CN208088501U - The connecting node of assembled integral energy consumption frame - Google Patents

Abstract

The utility model belongs to fabricated construction technical field, and in particular to a kind of connecting node of assembled integral energy consumption frame.The connecting node, including prefabricated post, precast beam, a pair of of damper built-in fitting and a fluid linking damper, wherein, one end of precast beam and the top of the prefabricated post form entirety by cast-in-place concrete, and the both ends of fluid linking damper are separately fixed on two damper built-in fittings.The connecting node realizes dissipation energy by the damping force that fluid linking damper provides, reduce the vibration amplitude and the frequency of the connecting node of precast beam and prefabricated post, prefabricated integral frame structure premature failure in geological process is avoided, to have better ability of against earthquakes and disaster reduction.

Description

The connecting node of assembled integral energy consumption frame

Technical field

The utility model belongs to fabricated construction technical field, and in particular to a kind of connection of assembled integral energy consumption frame Node.

Background technology

With the propulsion of building industrialization process, assembled monolithic concrete structure has become the heat of national construction market Point, scale and prefabricated rate are constantly soaring.With the enhancing of environmental consciousness, green building plan has been released in drug in some provinces, must The making for so having more and more supporting members uses prefabrication and assembly construction technique.

Assembled monolithic concrete structure refers to that concrete prefabricated element to form rigidly connected coagulation by being poured behind scene Soil structure, such as rigid frame structure.Frequently with mode be that negative reinforcement is stayed on precast beam, cast in situs hogging moment area Domain makes prefabricated concrete structure have the characteristic substantially equivalent with cast-in-place concrete structure.

And China's most area is at the area that provides fortification against earthquakes, the practical ability of against earthquakes and disaster reduction of cast in place and precast construction also has It waits in discussion.

Utility model content

The problem of people worry, this reality can not be eliminated for the practical ability of against earthquakes and disaster reduction of existing cast in place and precast construction A kind of connecting node of assembled integral energy consumption frame is provided with novel, is arranged near precast beam and prefabricated post connecting portion A pair of of damper built-in fitting, and fluid linking damper is installed, it realizes dissipation energy by the damping force of fluid linking damper offer, drops The vibration amplitude and the frequency of the connecting node of low precast beam and prefabricated post, avoid prefabricated integral frame structure in geological process Premature failure, to have better ability of against earthquakes and disaster reduction.

In order to solve the above technical problems, the utility model includes following technical solution：

A kind of connecting node of assembled integral energy consumption frame, including：

Vertically arranged prefabricated post；

Horizontally disposed precast beam, and one end of the precast beam and the top of the prefabricated post pass through cast-in-place concrete shape It is integral；

A pair of of damper built-in fitting, an inside top for being set to the prefabricated post, another is set to described prefabricated Below the end of beam；And

Fluid linking damper, both ends are separately fixed on the damper built-in fitting.

Preferably, the damper built-in fitting includes socket joint plate, the connecting plate that is fixedly installed on socket joint plate one end, sets The peg being placed on the socket joint plate, and it is set to the suspension otic placode of the connecting plate other end, the socket joint plate is embedded in The inside of the precast beam or prefabricated post.

Preferably, the outer surface of the connecting plate and the precast beam or the flush of prefabricated post.

Preferably, the socket joint plate is H-type or cross, and is provided with the longitudinal reinforcement for the prefabricated post or precast beam The bar connecting hole passed through.

Preferably, it is provided with earhole on the suspension otic placode, the end set of the fluid linking damper has connecting hole, described Fluid linking damper across the axis pin of the connecting hole, earhole by being fixed on the suspension otic placode.

Preferably, the prefabricated post is reinforced concrete structure, stretches out concrete at the top of the longitudinal reinforcement of the prefabricated post Top is simultaneously provided with sleeve, and the sleeve is provided with grouting liquid with the gap of the longitudinal reinforcement of the prefabricated post.

Due to using the technology described above, the connecting node of assembled integral energy consumption frame provided by the utility model has Following advantage：(1) components such as precast beam, prefabricated post are prefabricated in the factory, and damper built-in fitting is prefabricated in precast beam, prefabricated post It is interior, only precast beam, prefabricated post need to be transported to on-site consolidation, the cast-in-place rear installation fluid linking damper of connecting portion greatly carries High site operation efficiency；(2) when there is seismic energy input, Dissipated energy is realized by the damping force of fluid linking damper offer Amount reaches the vibratory response for reducing structure, reduces the vibration amplitude and the frequency of the connecting node of precast beam and prefabricated post, avoids filling With integral frame structure in geological process premature failure, to have better ability of against earthquakes and disaster reduction；(3) fluid linking damper It is fixed on damper built-in fitting, peg and bar connecting hole is provided on the socket joint plate socket joint plate of damper built-in fitting, to Damper built-in fitting is set to form overall structure with precast beam.

