component, neighbouring two layers of layer component is fixed, to guarantee device in the monolithic stability of vertical direction Property, and in shock effect, it can produce opposite sliding between layer component and the layer connector, in this way, in adjacent two layers Each link position between component and layer connector can satisfy certain mechanical deformation performance, can be in stress deformation A large amount of energy is absorbed, good energy consumption effect is played.Therefore, the wooden earthquake isolating equipment of bucket arch formula of the utility model embodiment, Not only can be with energy-dissipating and shock-absorbing when earthquake, and can be integrally consistent with Wood construction style, it is handsome in appearance, it is suitable for Wood construction Build.

One embodiment according to the present utility model, each crossbeam are equipped at least one first notch, Mei Yisuo Stringer is stated equipped with multiple second notches；In the layer component described in same layer, first notch of multiple crossbeams is distinguished It is corresponded with second notch on stringer described at least one, and the stringer is made to be caught in when institute in first notch It states crossbeam to be caught in second notch, so that the stringer is with the mutual clamping of the crossbeam and in same level.

According to the utility model further embodiment, in the layer component, first notch is located at the crossbeam Upper surface on, second notch is located on the lower surface of the stringer.

According to the utility model further embodiment, in the layer component described in same layer, the stringer and the crossbeam It is orthogonal.

According to the utility model further embodiment, first notch and second notch are square breach.

The upper surface of one embodiment according to the present utility model, the crossbeam is equipped with the first pin hole；The layer connector Including the first connector, the upper end of the first connector is equipped with U-shaped card head and lower end is equipped with the first pin；First connector is set It sets between two crossbeams of neighbouring two layers of face, wherein on crossbeam described in the first pin insertion lower layer In first pin hole, it is stuck on crossbeam described in upper layer to the U-shaped card head clearance fit, so that layer component described in adjacent two layers Relative sliding can occur in case of shock.

According to the utility model further embodiment, first connector includes the first fastener and first pin Column, the upper end of first fastener are equipped with the U-shaped card head, and the bottom surface of first fastener is equipped with the first mounting hole, described The upper end of first pin is mounted in first mounting hole.

The upper surface of one embodiment according to the present utility model, the stringer is equipped with the second pin hole；The layer connection Part includes the second connector, and the upper end of second connector is set there are four card column and lower end is equipped with the second pin；Described second Connector is arranged in up and down between the adjacent layer component two-by-two, wherein on stringer described in the second pin insertion lower layer Second pin hole in, the crisscross joint that crossbeam described in upper layer and the stringer intersect to form is inserted into four card column shapes At tenon mouth keyway at, and four card columns respectively with crossbeam described in upper layer and the stringer clearance fit so that adjacent two Relative sliding can occur in case of shock for the layer layer component.

According to the utility model further embodiment, second connector includes the second fastener and second pin Column, the lower end surface of second fastener are equipped with the second mounting hole, and the upper end of second fastener is equipped with four card columns, institute The upper end for stating the second pin is mounted in second mounting hole.

One embodiment according to the present utility model, further includes upper cover plate and lower cover plate, and the upper cover plate is arranged most upper On the upper surface of the layer layer component, the lower cover plate is arranged on the lower surface of layer component described in lowest level.

The additional aspect and advantage of the utility model will provide in following description section, partially will be from following description In become more apparent upon, or recognized by the practice of the utility model.

Detailed description of the invention

The above-mentioned and/or additional aspect and advantage of the utility model from the description of the embodiment in conjunction with the following figures will Become obvious and be readily appreciated that, in which:

Fig. 1 is the system overall schematic of the bucket wooden earthquake isolating equipment of arch formula of the utility model embodiment.

Fig. 2 is the system perspective view of the explosion of the bucket wooden earthquake isolating equipment of arch formula of the utility model embodiment.

Fig. 3 is the front view of the bucket wooden earthquake isolating equipment of arch formula of the utility model embodiment.

Fig. 4 is the left view of the bucket wooden earthquake isolating equipment of arch formula of the utility model embodiment.

