CN217238965U - Assembled building display model - Google Patents

Abstract

The utility model discloses an assembly type building display model, which comprises a prefabricated bottom plate, wherein the prefabricated bottom plate is provided with a stand column mounting position and a side wall mounting position; the upright post is arranged at the upright post mounting position; and the side wall is arranged at the side wall installation position. The utility model provides a multiple assembly type structure component and the connection technology that corresponds can be demonstrateed to assembly type building show model, can demonstrate present assembly type building typical component and connection technology systematically comprehensively, can solve the demand that enterprise, profession and college proofread assembly type building technical system show and representative assembly type building technical practice teaching.

Description

Assembled building display model

Technical Field

The utility model relates to an assembly type structure field further relates to assembly type structure show model.

Background

With the development and application of the assembly type building technology, the assembly type building mode of the building changes the extensive and inefficient management mode of the traditional building industry and improves the quality of building products, and is an important opportunity for transformation and upgrading of the traditional industry in the building industry; national policy guides and encourages the development of assembly type construction modes, and green buildings and assembly type buildings are popularized.

For the demand of the assembly type building market, it is a primary task that an enterprise needs to master and popularize assembly type building technology in time, and a novel assembly type building display solid model is required to be established for technical display. For the requirements of assembly type construction technical talents, the culture of related talents in higher-vocational colleges is an important task, and a comprehensive representative assembly type construction entity model is required to be established for practice teaching.

It should be noted that the assembly technology that the existing assembly type building display model can show is often single, and the existing assembly type building technology cannot be fully shown. In view of the foregoing, there is a need for improvements to existing modular architectural display models.

SUMMERY OF THE UTILITY MODEL

To the technical problem, an object of the utility model is to provide an assembly type structure show model, its connection technology that can demonstrate multiple assembly type building component and correspond satisfies the demand that enterprise, high-post institute proofread assembly type building technical system show and representative assembly type building technical practice teaching.

In order to achieve the above object, an object of the present invention is to provide an assembly type structure display model, including:

the prefabricated base plate is provided with an upright post mounting position and a side wall mounting position;

the upright post is arranged at the upright post mounting position;

and the side wall is arranged at the side wall installation position.

Preferably, the pillar includes:

the prefabricated column is provided with a grouting sleeve connecting piece and is arranged on the prefabricated bottom plate through a bolt connecting piece;

and/or

The prefabricated superposed column is arranged on the prefabricated bottom plate through an I-level mechanical connecting piece; and/or

And the fully prefabricated column is connected with the prefabricated bottom plate through a bolt connecting piece.

Preferably, the sidewall includes:

the door type external wall panel is provided with a semi-grouting sleeve connecting piece and is arranged on the prefabricated bottom plate through a bolt connecting piece;

and/or

The shear wall plate is provided with a grouting sleeve connecting piece and is arranged on the prefabricated bottom plate through a bolt connecting piece;

and/or

The integrated heat-insulation external wall panel is provided with a grouting sleeve connecting piece and is arranged on the prefabricated bottom plate through a bolt connecting piece;

and/or

The integrated heat-preservation double-sided superposed external wall panel is arranged on the prefabricated bottom plate;

and/or

The sandwich heat-insulation external wall panel is provided with a slurry anchor lap joint connecting piece and is arranged on the prefabricated bottom plate through a bolt connecting piece;

and/or

The window type external wall panel is provided with a corrugated blind hole connecting piece and is arranged on the prefabricated bottom plate through a bolt connecting piece.

Preferably, the prefabricated base plate comprises a plurality of prefabricated base plates and a plurality of connecting pieces, the prefabricated base plates are spliced with each other to form the prefabricated base plate, and the adjacent prefabricated base plates are connected through the connecting pieces.

Preferably, the prefabricated building display model further comprises:

assembled support, including vertical support, horizontal support, ejector pin and heightening mechanism, vertical support mounting in prefabricated bottom plate, horizontal support mounting in vertical support, heightening mechanism install in horizontal support, the ejector pin install in heightening mechanism, through heightening mechanism can adjust the height of ejector pin.

Preferably, the assembled support further comprises an anti-overturning mechanism, the anti-overturning mechanism comprises an anti-overturning grid plate and a transverse extending support, the transverse extending support extends outwards from the vertical support, and the anti-overturning grid plate is connected to one end, away from the vertical support, of the transverse extending support; an overturn-preventing space is arranged between the overturn-preventing grid plate and the vertical support.

