CN101307620A - Building module unit and building structure using same - Google Patents

Abstract

The invention provides a building module unit that realizes superposition and assembly of a module unit easily through improving a connection structure of beams and pillars of the module buildings and a connection structure of module units. The building module unit of the invention includes a plurality of pillars; a connection element composed of a plurality of liner plates respectively combined with side portions of the pillars and forming an insertion space with at least an opening on one side; a plurality of beams, two ends of which are respectively inserted and combined with the insertion space of the connection element. The connection element forms at least the insertion space with openings in a plurality of directions.

Description

Building block unit and the fabric structure that uses this modular unit

Technical field

The fabric structure that the present invention relates to a kind of building block unit and use this modular unit.

Background technology

Modular unit for building is to come the structural system of construction of buildings by stacked and assembling.For coming construction of buildings, at first should form modular unit by modular unit.Modular unit forms by with bolt pillar being engaged with the beam that is welded with end plate (end plate).Engage by the end plate that welds on the pillar end of use bolt with end plate that welds on the pillar end and the modular unit that engages between these modular units.

Yet described prior art engages in order to make the pillar and the beam that are formed by square steel pipe, is provided with on the pillar that is formed by square steel pipe and engages the section loss of using peristome, this method to cause pillar.And pillar and beam are by 3-4 bolted joints, and therefore long beam and short beam directly do not join to together, thereby cause the insufficient strength at junction surface big.Owing to this reason, there is following problem in prior art, and promptly because of the distortion at junction surface, and the finish material that is arranged on the modular unit can be damaged modular unit in the transportation and (lift up) process of slinging.

Technology contents

The invention provides a kind of beam and the connected structure of pillar and connected structure between the modular unit, thereby can realize the building block unit of the stacked of modular unit and assembling easily by improving modular building.

And the present invention also provides a kind of fabric structure that uses modular unit, and described building structure can realize building construction systems by modular unit and conventional box modular unit that applied in any combination has cantilever (cantilever) formula earth construction.

In addition, the present invention provides a kind of building that uses modular unit again, described building structure can solve because the overlapping setting of pillar and beam makes the thickness thickening of wall, the perhaps problem of pillar part projection, and can clipped pillar and beam, thereby the material therefor amount can also be guaranteed in addition easily for finally handling or be provided with the needed space of equipment pipe arrangement when reducing construction of buildings.

The building block unit comprises: a plurality of pillars; Link, it is made up of a plurality of backing plates that combine with the sidepiece of described pillar respectively, and is formed with the insertion space of side mouth at least; And a plurality of beams, its two ends are inserted respectively and are attached in the insertion space of described link.Described link forms at least the insertion space in a plurality of direction upper sheds.

Described a plurality of pillar has identical length, and described a plurality of pillars can be 4.

Described link can comprise: two horizontal backing plates, and both preset distances of being separated by, and on the length direction of described pillar, combine with described pillar respectively; Two vertical backing plates, it combines with the outside of described two horizontal backing plates respectively and forms outer wall.

Described pillar can combine with welding manner with each junction surface of described link.

Described two horizontal backing plates comprise the first horizontal backing plate that is arranged on upside, the second horizontal backing plate that is arranged on the described first horizontal backing plate downside.The described first horizontal backing plate and the described second horizontal backing plate can be of similar shape.

Described link can be in the top and bottom of described pillar each in conjunction with one.

Described a plurality of beam comprises long beam and the short beam with different length, and described a plurality of beams can comprise four beams that are arranged on described pillar upper end and four beams that are arranged on described pillar lower end.

Each junction surface of described beam and described link can be with the welding manner combination.

A plurality of modular units of being made up of described a plurality of pillars, link and beam are when stacked, and its adjacent horizontal backing plate is connected with separable structure, and described adjacent horizontal backing plate can combine with thread connecting mode.

A plurality of modular units of being made up of described a plurality of pillars, link and beam are when stacked, and the long beam that described modular unit is adjacent can harden by supporting pad and be integrated.And may further include support member, it combines with the end of pillar bottom, described bottom pillar and ground between support described stacked modular unit.But also may further include auxiliary supports, it is combined between bottom the long beam and ground, is used to reduce the sagging of described long beam bottom.