Fig. 5 is the sectional view of the bucket wooden earthquake isolating equipment of arch formula of the utility model embodiment.

Fig. 6 is the first connector of adjacent interlayer and lower layer's cross of the bucket wooden earthquake isolating equipment of arch formula of the utility model embodiment Beam

Connection schematic diagram.

Fig. 7 is that the second connector of adjacent interlayer of the bucket wooden earthquake isolating equipment of arch formula of the utility model embodiment and lower layer indulge Beam

Connection schematic diagram.

Fig. 8 is the first connector of adjacent interlayer and upper layer cross of the bucket wooden earthquake isolating equipment of arch formula of the utility model embodiment Beam

Connection schematic diagram.

Fig. 9 is the second connector of adjacent interlayer and upper layer cross of the bucket wooden earthquake isolating equipment of arch formula of the utility model embodiment Liang He

Connection schematic diagram between stringer.

Struggle against the wooden earthquake isolating equipment 100 of arch formula

Layer component 1

11 first notch of crossbeam, 111 first pin hole 112

12 second notch of stringer, 121 second pin hole 122

Layer connector 2

First connector, 21 first fastener, 211 first 212 first mounting hole of pin, 2101 U-shaped card head 2102

Second connector, 22 second fastener, 221 second pin, 222 second mounting hole, 2,201 4 card columns 2202

3 lower cover plate 4 of upper cover plate

Specific embodiment

The embodiments of the present invention are described in detail below, examples of the embodiments are shown in the accompanying drawings, wherein from beginning Same or similar element or element with the same or similar functions are indicated to same or similar label eventually.Below by ginseng The embodiment for examining attached drawing description is to show routinely, is only used for explaining the utility model, and be should not be understood as to the utility model Limitation.

The wooden earthquake isolating equipment 100 of bucket arch formula according to the utility model embodiment is described below with reference to Fig. 1 to Fig. 9.

As shown in Figures 1 to 9, according to the wooden earthquake isolating equipment 100 of bucket arch formula of the utility model embodiment, comprising: layer structure Part 1, layer component 1 include multiple crossbeams 11 and at least one stringer 12, stringer 12 and crossbeam 11 intersect connect and fix and In same level；Layer component 1 has multilayer, such as layer component 1 is equipped with five layers (as shown in Figures 1 to 4), multilayer layer component 1 in interval setting up and down；Layer connector 2, layer connector 2 is connected to up and down between adjacent layer component 1 two-by-two, so that adjacent two Relative sliding can occur in case of shock for component 1 layer by layer.

The wooden earthquake isolating equipment 100 of bucket arch formula according to the present utility model, including layer component 1 and layer connector 2, layer component 1 Including multiple crossbeams 11 and at least one stringer 12, layer component 1 can be equipped with multilayer, and the stringer 12 and crossbeam 11 of same layer are mutually handed over Fork connects and fixes and is located at the same horizontal plane, to guarantee the globality and stability of the component of same layer；Layer connector 2 is set Neighbouring two are placed in layer by layer between component, neighbouring two layers of layer component 1 are fixed, to guarantee device vertical The overall stability in direction, and in shock effect, it can produce opposite sliding between layer component 1 and the layer connector 2, this Sample, each link position between the component 1 and layer connector 2 of adjacent two layers, can satisfy certain mechanical deformation performance, A large amount of energy can be absorbed in stress deformation, play good energy consumption effect.Therefore, the bucket arch of the utility model embodiment The wooden earthquake isolating equipment 100 of formula, not only can be with energy-dissipating and shock-absorbing when earthquake, and can integrally be consistent with Wood construction style, moulding Beauty, suitable for being built to Wood construction.

Preferably, the crossbeam 11 of upper and lower level face one by one, the stringer 12 of upper and lower level face one by one, thus, it is possible to struggle against The wooden earthquake isolating equipment 100 of arch formula is more beautiful.

