CN109057036A - A kind of the prefabricated buildings system and assembly method of standardized components - Google Patents

Abstract

The present invention provides the prefabricated buildings systems and assembly method of a kind of standardized components, the prefabricated buildings system includes assembly node, the assembly node includes roof truss assembly node, frame assembly node and pedestal assembly node, the pedestal assembly node includes base joint, base mast, first node assembly sets of vias is provided on the base joint and the base mast, sets of vias is assembled by the first node, the base joint is fixedly connected with the base mast；The frame assembly node includes cruciform bracing and upright of frame, and second node assembly sets of vias is provided on the cruciform bracing and the upright of frame, assembles sets of vias by the second node, the upright of frame is fixedly connected with the cruciform bracing；All components provided by the invention are the standard component that batch production intelligence is made, and it is to be bolted, installation speed is fast, and precision is higher, to realize the flexible and changeable of functional space that on-site consolidation, which does not have to welding,.

Description

A kind of the prefabricated buildings system and assembly method of standardized components

Technical field

The present invention relates to the prefabricated buildings systems and assembly method of building field more particularly to a kind of standardized components.

Background technique

It is well known that the combination that the structural framing of tradition steel house is disconnected using column perforation, beam at present, beam column Equal components connection must use bolting and welding mode.This structure is unfavorable for the standardization of component first, this is because: the length of beam By column away from determining, the change in size of beam section has been resulted in；As soon as column is to lead to top, inevitably to connect column, be welded on column The techniques such as connecting plate also result in the multi-size of column, surface complicates；Secondly structure bulky, it is difficult to realize lightweight；Again Secondary house in-site installation is cumbersome, and welding procedure is largely used in work progress, damages structure and erosion resistant coating, influences service life, A large amount of pernicious gases are generated simultaneously, are unfavorable for environmental protection；In view of this, how to improve the green of building structure, environmental protection, efficiently；Such as What can enable structural elements generalization, standardization, the lightweight of steel house, and housing industry is enable really to realize factory Change, automation, scale manufacture, component standard, general, the place of this initial motivation exactly of the invention designed.

Summary of the invention

In view of the above-mentioned problems, present invention seek to address that problem as described above.It is an object of the present invention to provide one kind The prefabricated buildings system and assembly method for solving a kind of standardized components of any one of problem above, pass through structure mark Quasi- part simplifies building construction installment work, improves work efficiency.

Wherein, the prefabricated buildings system includes assembly node, and the assembly node includes roof truss assembly node, frame Assembly node and pedestal assembly node；

The pedestal assembly node includes base joint, base mast, the base joint and the base mast On be provided with first node assembly sets of vias, by the first node assemble sets of vias, the base joint with it is described Base mast is fixedly connected；

The frame assembly node includes cruciform bracing and upright of frame, on the cruciform bracing and the upright of frame It is provided with second node assembly sets of vias, sets of vias is assembled by the second node, the upright of frame and the frame are horizontal Beam is fixedly connected；

The roof truss assembly node includes roof truss, roof truss crossbeam and roof truss connector, the roof truss, the roof truss crossbeam and It is provided with third node assembly sets of vias on the roof truss connector, sets of vias, the room are assembled by the third node Frame is fixedly connected with the roof truss crossbeam.

Wherein, the base joint includes position portion and ground supports part, and the position portion includes U-shaped The first positioning plate of pedestal, the second positioning plate of pedestal and the pedestal third positioning plate of setting；

The first node assembly sets of vias includes that setting is positioned in first positioning plate of pedestal and the pedestal second On plate it is multiple first assembly through-holes it is multiple, be arranged on the pedestal third positioning plate it is multiple second assembly through-holes；

The multiple first assembly through-hole and the multiple second assembly through-hole are in rectangle setting；

The multiple first assembly through-hole is mutually matched with multiple wing plates of base mast assembly through-hole and connect, described Multiple second assembly through-holes are mutually matched with multiple end panels of base mast assembly through-hole and connect.