In addition, use the fabric structure of modular unit to comprise first module and second module, wherein said first module comprises: first bottom girder constitutes quadrangle ground framework; First floor panel is arranged on described first bottom girder; A plurality of pillars are respectively with vertical connection of each bight of described first bottom girder; Back timber connects described pillar upper end; And prolongation module, this prolongation module comprises first tie-beam, this first tie-beam is arranged on the described first bottom girder end with prolonging, on the width of described first tie-beam, be formed with first and prolong panel, described second module comprises: second bottom girder, constitute another ground framework, be used for described second module is connected to the end of described prolongation module; Second floor panel is arranged on described second bottom girder; A plurality of second pillars are respectively with vertical connection of each bight of described second bottom girder; And second back timber, connect described a plurality of second pillars upper end.

First module is connected in the horizontal direction with second module, thereby can constitutes a plurality of buildings.Can the identical building of stacked structure above the building of assembling by described first module and described second module.

The building block unit need not form peristome and can easily pillar and beam be engaged yet on pillar.Described building block unit not only can make beam and column engage, but also can directly engage short beam and Chang Liang, thereby improves the horizontal intensity and the rigidity at junction surface.

And,, when stacked, use adjacent horizontal backing plate to pass through bolted joints in the building block unit in order to engage between Jiang Liang and the beam.And on the centre position of the beam of first floor module, the support backing plate can be set, thereby sagging the reaching of beam minimized.

And, engage one another between pillar and short beam and the long beam, thereby the bond strength between the single-bit module member is maximized.

Moreover, at as the employed material of the beam of modular unit, it does not directly engage with pillar, but the preset distance of being separated by engages by vertical backing plate and horizontal backing plate, therefore do not need in the longitudinal direction this material is carried out accurate cutting, thereby can reduce processing charges.

In addition, in using the fabric structure of modular unit provided by the present invention, it be not necessary for form in the middle of corridor and dual pillar or brace summer structure are set, therefore can reduce the quantity of framework.But also can omit the needed space of the structure that dual pillar or brace summer are set.Therefore,, make the area in corridor also obtain enlarging, thereby have the effect that the space is set on the ceiling of corridor such as increase equipment pipe arrangement because available level, vertical space become big.

And, when transportation module, the prolongation panel of connecting portion can be extended to the outside of trailer and place, therefore can carry two modules simultaneously, thereby have the effect that reduces freight.

Description of drawings

Fig. 1 is the stereogram that shows the building block block construction of the embodiment of the invention.

Fig. 2 a and Fig. 2 b are the partial perspective views that shows the marriage relation of pillar, link and beam among Fig. 1.

Fig. 3 is the stereogram that shows two building block unit stacked states of the embodiment of the invention.

Fig. 4 is the partial perspective view that shows the marriage relation of pillar, link and beam among Fig. 3.

Fig. 5 is the stereogram that shows long beam adjacent among Fig. 3 and support the marriage relation of backing plate.

Fig. 6 is the stereogram of fabric structure that shows the use modular unit of another embodiment of the present invention.

Fig. 7 is the stereogram that the fabric structure of the use modular unit of demonstration another embodiment of the present invention combines.

Fig. 8 is the stereogram that is presented on the fabric structure of use modular unit of another embodiment of the present invention in addition in conjunction with the roof.

Fig. 9 is presented at the stereogram that forms the integral type roof on the fabric structure of the modular unit that uses another embodiment of the present invention.

The specific embodiment

Below, the embodiment that invention will be described in detail with reference to the attached drawing can implement the person of ordinary skill in the field easily.The present invention can realize with multiple mode, be not limited to the embodiments described below.And same Reference numeral shows same parts in manual and accompanying drawing.

Fig. 1 is the stereogram that shows the building block block construction of the embodiment of the invention.

With reference to Fig. 1, the building block unit of the embodiment of the invention comprises pillar 10, beam 20 and link 30.The embodiment of the invention is used to improve the connected structure of beam and column of modular building and the connected structure between the modular unit, thereby builds building by modular unit is stacked and assembling.

Pillar 10 is a plurality of, and described a plurality of pillars 10 have identical length, and described a plurality of pillar 10 is four.

Beam 20 is a plurality of, and the two ends of each beam 20 are inserted respectively and are attached in the insertion space of described link 30.Described a plurality of beam 20 comprises long beam 22 and the short beam 24 with different length, and described a plurality of beams 20 comprise four beams that are arranged on described pillar 10 upper ends and are arranged on four beams of described pillar 10 lower ends.

Described link 30 is made up of with vertical backing plate 36 first horizontal backing plate 32, the second horizontal backing plate 34.Described link 30 in the top and bottom of described pillar 10 each in conjunction with one.If pillar 10 is four, so described link 30 respectively is provided with two on each pillar 10, that is, each modular unit has eight links 30.