Preferably, the upright column comprises a first prefabricated column, a second prefabricated column, a first prefabricated superposed column, a second prefabricated superposed column, a first fully prefabricated column and a second fully prefabricated column, the first prefabricated column and the second prefabricated column are arranged at intervals, the second prefabricated superposed column and the second prefabricated superposed column are arranged at intervals, and the first fully prefabricated column and the second fully prefabricated column are arranged at intervals;

the prefabricated building display model further comprises a top beam;

the top beam comprises two first superposed main beams, two second superposed main beams, two third superposed main beams, a fully prefabricated main beam and superposed secondary beams;

the assembled support comprises a first overturning prevention mechanism, a second overturning prevention mechanism, a third overturning prevention mechanism, a fourth overturning prevention mechanism, a fifth overturning prevention mechanism and a sixth transverse extension support;

wherein the first anti-toppling mechanism is located between the first prefabricated column and the second prefabricated column, and the sixth transversely extending support is located between the first prefabricated composite column and the second prefabricated composite column; one of the first overlapping main beams is mounted to the first overturn-preventing mechanism, and the other of the first overlapping main beams is mounted to the sixth transversely-extending support;

the second anti-overturning mechanism is positioned between the first prefabricated column and the first prefabricated superposed column, the third anti-overturning mechanism is positioned between the second prefabricated column and the second prefabricated superposed column, one second superposed main beam is installed on the second anti-overturning mechanism, and the other second superposed main beam is installed on the third anti-overturning mechanism;

the fourth anti-overturning mechanism is positioned between the first prefabricated superposed column and the first fully prefabricated column, and one third superposed main beam is installed on the fourth anti-overturning mechanism;

the fifth anti-overturning mechanism is located between the first full-prefabricated column and the second full-prefabricated column, and the full-prefabricated main beam is installed in the fifth anti-overturning mechanism.

Preferably, each of the laterally extending brackets is provided with the height-adjusting mechanism, and a cushion block is further mounted above the height-adjusting mechanism on the laterally extending bracket.

Preferably, the fabricated building display model further comprises a floor slab, the floor slab comprising:

the prestressed steel pipe truss composite floor slabs are respectively arranged on the two second composite main beams;

the unidirectional steel bar truss composite floor slabs are respectively arranged on the two second composite main beams;

the two ends of the prestressed hollow floor are respectively installed on the two third superposed main beams;

two-way steel bar truss coincide floor, the one end of two-way steel bar truss coincide floor install in the third coincide girder, the other end install in the two-sided coincide side fascia of integrated heat preservation and/or with filling heat preservation side fascia.

Preferably, the prefabricated building display model further comprises:

the prefabricated staircase is flexibly connected and installed by adopting a sliding support, the top end of the prefabricated staircase is installed on the top beam, and the bottom end of the prefabricated staircase is installed on the staircase support;

the first prefabricated guardrail is mounted on the prefabricated staircase;

the second prefabricated guardrail is arranged around the active area of the floor slab.

Preferably, the fabricated building display model further comprises a first diagonal draw bar and a second diagonal draw bar, one end of the first diagonal draw bar is connected to the prefabricated bottom plate, and the other end of the first diagonal draw bar is connected to the side wall; one end of the second diagonal draw bar is connected to the prefabricated bottom plate, and the other end of the second diagonal draw bar is connected to the prefabricated column.

According to the utility model discloses an on the other hand, the utility model discloses further provide assembly method of assembled building show model, include:

101: assembling a plurality of prefabricated foundation plates, wherein adjacent prefabricated foundation plates are connected through connecting pieces;

102: respectively installing one or more combinations of a prefabricated column, a prefabricated superposed column and a fully prefabricated column on corresponding installation positions on the prefabricated foundation plate, and connecting the prefabricated column and the prefabricated foundation plate through a second diagonal draw bar;

103: installing the side wall on a corresponding installation position on the prefabricated foundation plate, and connecting the side wall with the prefabricated foundation plate through a first diagonal draw bar; the side wall comprises one or more of a door type wall plate, a shear wall plate, an integrated heat-insulating external wall plate, an integrated heat-insulating double-sided superposed external wall plate, a sandwich heat-insulating external wall plate and a window type external wall plate;

104: fixedly installing the bottom of a vertical support of the assembled support on an embedded sleeve on the prefabricated foundation plate;

105: the top beam is arranged on the overturn-preventing mechanism of the assembled bracket;

106: after the assembled support is adjusted, sequentially installing a first superposed main beam, a second superposed main beam, a third superposed main beam, a superposed secondary beam and a fully-prefabricated beam to the assembled support;

107: sequentially installing a prefabricated staircase, a prestressed hollow floor slab, a one-way steel bar truss composite floor slab, a prestressed steel pipe truss composite floor slab and a two-way steel bar truss composite floor slab;

108: and installing the first prefabricated guardrail and the second prefabricated guardrail.

Compared with the prior art, the utility model provides an assembly type structure show model has following at least one beneficial effect:

1. the assembly type building display model provided by the utility model can display various assembly type building components and corresponding connection technologies, and meets the requirements of enterprise and high-position college proofreading assembly type building technical system display and representative assembly type building technical practice teaching;

2. the utility model provides an assembled building show model, assembled building show model includes assembled support, assembled support includes heightening mechanism, can finely tune the height of back timber and/or floor through heightening mechanism;

3. the utility model provides an assembled building show model, assembled building show model's assembled support is still including preventing the mechanism that topples, prevent the mechanism that topples include from the outside lateral extension support that extends of vertical support and with the lateral extension support is kept away from the grid tray that prevents of vertical support one end, prevent the grid tray that topples and can prevent the back timber slope.

