CN204112500U

CN204112500U - Stoplog bonded type shear resistance connector

Info

Publication number: CN204112500U
Application number: CN201420450689.3U
Authority: CN
Inventors: 郑天心; 竺·理查德
Original assignee: SINO GREEN GROUP INVESTMENTS CORP
Current assignee: SINO GREEN GROUP INVESTMENTS CORP
Priority date: 2014-08-11
Filing date: 2014-08-11
Publication date: 2015-01-21
Anticipated expiration: 2024-08-11

Abstract

The utility model discloses the utility model and provide a kind of stoplog bonded type shear resistance connector, described connector is arranged on close to each other, between two stoplogs having an edge of a wing parallel to each other, described connector comprises upper connector and lower connector, metal adhesive layer, described upper connector is fixedly connected on the bottom of stoplog upper beam, described lower connector is fixedly connected on the top of stoplog underbeam, described metal adhesive layer is poured between described upper connector and lower connector, described upper connector and lower connector matching form close, and be combined with each other by described metal adhesive layer.The utility model, compared with prior art, has following advantage: 1. adopt the stoplog of connector to substantially increase the rigidity of original structure; 2. shear resistance is excellent; 3. simple structure, cost is lower, installation effectiveness is higher.

Description

Stoplog bonded type shear resistance connector

Technical field

The utility model belongs to structural engineering technical field, particularly a kind of stoplog bonded type shear resistance connector.

Background technology

Integrated modular building is a kind of novel architectural mode.The building block of full completion completes the construction of more than 90% in the environment of plant.The module completed is transported to job site by larger transport devices and assembles.Assembling process is mainly by carrying out on-the-spot anatomical connectivity to the building block node of key, form structural entity rigidity, next be to building block between seam crossing close, equipment installation connects, and ensures its safety, waterproof, sound insulation and the building demand such as anticorrosion.Because transport, lifting and the restriction of installing, building block usually carries out producing, transport and installing with cuboid modular form.It is 18 meters that the long side bar of building block is about most, and it is 4.5 meters that minor face beam is about most, and high is building individual layer height, namely 3.1 meters to 4.5 meters.The cuboid module main frame of a standard is by four smallpox plate-girders (two long side bars and two minor face beams), and four joists, four corner posts are welded.Except being provided with the module of wall load-bearing, neighbouring layer building block connects at corner post place, does not all establish anatomical connectivity in addition, is formed typical " post bearing type building module " (columns supported).The advantage of this building block is its frame layout, and load bearing manner is simply direct; Module between levels is relatively independent, and sound insulation anti-vibration performance is good; The more important thing is that this form of structure is conducive to efficient factory and manufactures and simple joint connection in site.This building block form has taken into full account the many factors such as the design of modernization building module, production and construction, generally uses now, meets an Important building form of integrated modular building future thrust.

But above-mentioned existing integrated modular builds also existing defects:

One, connects between building block and relies on corner post to connect, still can for minor face beam direction intensity, rigidity; But for the long side bar directions of more than 10 meters connect, the spacing of the tie point of its vertical direction and horizontal direction is excessive, to such an extent as to the overall mechanics poor-performing of this building block, be not suitable for the architectural design that shockproof requirements is higher;

Its two, with regard to columns supported building module, the joist of superstructure module is separated with the smallpox plate-girder of substrustion module, two beams bear alone its vertical load, do not have combined effect between beam, therefore general structure efficiency is lower, and therefore the steel quantity consumption of its structure is larger.Calculating shows, the steel quantity consumption of columns supported modular structure is the 120%-130% of same steel work steel quantity consumption, and its main cause is exactly that the steel quantity consumption of long side bar is larger.

Its three, because the stoplog of columns supported building module does not have combined effect, the depth of section of long side bar is all comparatively large, generally between 150mm to 300mm; To add between upper and lower building block necessary installation gap, and floor thick-ness and ceiling thickness, lower floor's ceiling is generally greater than 500mm to upper floor spacing.Decrease the indoor operating altitude of user significantly like this, improve building costs.

In view of this, the utility model, in the urgent need to providing a kind of stoplog bonded type shear resistance connector, builds to solve above-mentioned existing integrated modular the defect existed.