Fig. 2 a and Fig. 2 b are the partial perspective views that shows the marriage relation of pillar 10, link 30 and beam 20 among Fig. 1.

With reference to Fig. 2 a and Fig. 2 b, link 30 is made up of a plurality of backing plates that combine with the sidepiece of described pillar 10 respectively, and is formed with the insertion space of at least one side opening.Described link 30 is formed on the insertion space of a plurality of direction upper sheds.Embodiments of the invention need not form peristome on pillar 10, as long as just can engage pillar 10 and beam 20 at an easy rate by link 30.This juncture not only can fished beam 20 and pillar 10, but also can directly engage short beam 24 and long beam 22, thereby can improve the horizontal intensity and the rigidity at junction surface.

Two horizontal backing plates are formed one group, and the preset distance of being separated by combines with pillar on the length direction of pillar 10 respectively.Described two horizontal backing plates comprise the first horizontal backing plate 32 that is arranged on upside, the second horizontal backing plate 34 that is arranged on described first horizontal backing plate 32 downsides, and the described first horizontal backing plate 32 constitutes with identical shape with the second horizontal backing plate 34.

Forming two vertical backing plates 36 of one group combines with the outside of the described first horizontal backing plate 32 and the second horizontal backing plate 34 respectively and forms outer wall.

Shown in Fig. 2 a and Fig. 2 b, described pillar 10 combines with welding manner with each junction surface of described link 30.And each junction surface of described beam 20 and described link 30 is also with the welding manner combination.That is, the vertical backing plate of first horizontal backing plate 32, the second horizontal backing plate 34 that engages respectively on the described pillar 10 and two 36 is combined and constitute link 30, and described pillar 10 and beam 20 engage with welding manner by described link 30.

As mentioned above, the modular unit of the embodiment of the invention to pillar 10, long beam 22, when short beam 24 engages, engages the vertical backing plate 36 with two of first horizontal backing plate 32, the second horizontal backing plate 34 of forming link 30 on pillar 10 with welding manner.And will long beam 22 and short beam 24 be inserted into respectively after the insertion space of described link 30 openings, each beam 20 is welded, form the joint portion with this.In this case, beam 20 employed materials as modular unit, it does not directly engage with pillar 10, but the preset distance of being separated by engages by vertical backing plate 36, the first horizontal backing plate 32 and the second horizontal backing plate 34, therefore do not need in the longitudinal direction this material is carried out accurate cutting, thereby can reduce processing charges.

And when modular unit was mutually stacked, the adjacent modules unit was connected engaging between first adjacent in pillar 10 and the link 30 that beam 20 the is connected horizontal backing plate 32 and the second horizontal backing plate 34 by making.By the stacked modular unit of this syndeton, its long beam 22 and short beam 24 engage with first horizontal backing plate 32, the second horizontal backing plate 34 respectively, thereby can make the bond strength maximization between the single-bit module unit member.And the frame rigidity of modular unit is improved, and damaged condition that can make finish material in the transportation etc. reaches and minimizes.

Fig. 3 is the stereogram that shows two building block unit stacked states of the embodiment of the invention.Fig. 4 is the partial perspective view that shows the marriage relation of pillar 10, link 30 and beam 20 among Fig. 3.

With reference to Fig. 3 and Fig. 4, will be stacked to by the modular unit that a plurality of pillars 10, link 30 and beam 20 are formed when two-layer, the adjacent first horizontal backing plate 32 and the second horizontal backing plate 34 are with separable structural engagement in the bottom of the 1st layer top and the 2nd layer.The described first adjacent horizontal backing plate 32 and the second horizontal backing plate 34 can be with the thread connecting mode combinations.Promptly during the mutual stacked joint of two modular units, the first horizontal backing plate 32 that is engaged in its upside in the second horizontal backing plate 34 of its downside in the horizontal backing plate of the pillar 10 of upside modular unit and beam 20 and the horizontal backing plate that pillar 10 and beam 20 with the downside modular unit engages is used bolted joints, thereby constitute two buildings that module unit is stacked.

In described syndeton, the first horizontal backing plate 32 and the second horizontal backing plate 34 can be effectively be delivered to the load of beam 20 on the pillar 10, and vertical backing plate 36 can resist the shearing force that the end of beam 20 takes place fully.