Wherein, the second node assembly sets of vias includes multiple upright of frame assembly through-holes and the assembly of multiple cruciform bracings Through-hole, the equidistant modulus setting of the multiple cruciform bracing assembly through-hole, the multiple upright of frame assembly through-hole and described more A cruciform bracing assembly through-hole is mutually matched connection.

Wherein, shown frame assembly node further includes framework connecting piece, and the framework connecting piece includes the framework connecting piece wing Plate and framework connecting piece web are additionally provided with framework connecting piece side plate, the frame in the side of the framework connecting piece web Connector web is vertical with the framework connecting piece side plate；

The second node assembly sets of vias further includes the multiple thirds assembly being arranged on the framework connecting piece wing plate Through-hole, the multiple 4th assembly through-holes being arranged on the framework connecting piece side plate and setting are on the framework connecting piece web It is multiple five assembly through-holes；

The multiple third assembly through-hole and multiple 5th assembly through-holes are linearly arranged, and the straight line parallel is in described Framework connecting piece side plate, the multiple 4th assembly through-hole are arranged in rectangle；

The multiple third assembly through-hole is mutually matched with multiple upright of frame assembly through-hole and connect, the multiple 4th dress Be mutually matched and connect with through-hole and multiple cruciform bracings assembly through-hole, the multiple 5th assembly through-hole pass through connecting plate with it is described Multiple cruciform bracing assembly through-holes are mutually matched connection.

Wherein, the roof truss connector includes that from top to bottom successively vertically disposed roof truss connects the first plate, roof truss connection Second plate connects third plate with roof truss；

The third node assembly sets of vias includes that multiple 6th assembly that the roof truss connects on the first plate are arranged in lead to Hole connects multiple seven assembly through-holes on third plate, the multiple 6th assembly through-hole and described more with the roof truss is arranged in A 7th assembly through-hole is in rectangle setting；

The multiple 6th assembly through-hole is mutually matched with multiple wing plates of roof truss assembly through-hole and connect, the multiple 7th assembly through-hole is mutually matched with multiple wing plates of roof truss crossbeam assembly through-hole and connect.

Wherein, the first node assembly sets of vias, second node assembly sets of vias and third node assembly Sets of vias includes multiple assembly hole all, and two equal and adjacent assembly through-holes of the multiple assembly hole size are in pre- The setting of cover half number.

Wherein, it is provided on the cruciform bracing, the roof truss crossbeam, the base mast and the upright of frame Walk line three-way hole.

Wherein, the base mast is identical with the upright of frame specification, the cruciform bracing and roof truss crossbeam rule Lattice specification is identical.

Wherein, the prefabricated buildings system installation method of a kind of standardized components, which comprises the following steps:

S1, ground pretreatment: ground is carried out in advance with ground grading, method of one or more of digging pit, solidify ground Processing；

S2, installation pedestal connector, while sets of vias installation pedestal column is assembled by first node:

S3, assembled house frame assemble sets of vias, installation frame column and cruciform bracing by second node；

S4, installation roof, assemble sets of vias by third node, install roof truss and roof truss crossbeam.

All components provided by the invention are plant produced standard component, and it is to be bolted that on-site consolidation, which does not have to welding, Installation speed is fast, and precision is higher, using the through way of beam, pillar position can be made to pass through scheduled node pilot hole group It changes and combines, to realize the flexible and changeable of functional space.

Being described below for exemplary embodiment is read with reference to the drawings, other property features of the invention and advantage will It is apparent from.

Detailed description of the invention

It is incorporated into specification and the attached drawing for constituting part of specification indicates the embodiment of the present invention, and Principle for explaining the present invention together with the description.In the drawings, similar appended drawing reference is for indicating similar element. And the accompanying drawings in the following description is a part of the embodiments of the present invention, rather than whole embodiments.For ordinary skill For personnel, without creative efforts, other drawings may be obtained according to these drawings without any creative labor.