One embodiment according to the present utility model, each crossbeam 11 is equipped at least one first notch 111, each vertical Beam 12 is equipped with multiple second notches 121；In the layer component 1 of same layer, the first notch 111 of multiple crossbeams 11 is respectively and extremely The second notch 121 on a few stringer 12 corresponds, and crossbeam 11 is caught in the when being caught in stringer 12 in first notch 111 In two notches 121, so that stringer 12 is with the mutual clamping of crossbeam 11 and in same level.It is arranged first on crossbeam 11 The second notch 121 is arranged in notch 111 on stringer 12, as a result, in every layer of layer component 1, passes through the first notch 111 and Two notches 121 correspondingly securely limit crossbeam 11 and stringer 12 and fixed each other in the horizontal direction so that stringer and Crossbeam forms a firm structural system, and connection type is simple and reliable, is quickly and expediently installed.

According to the utility model further embodiment, in layer component 1, the first notch 111 is located at the upper table of crossbeam 11 On face, the second notch 121 is located on the lower surface of stringer 12.That is, stringer 12 can be from cross in every layer of layer component 1 The top of beam 11 is caught in the first notch 111, and crossbeam 11 can be caught in the lower section of the second notch 121 from the lower section of stringer 12.Certainly In other embodiments, the first notch 111 can also be located on the lower surface of crossbeam 11, and the second notch 121 can also be located at On the upper surface of stringer 12, that is to say, that in every layer of layer component 1, stringer 12 can be caught in first from the lower section of crossbeam 11 and lack In mouth 111, crossbeam 11 can be caught in the lower section of the second notch 121 from the top of stringer 12.

According to the utility model further embodiment, in same component layer by layer 1, stringer 12 is orthogonal with crossbeam 11.This In illustratively, crossbeam 11 and the cross angle of stringer 12 can be selected according to specific requirements, and crossbeam 11 and stringer 12 are just It hands over, it can be understood as preferably.

According to the utility model further embodiment, the first notch 111 and the second notch 121 are square breach, can To process tenon mouth size according to fixed modulus.It is convenient that the processing is simple as a result,.

According to the utility model further embodiment, crossbeam 11 and stringer 12 are side in the section perpendicular to length direction Shape.Be conducive to the stability of the bucket wooden earthquake isolating equipment structure of arch formula of the present embodiment as a result,.

The upper surface of one embodiment according to the present utility model, crossbeam 11 is equipped with the first pin hole 112；Layer connector 2 wraps The first connector 21 is included, the upper end of the first connector 21 is equipped with U-shaped card head 2102 and lower end is equipped with the first pin 212；First connects Fitting 21 is arranged between two crossbeams 11 of neighbouring two layers of face, wherein the first pin 212 is inserted on lower layer's crossbeam 11 The first pin hole 112 in, be stuck on upper layer crossbeam 11 to 2102 clearance fit of U-shaped card head, so that adjacent two layers layer component 1 is shaking Relative sliding can occur in dynamic situation.That is, two crossbeams of neighbouring two layers of face are arranged in the first connector 21 Between 11, wherein the first pin 212 is inserted into the first pin hole 112 on lower layer's crossbeam 11, so that the first connector 21 and lower layer Crossbeam 11 firmly fixes, and 2102 clearance fit of U-shaped card head be stuck on upper layer crossbeam 11, when vibration when, the first connector Upper component layer by layer 1 on 21 is relative to component 1 relatively can frequently slide layer by layer under on the first company part part 21, to consume A large amount of seismic energies are dissipated, the damage of other components is prevented.

According to the utility model further embodiment, the first connector 21 includes the first fastener 211 and the first pin 212, the upper end of the first fastener 211 is equipped with U-shaped card head 2102, and the bottom surface of the first fastener 211 is equipped with the first mounting hole 2101, the The upper end of one pin 212 is mounted in the first mounting hole 2101.By being separately to set by the first pin 212 and the first fastener 211 It sets, processing installation is convenient.Certainly, in other embodiments, the first pin 212 and the first fastener 211 can be directly arranged It is integrated, the first mounting hole 2101 can be set to avoid in 211 lower end of the first fastener in this way.