As mentioned above, two modular units are mutual when stacked, the bolted joints face when the first horizontal backing plate 32 of pillar 10 ends and the second horizontal backing plate 34 can be used as and engage with the adjacent block unit.By this way, during two modular unit horizontal integrations, can realize and the engaging of adjacent block unit by vertical backing plate 36.At this moment, adjacent vertical backing plate 36 can be used as the bolted joints face.

In addition, on the end of the 1st layer of pillar 10 in conjunction with support member 40.Described support member 40 is used to support stacked modular unit between the 1st layer pillar 10 and ground.

Fig. 5 is the stereogram that shows long beam adjacent among Fig. 3 22 and support the marriage relation of backing plate 50.

With reference to Fig. 5, a plurality of modular units of being made up of described a plurality of pillars 10, link 30 and beam 20 are when stacked, and adjacent long beam 22 can be combined as a whole by supporting backing plate 50.On the correspondence position that the long beam 22 that supports backing plate 50 is installed, be formed with connecting hole, and adjacent long beam 22 engaged by supporting backing plate 50 with bolt.

And, on long beam 22 bottom in conjunction with auxiliary supports 60.Described auxiliary supports 60 is provided with separately with support member 40, and described auxiliary supports 60 is attached between bottom the long beam 22 and ground that is arranged on the 1st layer of bottom, thereby sagging the reaching of long bottom beam 22 minimized.Described auxiliary supports 60 can be same shape with support member 40.Consider the sagging of long beam 22, preferably the installation site of described auxiliary supports 60 is located at long beam 22 central authorities.

Fig. 6 is the stereogram of fabric structure that shows the use modular unit of another embodiment of the present invention, and Fig. 7 is the stereogram that shows that the fabric structure of the use modular unit of another embodiment of the present invention combines.

Described fabric structure comprises first module 100 and the second module 100-1.First module 100 comprises first bottom girder 210, and it constitutes the quadrangle ground framework with first module 100 that is used for assembly type building module thing of normal size manufacturing, and is provided with first floor panel 211 at the width or the length direction of this framework.

Vertically be provided with other frameworks of decision depth of building on the bight of described first bottom girder 210 respectively, i.e. first pillar 220.

First module 100 comprises first back timber 230, and it connects the upper end of first pillar 220 respectively, thereby prevents rocking of this first pillar 220, and is used to form ceiling frames.And first module 100 also comprise and prolong module 300, the first prolongation panel 311 that the end that this prolongations module 300 is included in first bottom girder 210 prolongs first tie-beam 310 that ground is provided with and is provided with on the width of described first tie-beam 310 or length direction.

When constituting prolongation module 300, the beam of forming the framework of corresponding ceiling is removed, even therefore the first identical shaped module 100 is stacked to described module top, do not disturb between the tie-beam 310 of prolongation module 300 and the prolongation module 300 of bottom yet, form spatial portion 410 with this.Therefore, by described spatial portion 410 the required equipment pipe arrangement 400 of building can be set easily.

Below exemplifying equipment pipe arrangement 400 describes.Because fabric structure of the present invention is formed with the spatial portion 410 that does not have in the existing building, can be arranged at back timber 230 or panel to water inlet pipe that is used to water into or the gutter that is used for draining by fastening devices.The fastening devices that described equipment pipe arrangement 400 is set is same as the prior art, therefore omits its explanation here.

That is to say, when the first prolongation panel 311 of the prolongation module 300 that prolongation is provided with on first module 100 was positioned at first module, 100 tops, superposed first prolongs panel 311 can serve as the ceiling of the prolongation module 300 of first module 100 that is positioned at the bottom simultaneously.Therefore, can reduce the framework quantity of forming by back timber and bottom girder in the prior art, can increase economic efficiency.

The second module 100-1 has basically the structure identical with first module 100, comprise the second bottom girder 210-1, this second bottom girder 210-1 is used to constitute the ground framework of building, the second floor panel 211-1 is arranged on the second bottom girder 210-1, so that the second module 100-1 is connected to the end of described prolongation module 300 in the horizontal direction.

On the bight of the described second bottom girder 210-1, be respectively arranged with the second pillar 220-1 perpendicular and that connect.

The described second pillar 220-1 is provided with the second back timber 230-1 that is provided with in order to connect its upper end.The second module 100-1 that forms by described structure combines with first module 100, thereby builds a building.

And the present invention can build a plurality of buildings by first module 100 is connected on side surface direction with the second module 100-1.And the present invention can also finish the construction of a building at the same building of building upper stack that is made of first module 100 and second module 100-1 assembling.