Fig. 1 schematically illustrates the prefabricated buildings system assumption diagram of standardized components of the invention

Fig. 2 schematically illustrates pedestal assembly node structural schematic diagram of the invention；

Fig. 3 schematically illustrates frame assembly node structural schematic diagram of the invention；

Fig. 4 schematically illustrates roof truss assembly node structural schematic diagram of the invention；

Fig. 5 schematically illustrates the frame assembly node schematic diagram comprising framework connecting piece of the invention；

Fig. 6 schematically illustrates base joint structural schematic diagram of the invention；

Fig. 7 schematically illustrates framework connecting piece structural schematic diagram of the invention；

Fig. 8 schematically illustrates roof truss connecting-piece structure schematic diagram of the invention；

Fig. 9 schematically illustrates 1 structural schematic diagram of the embodiment of the present invention；

Figure 10 schematically illustrates 2 structural schematic diagram of the embodiment of the present invention；

Figure 11 schematically illustrates 3 structural schematic diagram of the embodiment of the present invention；

Figure 12 schematically illustrates 4 structural schematic diagram of the embodiment of the present invention.

Specific embodiment

In order to make the object, technical scheme and advantages of the embodiment of the invention clearer, below in conjunction with the embodiment of the present invention In attached drawing, technical scheme in the embodiment of the invention is clearly and completely described, it is clear that described embodiment is A part of the embodiment of the present invention, instead of all the embodiments.Based on the embodiments of the present invention, those of ordinary skill in the art Every other embodiment obtained under that premise of not paying creative labor, shall fall within the protection scope of the present invention.It needs Illustrate, in the absence of conflict, the features in the embodiments and the embodiments of the present application can mutual any combination.

The basic idea of the invention is that preparing standardized component in factory, using bolt, tied by distinctive connection Structure, node pilot hole group, rapid assembling house.

With reference to the accompanying drawing, the prefabricated buildings system of provided standardized components according to the present invention is retouched in detail It states.

A kind of prefabricated buildings system of standardized components of the invention shown in FIG. 1, prefabricated buildings system can wrap Assembly node is included, assembly node includes pedestal assembly node 1, frame assembly node 2 and roof truss assembly node 3.

As shown in Fig. 2, pedestal assembly node 1 may include base joint 11, base mast 12,11 He of base joint It is provided with first node assembly sets of vias 100 on base mast 12, sets of vias 100, pedestal connection are assembled by first node Part 11 is fixedly connected with base mast 12.

As shown in figure 3, frame assembly node 2 may include cruciform bracing 21 and upright of frame 23, cruciform bracing 21 and frame It erects and is provided with second node assembly sets of vias 200 on column 23, sets of vias 200, upright of frame 23 are assembled by second node It is fixedly connected with cruciform bracing 21；

As shown in figure 4, roof truss assembly node 3 may include roof truss 31, roof truss crossbeam 32 and roof truss connector 33, roof truss 31, it is provided with third node assembly sets of vias 300 on roof truss crossbeam 32 and roof truss connector 33, is assembled by third node logical Hole group 300, roof truss 31 are fixedly connected with roof truss crossbeam 32.

Specifically, as shown in fig. 6, base joint 11 may include position portion 111 and ground supports part 112, position portion 111 includes that the first positioning plate of pedestal 113, the second positioning plate of pedestal 114 and pedestal third of U-shaped setting are fixed Position plate 115.

First node assembly sets of vias 100 may include being arranged in the second positioning plate of the first positioning plate of pedestal 113 and pedestal Multiple first assembly through-holes 101, setting multiple second assembly through-holes 102 on pedestal third positioning plate 115 on 114.

Multiple first assembly through-holes 101 and multiple second assembly through-holes 102 can be arranged in rectangle.

Multiple first assembly through-holes 101 can be mutually matched with multiple wing plates of base mast 12 assembly through-hole 103 and connect, Multiple second assembly through-holes 102 are mutually matched with multiple end panels of base mast 12 assembly through-hole 104 and connect.