The upper surface of one embodiment according to the present utility model, stringer 12 is equipped with the second pin hole 122；Layer connector 2 Including the second connector 22, the upper end of the second connector 22 is set there are four card column 2202 and lower end is equipped with the second pin 222；Second Connector 22 is arranged in up and down between adjacent layer component 1 two-by-two, wherein the second pin 222 is inserted into the on lower layer's stringer 12 In two pin holes 122, the crisscross joint that the crossbeam 11 and stringer 12 on upper layer intersect to form is inserted into the tenon that four card columns 2202 are formed At mouthful keyway, and four card columns 2202 respectively with 12 clearance fit of upper layer crossbeam 11 and stringer so that adjacent two layers layer component 1 exists Relative sliding can occur under shock conditions.That is, the second connector 22 be arranged in up and down two-by-two adjacent layer component 1 it Between, wherein the second pin 222 is inserted into the second pin hole 122 on lower layer's stringer 12, so that the second connector 22 and lower layer's stringer 12 firmly fix, and four card columns 2202 are inserted into respectively at four that upper layer crossbeam 11 and stringer 12 intersect to form empty angle positions, And four card columns 2202 are respectively with 12 clearance fit of upper layer crossbeam 11 and stringer, upper layer when vibration, on the second connector 22 Layer component 1 relative to this second company part part 22 under layer by layer component 1 relatively can frequently slide, thus a large amount of earthquakes that dissipate Energy prevents the damage of other components.

According to the utility model further embodiment, the second connector 22 includes the second fastener 221 and the second pin 222, the lower end surface of the second fastener 221 is equipped with the second mounting hole 2201, and the upper end of the second fastener 221 sets that there are four card columns 2202, the upper end of the second pin 222 is mounted in the second mounting hole 2201.By can be with the second fastener by the second pin 222 221 are provided separately, and processing installation is convenient.Certainly in other embodiments, the second pin 222 and the second fastener 221 can be with It is directly disposed as one, the second mounting hole 2201 can be set to avoid in 221 lower end of the second fastener in this way.

One embodiment according to the present utility model, further includes upper cover plate 3 and lower cover plate 4, and upper cover plate 3 is arranged in top layer On the upper surface of layer component 1, lower cover plate 4 is arranged on the lower surface of lowest level layer component 1.Upper cover plate 3 and lower cover plate 4 can be with Entirety that is processed as with lowest level layer component 1 of top layer's layer component 1, improves the globality of component and cover board, can also be with It is connected by screw bolts, Tenon keyway connects or other connection types.

In addition it is also necessary to explanation, the wooden earthquake isolating equipment of bucket arch formula of the utility model, deformability and energy consumption energy Power enhances with the increase of the number of plies, has been merely given as five layers here as an example.It in a practical situation, can be according to building Functional requirement and energy consumption and distortion demand determine the actual elevation number of plies.

In the description of this specification, reference term " one embodiment ", " some embodiments ", " illustrative examples ", The description of " example ", " specific example " or " some examples " etc. means specific features described in conjunction with this embodiment or example, knot Structure, material or feature are contained at least one embodiment or example of the utility model.In the present specification, to above-mentioned art The schematic representation of language may not refer to the same embodiment or example.Moreover, description specific features, structure, material or Person's feature can be combined in any suitable manner in any one or more of the embodiments or examples.

In addition, it is also to be appreciated that term " first layer ", " second layer ", " third layer ", " the 4th layer ", " layer 5 ", The orientation or positional relationship of the instructions such as " articulamentum ", " top ", " bottom " is to be based on the orientation or positional relationship shown in the drawings, only It is the utility model and simplified description for ease of description, rather than the device or element of indication or suggestion meaning must have spy Fixed orientation is constructed and operated in a specific orientation, therefore should not be understood as limiting the present invention.In addition, defining The feature of " first ", " second " can explicitly or implicitly include one or more of the features.In the utility model In description, unless otherwise indicated, the meaning of " plurality " is two or more.