Description of the drawings

Fig. 1 is the structural schematic diagram of the connecting node of the assembled integral energy consumption frame in one embodiment of the utility model；

Fig. 2 is the connection diagram of the fluid linking damper and damper built-in fitting in one embodiment of the utility model；

Fig. 3 is a kind of structural schematic diagram for damper built-in fitting that one embodiment of the utility model provides；

Fig. 4 is the structural schematic diagram for another damper built-in fitting that one embodiment of the utility model provides.

Figure label is as follows：

1- prefabricated posts；11- longitudinal reinforcements；12- sleeves；2- precast beams；3- damper built-in fittings；31- socket joint plates；31a- steel Muscle connecting hole；32- connecting plates；33- pegs；34- hangs otic placode；34a- earholes；4- fluid linking dampers.

Specific implementation mode

Below in conjunction with the drawings and specific embodiments to the connection section of assembled integral provided by the utility model energy consumption frame Point is described in further detail.In conjunction with following explanation and claims, will be become apparent from feature the advantages of the utility model.It needs Illustrate, attached drawing is all made of very simplified form and uses non-accurate ratio, only to convenient, lucidly auxiliary is said The purpose of bright the utility model embodiment.

Embodiment one

As depicted in figs. 1 and 2, the connecting node of assembled integral energy consumption frame provided in this embodiment, including prefabricated post 1, precast beam 2, a pair of of damper built-in fitting 3 and a fluid linking damper 4.Wherein, prefabricated post 1 is vertically arranged, and precast beam 2 is horizontal Setting, and one end of precast beam 2 and the top of the prefabricated post 1 form entirety by cast-in-place concrete.One of damper Built-in fitting 3 is set to the inside top (prefabricated post 1 and precast beam 2 be inside to opposite) of the prefabricated post 1, another setting Below the end of the precast beam 2, the both ends of fluid linking damper 4 are separately fixed on two damper built-in fittings 3.

The connecting node of the assembled integral energy consumption frame of the utility model, damper built-in fitting 3 is prefabricated in precast beam 2 In prefabricated post 1, at the construction field (site) by the cast-in-place formation prefabricated integral frame structure of connecting portion of precast beam 2 and prefabricated post 1, And fluid linking damper 4 is fixed on damper built-in fitting 3, realize Dissipated energy by the damping force of the offer of fluid linking damper 4 Amount avoids prefabricated integral frame structure from destroying.Therefore, the connection section of assembled integral energy consumption frame provided by the utility model Point has the following advantages that：(1) components such as precast beam 2, prefabricated post 1 are prefabricated in the factory, and damper built-in fitting 3 is prefabricated prefabricated In beam 2, prefabricated post 1, only precast beam 2, prefabricated post 1 need to be transported to on-site consolidation, by the cast-in-place rear installation viscous damping of connecting portion Site operation efficiency is greatly improved in device 4；(2) when there is seismic energy input, by the damping of the offer of fluid linking damper 4 Power realizes dissipation energy, reaches the vibratory response for reducing structure, reduces the vibrations of the connecting node of precast beam 2 and prefabricated post 1 Amplitude and the frequency avoid prefabricated integral frame structure premature failure in geological process, to have better protection against and mitigation of earthquake disasters Ability.

Fig. 3 and Fig. 4 illustrates the structure type of two kinds of damper built-in fittings 3, and the damper built-in fitting 3 of both forms is all Including socket joint plate 31, the connecting plate 32 for being fixedly installed on described 31 one end of socket joint plate, the peg being set on the socket joint plate 31 33, and it is set to the suspension otic placode 34 of 32 other end of the connecting plate, the socket joint plate 31 is embedded in the precast beam 2 or pre- The inside of column 1 processed.Difference lies in Fig. 3, socket joint plate 31 is H-type, and socket joint plate 31 is cross in Fig. 4.It is provided with peg 33 Socket joint plate 31 is embedded in prefabricated components, and damper built-in fitting 3 is made to be securely fastened in prefabricated components, wherein the number of peg 33 Amount and spacing can be damped according to the maximum of the design of damper built-in fitting 3, the actual size of precast beam 2 and fluid linking damper Power etc. is adjusted.Preferably, prefabricated post 1, precast beam 2 use reinforced concrete structure, are provided on socket joint plate 31 for prefabricated The bar connecting hole 31a that passes through of longitudinal reinforcement of column 1, precast beam 2, to which socket joint plate 31 is fixed on prefabricated post 1 or precast beam 2 Longitudinal reinforcement on, so that damper built-in fitting 3 and prefabricated post 1 or precast beam 2 is formed overall structure, wherein bar connecting hole 31a Quantity and spacing and the quantity and spacing of prefabricated post 1 or the longitudinal reinforcement of precast beam 2 match.Wherein connecting plate 32 and hold The material specification (including material, specific size) of plate 31 should be determined according to the damping force numerical value of design.Further, described The outer surface of connecting plate 32 and the precast beam 2 or the flush of prefabricated post 1.