In addition, as shown in Figure 8, the present invention can also be provided with the ceiling structure 500 of independent preparation on the module top of the superiors after the modular building upper stack modular building of finishing with said structure, finish modular building with this.And as shown in Figure 9, the present invention can be made into the heeling condition that can form the inclined plane with first back timber 230 of the superiors' module of building modules again, thereby forms the integral type roof.In addition, the present invention is provided with ceiling separately on the top of the prolongation module 300 of the superiors, and use in the corridor in the middle of can be used as.The present invention carries out the facing construction by the engineering of routine after the combination of finishing between described first module 100, finish the construction of building module thing with this.

Claims (19)

1, a kind of building block unit is characterized in that comprising:

A plurality of pillars;

Link, it is made up of a plurality of backing plates that combine with the sidepiece of described pillar respectively, and is formed with the insertion space of at least one side opening; And

A plurality of beams, its two ends insert respectively and are attached in the insertion space of described link,

Described link forms at least the insertion space in a plurality of direction upper sheds.

2, building block according to claim 1 unit is characterized in that:

Described a plurality of pillar has identical length.

3, building block according to claim 2 unit is characterized in that:

Described a plurality of pillar is 4.

4, building block according to claim 1 unit is characterized in that described link comprises:

Two horizontal backing plates, both preset distances of being separated by, and on the length direction of described pillar, combine with described pillar respectively;

Two vertical backing plates, it combines with the outside of described two horizontal backing plates respectively and forms outer wall.

5, building block according to claim 4 unit is characterized in that:

Described pillar combines with welding manner with each junction surface of described link.

6, building block according to claim 4 unit is characterized in that described two horizontal backing plates comprise: be arranged on upside the first horizontal backing plate, be arranged on the second horizontal backing plate of the described first horizontal backing plate downside.

7, building block according to claim 6 unit is characterized in that:

The described first horizontal backing plate and the described second horizontal backing plate are of similar shape.

8, building block according to claim 4 unit is characterized in that:

Described link in the top and bottom of described pillar each in conjunction with one.

9, building block according to claim 1 unit is characterized in that:

Described a plurality of beam comprises long beam and the short beam with different length.

10, building block according to claim 9 unit is characterized in that:

Described a plurality of beam comprises four beams that are arranged on described pillar upper end and four beams that are arranged on described pillar lower end.

11, building block according to claim 10 unit is characterized in that:

Each junction surface of described beam and described link is with the welding manner combination.

12, building block according to claim 6 unit is characterized in that:

A plurality of modular units of being made up of described a plurality of pillars, link and beam are when stacked, and its adjacent horizontal backing plate combines with separable structure.

13, building block according to claim 12 unit is characterized in that:

Described adjacent horizontal backing plate combines with thread connecting mode.

14, building block according to claim 9 unit is characterized in that:

A plurality of modular units of being made up of described a plurality of pillars, link and beam are when stacked, and the long beam that described modular unit is adjacent connects as one by supporting backing plate.

15, building block according to claim 14 unit is characterized in that:

Further comprise support member, it combines with bottom pillar end, described bottom pillar and ground between support described stacked modular unit.

16, building block according to claim 15 unit is characterized in that:

Further comprise auxiliary supports, it is combined between bottom the long beam and ground, is used to reduce the sagging of described long beam bottom.

17, a kind of fabric structure that uses modular unit is characterized in that, comprises first module and second module, and wherein said first module comprises:

First bottom girder constitutes quadrangle ground framework;

First floor panel is arranged on described first bottom girder;

A plurality of pillars are respectively with vertical connection of each bight of described first bottom girder;

Back timber connects described pillar upper end; And

Prolong module, comprise first tie-beam, this first tie-beam is arranged on the described first bottom girder end with prolonging, and on the width of described first tie-beam, be formed with first and prolong panel,

Described second module comprises:

Second bottom girder constitutes another ground framework, is used for described second module is connected to the end of described prolongation module;

Second floor panel is arranged on described second bottom girder;

A plurality of second pillars are respectively with vertical connection of each bight of described second bottom girder; And

Second back timber connects described a plurality of second pillars upper end.

18, the fabric structure of use modular unit according to claim 17 is characterized in that:

Described first module is connected in the horizontal direction with described second module, constitutes multiple building with this.

19, fabric structure according to claim 18 is characterized in that:

Stacked identical building above the building of assembling structure by described first module and described second module.

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