As shown in figure 3, second node assembly sets of vias 200 includes multiple upright of frame assembly through-hole 204 and multiple frames Crossbeam assembles through-hole 205, the multiple cruciform bracing assembly equidistant modulus of through-hole 205 settings, and multiple upright of frame assemble through-hole 204 Connection is mutually matched with multiple cruciform bracings assembly through-hole 205.

In order to reinforce the fixed effect of beam and column, as shown in fig. 7, frame assembly node 2 can also include framework connecting piece 22, framework connecting piece 22 may include framework connecting piece wing plate 221 and framework connecting piece web 222, in framework connecting piece web 222 side is additionally provided with framework connecting piece side plate 223, and framework connecting piece web 222 is vertical with framework connecting piece side plate 223.

Second node assembly sets of vias 200 may include the multiple thirds assembly being arranged on framework connecting piece wing plate 221 Through-hole 201, the multiple 4th assembly through-holes 202 being arranged on framework connecting piece side plate 223 and setting are in framework connecting piece web Multiple 5th assembly through-holes 203 on 222.

Multiple thirds assembly through-holes 201 and multiple 5th assembly through-holes 203 can be linearly arranged, the straight line parallel in Framework connecting piece side plate 223, multiple 4th assembly through-holes 202 are arranged in rectangle.

Multiple third assembly through-holes 201 can be mutually matched with multiple upright of frame assembly through-hole 204 and connect, and multiple four Assembly through-hole 202 is mutually matched with multiple cruciform bracings assembly through-hole 205 and connect, and multiple 5th assembly through-holes 203 pass through connection Plate 24 is mutually matched with multiple cruciform bracings assembly through-hole 205 and connect.

As shown in figure 8, roof truss connector 33 may include that from top to bottom successively vertically disposed roof truss connects the first plate 331, roof truss connects the second plate 332 and connects third plate 333 with roof truss.

Third node assembly sets of vias 300 may include being arranged in roof truss connects on the first plate 331 multiple six to assemble Through-hole 301 be arranged in roof truss connect on third plate 333 it is multiple seven assembly through-holes 302, it is multiple six assembly 301 Hes of through-hole Multiple 7th assembly through-holes 302 are arranged in rectangle.

Multiple 6th assembly through-holes 301 can be mutually matched with multiple roof truss wing plates assembly through-hole 303 and connect, and multiple seven Assembly through-hole 302 is mutually matched with multiple roof truss crossbeam wing plates assembly through-hole 304 and connect.

Also, in order to complete standardized production and assembly.First node assembles sets of vias 100, second node assembly Sets of vias 200 and third node assembly sets of vias 300 may each comprise multiple assembly hole all, multiple to assemble logical hole size phase Deng, and hole is in preset distance all for two adjacent assembly.

House route in order to facilitate the installation of avoids aperture on wall, cruciform bracing 21, roof truss crossbeam 32,12 and of base mast Line three-way hole 4 can be set away on upright of frame 23, walked line three-way hole 4 and be used to that house internal wiring is installed.

Also, the identical and 32 specification specification phase of cruciform bracing 21 and roof truss crossbeam with 23 specification of upright of frame of base mast 12 Together, by being cut in factory, the building of different length is formed, the assembly needs of diversified forms are met, flexibly assembles, can also realize Automation, mass production.

Embodiment 1

As shown in figure 9, frame assembly node 2 includes 3 cruciform bracings, 21,2 upright of frame 23 and 2 framework connecting pieces 22, frame assembly node 2 includes being provided with second on 3 cruciform bracings, 21,2 upright of frame 23 and 2 framework connecting pieces 22 Node assembles sets of vias 200, and second node assembles the assembly through-hole that sets of vias 200 includes equal modulus setting, cruciform bracing 21, frame It erects column 23 and framework connecting piece 22 and connection is mutually matched by the assembly through-hole that equal modulus is arranged.