As shown in Figure 3 and Figure 4, it hangs on otic placode 34 and is provided with earhole 34a, the end set of the fluid linking damper 4 has Connecting hole, the fluid linking damper 4 across the axis pin of the connecting hole, earhole 34a by being fixed on the suspension otic placode 34. It is connected by axis pin between fluid linking damper 4 and damper built-in fitting 3, connection type is simple, and splicing is convenient.

Preferably, as shown in Figure 1, the prefabricated post 1 is reinforced concrete structure, the longitudinal reinforcement 11 of the prefabricated post 1 Concrete top is stretched out at top, and is provided with sleeve 12, in the gap of the longitudinal reinforcement 11 of the sleeve 12 and the prefabricated post 1 It is provided with grouting liquid.Sleeve 12 is set on the longitudinal reinforcement 11 of prefabricated post 1, it is convenient right with the longitudinal reinforcement 11 of upper layer prefabricated post 1 It connects, the longitudinal reinforcement that prefabricated components are connected with sleeve 12 is the prior art, is not repeated herein.

Embodiment two

The construction method of the connecting node of the assembled integral energy consumption frame in a kind of embodiment one is present embodiments provided, Shown in Fig. 1 to Fig. 4, which is further described, is specifically comprised the following steps：

S1. then sleeve 12 is fixed on the longitudinal reinforcement of the prefabricated post 1 by hoisting prefabricated column 1 to design position, and Grouting material is injected into the sleeve 12.Prefabricated post 1 is vertically arranged, and is arranged sleeve 12 on the longitudinal reinforcement of prefabricated post 1, it is convenient with The longitudinal reinforcement of upper layer prefabricated post 1 docks.

S2. hoisting prefabricated beam 2 is to the top of the prefabricated post 1, keeps the precast beam 2, the damper in prefabricated post 1 pre-buried Part 3 is oppositely arranged, and then adjusts the absolute altitude of the precast beam 2 to design position.

S3. formwork erection and the connecting portion of the precast beam 2 and prefabricated post 1 is poured, waits for that concrete strength reaches strength of mould stripping Afterwards, form removal.Pass through cast-in-place formation prefabricated integral frame at precast beam 2 and the connecting node of prefabricated post 1.

S4. the both ends of fluid linking damper 4 are separately fixed on the damper built-in fitting 3.As an example, damper is pre- Embedded part 3 includes suspension otic placode 34, hangs and is provided with earhole 34a on otic placode 34, and fluid linking damper 4 is provided at both ends with pin hole, will After pin hole is aligned with earhole 34a, fixed with axis pin.

The construction method of the connecting node of assembled integral energy consumption frame provided in this embodiment, step is simple, process is closed Reason, and can guarantee that the connecting node for the assembled integral energy consumption frame that construction is completed has preferable ability of against earthquakes and disaster reduction.

Each technical characteristic of embodiment described above can be combined arbitrarily, to keep description succinct, not to above-mentioned reality It applies all possible combination of each technical characteristic in example to be all described, as long as however, the combination of these technical characteristics is not deposited In contradiction, it is all considered to be the range of this specification record.

Above-described embodiments merely represent several embodiments of the utility model, the description thereof is more specific and detailed, But therefore it can not be interpreted as the limitation to utility model patent range.It should be pointed out that for the common skill of this field For art personnel, without departing from the concept of the premise utility, various modifications and improvements can be made, these are belonged to The scope of protection of the utility model.Therefore, the protection domain of the utility model patent should be determined by the appended claims.

Claims (6)

1. a kind of connecting node of assembled integral energy consumption frame, which is characterized in that including：

Vertically arranged prefabricated post；

Horizontally disposed precast beam, and the top of one end of the precast beam and the prefabricated post formed by cast-in-place concrete it is whole Body；

A pair of of damper built-in fitting, an inside top for being set to the prefabricated post, another is set to the precast beam Below end；And

Fluid linking damper, both ends are separately fixed on the damper built-in fitting.

2. connecting node as described in claim 1, which is characterized in that

The damper built-in fitting includes socket joint plate, is fixedly installed on socket joint plate one end connecting plate is set to described hold Peg on plate, and it is set to the suspension otic placode of the connecting plate other end, the socket joint plate is embedded in the precast beam Or the inside of prefabricated post.

3. connecting node as claimed in claim 2, which is characterized in that the outer surface of the connecting plate is with the precast beam or in advance The flush of column processed.

4. connecting node as claimed in claim 2, which is characterized in that

The socket joint plate is H-type or cross, and is provided with the reinforcing bar passed through for the longitudinal reinforcement of the prefabricated post or precast beam Connecting hole.

5. connecting node as claimed in claim 2, which is characterized in that

Earhole is provided on the suspension otic placode, the end set of the fluid linking damper has connecting hole, the fluid linking damper By being fixed on the suspension otic placode across the axis pin of the connecting hole, earhole.

6. connecting node as described in claim 1, which is characterized in that

The prefabricated post is reinforced concrete structure, and concrete top is stretched out at the top of the longitudinal reinforcement of the prefabricated post and is provided with Sleeve, the sleeve are provided with grouting liquid with the gap of the longitudinal reinforcement of the prefabricated post.