Summary of the invention

The purpose of this utility model is to provide a kind of stoplog bonded type shear resistance connector, to solve the defect that above-mentioned existing integrated modular building exists.

In order to realize the purpose of this utility model, the utility model provides a kind of stoplog bonded type shear resistance connector, and described connector is arranged between two stoplogs close to each other, to have the edge of a wing parallel to each other.Described connector comprises upper connector and lower connector, metal adhesive layer, described upper connector is fixedly connected on the bottom of stoplog upper beam, described lower connector is fixedly connected on the top of stoplog underbeam, described metal adhesive layer is poured between described upper connector and lower connector, described upper connector and lower connector matching form close, and are be combined with each other by described metal adhesive layer.

The utility model, compared with prior art, has following advantage:

1. adopt the stoplog of connector to substantially increase the rigidity of original structure.Calculating shows, the stoplog of two freely-supporteds installs five connectors, and its combined effect can reach more than 85% of the stoplog rigidity of desirable abundant connection.

2. shear resistance is excellent.To be with the occlusal surface of wide cognate as upper and lower connector on inclined-plane, to be both conducive to providing when installing at the scene enough alignment errors to compensate, to have also provided the packing space of the metal-to-metal adhesive between connector; Optimize metal adhesive surface layout simultaneously, improve connector shear strength.Calculating shows, its bonding strength is more than 35% of desired attachment strength, meets the real work demand of integrated form module stoplog.

3. simple structure, cost is lower, installation effectiveness is higher.Do not change cognate size and increase the number of cognate, effectively can improve shear behavior, and cheap, and the steel quantity consumption increased because of cast steel connector can be ignored; With the on-the-spot adhesive member of metal-to-metal adhesive; construction is simple, speed is fast; avoid on-the-spot welding to be connected with complicated bolt; be adapted to the site operation of the integrated form building block of full completion especially; protect module to be damaged because Site Welding is connected with complicated bolt; choose suitable metal-to-metal adhesive, after bonding 24 hours Nei Keda design strengths more than 75%.

Accompanying drawing explanation

Fig. 1 is structural representation a of the present utility model;

Fig. 2 is structural representation b of the present utility model;

Fig. 3 is structural representation c of the present utility model;

Fig. 4 is structural representation d of the present utility model;

In figure, 1-stoplog upper beam, 2-stoplog underbeam, 3-connector, 31-upper connector, connector under 32-, 321-basin edge, 33-metal adhesive layer.

Detailed description of the invention

In order to make the purpose of this utility model, technical scheme and beneficial effect clearly understand, below in conjunction with embodiment and accompanying drawing, the utility model is further elaborated.Should be understood to specific embodiment described herein only in order to explain the utility model, be not limited to protection domain of the present utility model.

Design principle of the present utility model is the neighbouring beam originally worked alone to be combined into cooperative superposed beam.The key link of this compound beam is shear resistance connector between beam, the shearing produced during to transmit two beam co-operation.Meeting of the connector that the utility model provides requires as follows: one, gives stoplog reliable shear strength, and the final rigidity requirement of connector is not less than 50% of ideal connection; Its two, be directed to modular structure site operation space little, should avoid welding as far as possible or bolt, anchor bolts feature, the volume of the connector component of this connected mode is little, and easy construction is reliable, can reach the object connected fast; Its three, with low cost.

As shown in Figure 1, Figure 2, Figure 3, Figure 4, the utility model connector is arranged between two stoplogs close to each other, to have the edge of a wing parallel to each other, described connector comprises upper connector and lower connector, metal adhesive layer, described upper connector is fixedly connected on the bottom of stoplog upper beam, described lower connector is fixedly connected on the top of stoplog underbeam, described metal adhesive layer is poured between described upper connector and lower connector, described upper connector and lower connector matching form close, and are be combined with each other by described metal adhesive layer.

Above-mentioned stoplog is more common in the structure that the joist of two neighbouring building blocks of integrated form building module and smallpox plate-girder form.Wherein, building block can be cuboid modular form herein, it is 18 meters that its long side bar is about most, it is 4.5 meters that minor face beam is about most, and high is building individual layer height, namely 3.1 meters to 4.5 meters, usually by four smallpox plate-girders (two long side bars and two minor face beams), four joists, four corner posts are welded, and neighbouring layer building block connects at corner post place.The utility model improves the connected mode that it connects neighbouring layer building block, between upper and lower two-layer building block stoplog, especially arranges connector in long side bar direction.Joist bottom welding that the structure of connector can comprise (or take other fixed forms, as bolt connects) with the wide upper connector of beam and under ceiling beam welded top connector, wherein upper connector and lower connector match and arrange, matching form closes, both can be in conjunction with, and longitudinally error is less than 2.0mm.