Embodiment 2

As shown in Figure 10, frame assembly node 2 includes 2 cruciform bracing 21 and 2 framework connecting pieces, 22,2 frame cross Second node assembly sets of vias 200 is provided on beam 21 and 2 framework connecting piece 22, second node assembly sets of vias 200 includes The assembly through-hole of equal modulus setting, cruciform bracing 21 and framework connecting piece 22 are mutually matched by the assembly through-hole that equal modulus is arranged Connection.

Embodiment 3

As shown in figure 11, frame assembly node 2 includes being provided with the second section on 2 cruciform bracings, 21,2 cruciform bracings 21 Point assembly sets of vias 200, second node assemble the assembly through-hole that sets of vias 200 includes equal modulus setting, 2 21 phases of cruciform bracing Mutually matching connection.

Embodiment 4

As shown in figure 12, frame assembly node 2 includes being provided with the second section on 3 cruciform bracings, 21,3 cruciform bracings 21 Point assembly sets of vias 200, second node assemble the assembly through-hole that sets of vias 200 includes equal modulus setting, 3 21 phases of cruciform bracing Mutually matching connection.

A kind of prefabricated buildings system installation method of standardized components, including assembly node, can specifically include following Step:

S1, ground pretreatment: ground is carried out in advance with ground grading, method of one or more of digging pit, solidify ground Processing；

S2, installation pedestal connector 13, while 100 installation pedestal column 12 of sets of vias is assembled by first node:

S3, assembled house frame assemble sets of vias 200, installation frame column 23 and cruciform bracing 21 by second node；

S4, installation roof, assemble sets of vias 300 by third node, install roof truss 31 and roof truss crossbeam 32.

The present invention is by the plant produced standard component provided, and it is to be bolted that on-site consolidation, which does not have to welding, installation speed Fastly, precision is higher, using the through way of beam, pillar position can be made to change by scheduled node pilot hole group and tied It closes, to realize the flexible and changeable of functional space.

Descriptions above can combine implementation individually or in various ways, and these variants all exist Within protection scope of the present invention.

It should be noted that, in this document, the terms "include", "comprise" or its any other variant are intended to non-row His property includes, so that including the article of a series of elements or equipment not only includes those elements, but also including not having There is the other element being expressly recited, or further includes for this article or the intrinsic element of equipment.Do not limiting more In the case where system, the element that is limited by sentence " including ... ", it is not excluded that in the article or equipment for including the element There is also other identical elements.

The above examples are only used to illustrate the technical scheme of the present invention and are not limiting, reference only to preferred embodiment to this hair It is bright to be described in detail.Those skilled in the art should understand that can modify to technical solution of the present invention Or equivalent replacement should all cover in claim model of the invention without departing from the spirit and scope of the technical solution of the present invention In enclosing.

Claims (9)

1. a kind of prefabricated buildings system of standardized components, which is characterized in that the prefabricated buildings system includes assembly section Point, the assembly node include roof truss assembly node, frame assembly node and pedestal assembly node；

The pedestal assembly node includes base joint, base mast, on the base joint and the base mast It is provided with first node assembly sets of vias, sets of vias, the base joint and the pedestal are assembled by the first node Column is fixedly connected；

The frame assembly node includes cruciform bracing and upright of frame, is respectively provided on the cruciform bracing and the upright of frame There is second node to assemble sets of vias, sets of vias is assembled by the second node, the upright of frame and the cruciform bracing are solid Fixed connection；

The roof truss assembly node includes roof truss, roof truss crossbeam and roof truss connector, the roof truss, the roof truss crossbeam and described Be provided on roof truss connector third node assembly sets of vias, by the third node assemble sets of vias, the roof truss with The roof truss crossbeam is fixedly connected.