While there has been shown and described that the embodiments of the present invention, it will be understood by those skilled in the art that: These embodiments can be carried out with a variety of variations, modification, replacement in the case where not departing from the principles of the present invention and objective And modification, the scope of the utility model are defined by the claims and their equivalents.

Claims (10)

1. a kind of wooden earthquake isolating equipment of bucket arch formula characterized by comprising

Layer component, the layer component includes multiple crossbeams and at least one stringer, and the stringer and the crossbeam intersect card It connects fixed and is located in same level；The layer component has multilayer, and layer component described in multilayer is in interval setting up and down；

Layer connector, the layer connector is connected to up and down between the adjacent layer component two-by-two, so that described in adjacent two layers Relative sliding can occur in case of shock for layer component.

2. the wooden earthquake isolating equipment of bucket arch formula according to claim 1, which is characterized in that each crossbeam is equipped at least One the first notch, each stringer are equipped with multiple second notches；In the layer component described in same layer, multiple crossbeams First notch corresponded respectively with second notch on stringer described at least one, and be caught in the stringer The crossbeam is caught in second notch when in first notch so that the stringer and the mutual clamping of the crossbeam and In same level.

3. the wooden earthquake isolating equipment of bucket arch formula according to claim 2, which is characterized in that in the layer component, described One notch is located on the upper surface of the crossbeam, and second notch is located on the lower surface of the stringer.

4. the wooden earthquake isolating equipment of bucket arch formula according to claim 2 or 3, which is characterized in that the layer component described in same layer In, the stringer is orthogonal with the crossbeam.

5. the wooden earthquake isolating equipment of bucket arch formula according to claim 2 or 3, which is characterized in that first notch and described Second notch is square breach.

6. the wooden earthquake isolating equipment of bucket arch formula according to claim 1, which is characterized in that the upper surface of the crossbeam is equipped with the One pin hole；The layer connector includes the first connector, and the upper end of the first connector is equipped with U-shaped card head and lower end is equipped with the first pin Column；First connector is arranged between two crossbeams of neighbouring two layers of face, wherein first pin is inserted Enter in first pin hole on crossbeam described in lower layer, is stuck on crossbeam described in upper layer to the U-shaped card head clearance fit, so that Relative sliding can occur in case of shock for layer component described in adjacent two layers.

7. the wooden earthquake isolating equipment of bucket arch formula according to claim 6, which is characterized in that first connector includes first The upper end of fastener and first pin, first fastener is equipped with the U-shaped card head, and the bottom surface of first fastener is equipped with First mounting hole, the upper end of first pin are mounted in first mounting hole.

8. the wooden earthquake isolating equipment of bucket arch formula according to claim 1, which is characterized in that the upper surface of the stringer is equipped with Second pin hole；The layer connector includes the second connector, and the upper end of second connector is set there are four card column and lower end is set There is the second pin；Second connector is arranged in up and down between the adjacent layer component two-by-two, wherein second pin It is inserted into second pin hole on stringer described in lower layer, the crisscross joint that crossbeam described in upper layer and the stringer intersect to form It is inserted at the tenon mouth keyway that four card columns are formed, and four card columns are respectively between crossbeam described in upper layer and the stringer Gap cooperation, so that Relative sliding can occur in case of shock for layer component described in adjacent two layers.

9. the wooden earthquake isolating equipment of bucket arch formula according to claim 8, which is characterized in that second connector includes second The lower end surface of fastener and second pin, second fastener is equipped with the second mounting hole, and the upper end of second fastener is set There are four card columns, the upper end of second pin is mounted in second mounting hole.

10. the wooden earthquake isolating equipment of bucket arch formula according to claim 1, which is characterized in that it further include upper cover plate and lower cover plate, The upper cover plate is arranged on the upper surface of layer component described in top layer, and layer component described in lowest level is arranged in the lower cover plate On lower surface.