The material of upper connector and lower connector can be steel casting, and casting accuracy is 0.5mm.

Connector evenly can be arranged along long side bar direction, and long side bar is divided into even number section, and setting space is not more than 3.0m.

In a preferred embodiment, upper connector can be cognate with the corrupt split face of lower connector and is combined, the flank of metal-toothed of occlusion has the inclination angle of 50 degree to 90 degree, and according to the friction factor determination tilt angles of the steel casting flank of tooth and metal-to-metal adhesive, inclination angle is greater than 90 degree of antifriction angles; Crest top land is plane, and described crest top land length is more than or equal to 0.5 times of tooth depth, and described tooth depth is more than or equal to 20mm.

In a preferred embodiment, described upper connector and lower connector include connecting portion and joint portion, the connecting portion of described upper connector is junction plate, it is for being fixedly connected with bottom stoplog upper beam, joint portion is provided with below the connecting portion of described upper connector, described joint portion is provided with the first cognate, the connecting portion of described lower connector is junction plate, it is for being fixedly connected with stoplog underbeam top, basin edge is provided with along circumferential direction above the connecting portion of described lower connector, described basin edge surrounds basin, the second cognate is provided with in described basin, the matching form of the shape of described first cognate and the cognate of described second closes, described first cognate embeds in described basin and is engaged with described second tooth.

Above-mentioned occlusion is non-direct contact occlusion, between upper connector and lower connector except metal adhesive layer is set, enough alignment errors are provided to compensate time also in order to install at the scene, longitudinally be provided with gap with side direction in the relative installation of upper connector and lower connector, the large I in gap is set to 5.0mm.

Above-mentioned metal adhesive layer, for before described upper connector is folded into lower connector, pours into the metal-to-metal adhesive flushed with described basin edge top in described basin, and upper connector moves down and metal-to-metal adhesive unnecessary in extrusion dish forms metal adhesive layer; Or, to connect on described and after the occlusion of lower connector, with injection system described metal-to-metal adhesive be filled in described gap and form metal adhesive layer.

In order to prevent described stoplog to be laterally separated, the two ends of described connector or centre arrange the pull bar that can be provided with and vertically run through described stoplog cross section.

When installing the utility model, the pairing welding when upper and lower connector welds in factory: first fixed by relative position during actual installation by two beams, then paired insertion upper connector and lower connector also weld simultaneously, thus ensure that construction precision.During in-site installation building block, first fix lower module, then on the connector of smallpox plate-girder, pour into metal-to-metal adhesive or mixed adhesive.Superimposed upper module in 15 minutes after perfusion, achieves the bonding of upper and lower connector scene; If construction condition does not allow outdoor perfusion adhesive in advance, then after upper and lower module installs, with erebro ventricular injection form filling adhesive between connector.Last at connector two ends place vertically with bolt draw bar, fastener or welding manner tie-beam, guarantee that connector does not produce and be separated up and down.

The utility model has following advantage:

1. superposed beam substantially increases the rigidity of original structure.Calculating shows, the stoplog of two freely-supporteds installs five connectors, and its combined effect can reach more than 85% of the stoplog rigidity of desirable abundant connection.For the simply supported beam by span centre point load, the usefulness of this connection scheme is:

α = \frac{1}{\frac{ΔI}{n^{2} I_{O}} + 1}

Wherein α is efficiency index, the rigidity of the stoplog namely connected with this connected mode and the ratio of the desirable stoplog rigidity be connected completely; Δ I is the increment of the desirable stoplog rigidity connected completely; N is that the stoplog that connects with this connector is by the hop count divided equally.。If fully connect, then α is 1.0; If do not connect completely, α is be the stoplog rigidity summation not considering combined effect.