2. prefabricated buildings system according to claim 1, which is characterized in that the base joint include position portion with And ground supports part, the position portion include the first positioning plate of pedestal, the second positioning plate of pedestal and pedestal of U-shaped setting Third positioning plate；

The first node assembly sets of vias includes being arranged on the second positioning plate of first positioning plate of pedestal and the pedestal It is multiple first assembly through-holes it is multiple, be arranged on the pedestal third positioning plate it is multiple second assembly through-holes；

The multiple first assembly through-hole and the multiple second assembly through-hole are in rectangle setting；

The multiple first assembly through-hole is mutually matched with multiple wing plates of base mast assembly through-hole and connect, the multiple Second assembly through-hole is mutually matched with multiple end panels of base mast assembly through-hole and connect.

3. prefabricated buildings system according to claim 1, which is characterized in that the second node assembly sets of vias includes more A upright of frame assembly through-hole and multiple cruciform bracings assemble through-hole, and the multiple cruciform bracing assembly equidistant modulus of through-hole is set It sets, the multiple upright of frame assembly through-hole and the multiple cruciform bracing assembly through-hole are mutually matched connection.

4. prefabricated buildings system according to claim 1, which is characterized in that shown frame assembly node further includes that frame connects Fitting, the framework connecting piece includes framework connecting piece wing plate and framework connecting piece web, in the framework connecting piece web Side is additionally provided with framework connecting piece side plate, and the framework connecting piece web is vertical with the framework connecting piece side plate；

Second node assembly sets of vias further include the multiple thirds assembly through-hole being arranged on the framework connecting piece wing plate, Multiple four be arranged on the framework connecting piece side plate assemble through-holes and are arranged in more on the framework connecting piece web A 5th assembly through-hole；

The multiple third assembly through-hole and multiple 5th assembly through-holes are linearly arranged, and the straight line parallel is in the frame Connector side plate, the multiple 4th assembly through-hole are arranged in rectangle；

The multiple third assembly through-hole is mutually matched with multiple upright of frame assembly through-hole and connect, and the multiple 4th assembly is logical Hole and multiple cruciform bracings assembly through-hole, which are mutually matched, connect, the multiple 5th assembly through-hole pass through connecting plate with it is the multiple Cruciform bracing assembly through-hole is mutually matched connection.

5. prefabricated buildings system according to claim 1, which is characterized in that the roof truss connector include from top to bottom according to Secondary vertically disposed roof truss connects the first plate, roof truss connects the second plate and connects third plate with roof truss；

Third node assembly sets of vias include be arranged in the roof truss connect multiple six assembly through-holes on the first plate and Multiple seven assembly through-holes on roof truss connection third plate are set, the multiple 6th assembly through-hole and the multiple the Seven assembly through-holes are in rectangle setting；

The multiple 6th assembly through-hole is mutually matched with multiple wing plates of roof truss assembly through-hole and connect, and the multiple 7th Assembly through-hole is mutually matched with multiple wing plates of roof truss crossbeam assembly through-hole and connect.

6. prefabricated buildings system according to claim 1, which is characterized in that first node assembly sets of vias, described Second node assembly sets of vias and third node assembly sets of vias include multiple assembly hole all, and the multiple assembly is logical Hole is equal in magnitude, and two adjacent assembly through-holes are arranged in predetermined modulus.

7. prefabricated buildings system according to claim 1, which is characterized in that the cruciform bracing, the roof truss crossbeam, Line three-way hole is provided with away on the base mast and the upright of frame.

8. prefabricated buildings system according to claim 1, which is characterized in that the base mast and upright of frame rule Lattice are identical, and the cruciform bracing is identical with the roof truss crossbeam specification specification.

9. the prefabricated buildings system installation method of a kind of standardized components, using the described in any item assembly of claim 1-8 Node, which comprises the following steps:

S1, ground pretreatment: ground is pre-processed with ground grading, method of one or more of digging pit, solidify ground；

S2, installation pedestal connector, while sets of vias installation pedestal column is assembled by first node:

S3, assembled house frame assemble sets of vias, installation frame column and cruciform bracing by second node；

S4, installation roof, assemble sets of vias by third node, install roof truss and roof truss crossbeam.