2. connector shear resistance is excellent.To be with the occlusal surface of wide cognate as upper and lower connector on inclined-plane, to be both conducive to providing when installing at the scene enough alignment errors to compensate, to have also provided the packing space of the adhesive between connector; Optimize adhesive surface layout simultaneously, improve connector shear strength.Calculating shows, its bonding strength is more than 50% of desired attachment strength, meets the real work demand of integrated form module stoplog.According to calculating, connector shearing is to the maximum:

F_{S} = \frac{FL A_{T} d_{T}}{2 (n + 1) (A_{T} {d_{T}}^{2} + A_{B} {d_{B}}^{2} + I_{T} + I_{B})} = \frac{FL A_{B} d_{B}}{2 (n + 1) (A_{T} {d_{T}}^{2} + A_{B} {d_{B}}^{2} + I_{T} + I_{B})}

Wherein: F _sfor stud connector design shearing, F is span centre point load, and L is beam length, A _t, A _bbe respectively the sectional area of back timber and bottom girder, I _t, I _bbe respectively the inertia distance of back timber and bottom girder, d _t, d _bbe respectively back timber and the bottom girder distance to compound beam neutral axis.

3. connector structure is simple, with low cost, installation effectiveness is higher.Do not change cognate size and increase the number of cognate, effectively can improve shear behavior.And cheap, the steel quantity consumption increased because of cast steel connector can be ignored.With the on-the-spot adhesive member of metal-to-metal adhesive, construction is simple, speed is fast, chooses suitable metal-to-metal adhesive, after bonding 24 hours Nei Keda design strengths more than 75%.

In addition, the connector that the utility model provides, adds the rigidity of stoplog, effectively can reduce the steel quantity consumption of long side direction beam, reduce the depth of section of long side bar, thus decreases architecture assembly originally, improves indoor operating altitude.

The above is only preferred embodiment of the present utility model; it should be pointed out that for those skilled in the art, under the prerequisite not departing from the utility model principle; can also make some improvements and modifications, these improvements and modifications also should be considered as protection domain of the present utility model.

Claims

1. a stoplog bonded type shear resistance connector, it is characterized in that, described connector (3) is arranged on close to each other, between two stoplogs having an edge of a wing parallel to each other, described connector (3) comprises upper connector (31) and lower connector (32), metal adhesive layer (33), described upper connector (31) is fixedly connected on the bottom of stoplog upper beam (1), described lower connector (32) is fixedly connected on the top of stoplog underbeam (2), described metal adhesive layer (33) is poured between described upper connector (31) and lower connector (32), described upper connector (31) and lower connector (32) matching form close, and be combined with each other by described metal adhesive layer (33).

2. stoplog bonded type shear resistance connector according to claim 1, it is characterized in that, described stoplog is applied in integrated modular building, and described stoplog upper beam (1) and stoplog underbeam (2) are respectively the joist of building block and the smallpox plate-girder of lower building block on neighbouring two building blocks.

3. stoplog bonded type shear resistance connector according to claim 1 and 2, is characterized in that, described upper connector (31) and lower connector (32) are steel casting, and its metal bond face is cognate occlusion.

4. stoplog bonded type shear resistance connector according to claim 3, it is characterized in that, the flank of metal-toothed of occlusion has the inclination angle of 50 degree to 90 degree, and according to the friction factor determination tilt angles of the steel casting flank of tooth and metal-to-metal adhesive, inclination angle is greater than 90 degree of antifriction angles; Meanwhile, crest top land is plane, and described crest top land length is more than or equal to 0.5 times of tooth depth, and described tooth depth is more than or equal to 20mm.

5. stoplog bonded type shear resistance connector according to claim 1, it is characterized in that, described lower connector (32) top is provided with basin edge (321) along circumferential direction, described basin edge (321) surrounds basin, and described upper connector (31) bottom enters described basin and is engaged with described lower connector (32).

6. stoplog bonded type shear resistance connector according to claim 2, is characterized in that, described connector (3) is evenly arranged along the long side bar direction of described building block, and described long side bar is divided into even number section, and its spacing is less than or equal to 3.0m.

7. stoplog bonded type shear resistance connector according to claim 1 and 2, it is characterized in that, two ends or the centre of described connector (3) are provided with the pull bar vertically running through described stoplog cross section, and described pull bar can in order to prevent described stoplog along being separated perpendicular to connector occlusal surface direction.