Drawings

The above features, technical features, advantages and modes of realisation of the present invention will be further described in the following detailed description of preferred embodiments in a clearly understandable manner, in conjunction with the accompanying drawings.

FIG. 1 is a perspective view of a prefabricated base plate of a prefabricated building display model of a preferred embodiment of the present invention;

FIG. 2 is a perspective view of the columns and side walls of the prefabricated building display model of the preferred embodiment of the present invention;

FIG. 3 is a perspective view of the modular frame of the modular building display model of the preferred embodiment of the present invention;

FIG. 4 is a perspective view of the top beam of the modular architectural display model according to the preferred embodiment of the present invention;

FIG. 5 is a perspective view of the floor of the prefabricated building display model of the preferred embodiment of the present invention;

FIG. 6 is a perspective view of the prefabricated building display model of the preferred embodiment of the present invention;

FIG. 7 is a perspective view taken along line A-A of FIG. 5;

fig. 8 is a perspective view of the height-adjusting mechanism of the prefabricated construction display model according to the preferred embodiment of the present invention.

The reference numbers indicate:

the prefabricated bottom plate 1, the prefabricated foundation slab 11, the connecting piece 12, the extending steel bars 13, the embedded sleeves 14, the upright posts 2, the prefabricated columns 21, the first prefabricated columns 211, the second prefabricated columns 212, the prefabricated superposed columns 22, the first prefabricated superposed columns 221, the second prefabricated superposed columns 222, the completely prefabricated columns 23, the first completely prefabricated columns 231, the second completely prefabricated columns 232, the side walls 3, the door-type external wall panels 31, the shear wall panels 32, the integrated heat-insulating external wall panels 33, the integrated heat-insulating double-sided superposed external wall panels 34, the sandwich heat-insulating external wall panels 35, the window-type external wall panels 36, the assembled supports 4, the vertical supports 41, the transverse supports 42, the ejector rods 43, the height adjusting mechanisms 44, the screw rods 441, the first nuts 442, the second nuts 443, the overturn preventing mechanisms 45, the overturn preventing mechanisms 451, the transverse extending supports 452, the first overturn preventing mechanisms 461, the second overturn preventing mechanisms 462, the third overturn preventing mechanisms 463 and the fourth overturn preventing mechanisms 464, the anti-overturning device comprises a fifth anti-overturning mechanism 465, a sixth transverse extension support 466, a cushion block 47, a top beam 5, a first superposed main beam 51, a second superposed main beam 52, a third superposed main beam 53, a fully prefabricated main beam 54, a superposed secondary beam 55, a floor slab 6, a prestressed steel pipe truss superposed floor slab 61, a unidirectional steel bar truss superposed floor slab 62, a prestressed hollow floor slab 63, a bidirectional steel bar truss superposed floor slab 64, a prefabricated staircase 71, a first prefabricated guardrail 72, a second prefabricated guardrail 73, a first diagonal draw bar 81 and a second diagonal draw bar 82.

Detailed Description

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the following description will refer to the accompanying drawings to describe specific embodiments of the present invention. It is obvious that the drawings in the following description are only examples of the invention, and that for a person skilled in the art, other drawings and embodiments can be obtained from these drawings without inventive effort.

For the sake of simplicity, only the parts related to the present invention are schematically shown in the drawings, and they do not represent the actual structure as a product. In addition, in order to make the drawings concise and understandable, components having the same structure or function in some of the drawings are only schematically illustrated or only labeled. In this document, "one" means not only "only one" but also a case of "more than one".

It should be further understood that the term "and/or" as used in this specification and the appended claims refers to and includes any and all possible combinations of one or more of the associated listed items.

In this context, it is to be understood that, unless otherwise explicitly stated or limited, the terms "mounted," "connected," and "connected" are to be construed broadly, e.g., as meaning either a fixed connection, a removable connection, or an integral connection; can be mechanically or electrically connected; they may be connected directly or indirectly through intervening media, or they may be interconnected between two elements. The specific meaning of the above terms in the present invention can be understood in specific cases to those skilled in the art.

In addition, in the description of the present application, the terms "first", "second", and the like are used only for distinguishing the description, and are not intended to indicate or imply relative importance.

Example 1

Refer to specification attached drawing 1 to 8, the utility model provides an assembly type structure show model is expounded, the utility model provides an assembly type structure show model can show multiple assembly type structure component and the connection technology that corresponds, can show present assembly type structure typical component and connection technology systematically comprehensively, can solve enterprise, the institute of higher vocational study school and proofread the demand that assembly type structure technical system shows and representative assembly type structure technical practice teaching.

Referring to the attached drawings 1 and fig. 2 of the specification, specifically, the fabricated building display model includes a prefabricated bottom plate 1, a column 2 and a side wall 3, and the prefabricated bottom plate 1 has a column mounting position and a side wall mounting position; the upright post 2 is arranged at the upright post mounting position; the side wall 3 is installed at the side wall installation position.

Specifically, the upright post 2 comprises a prefabricated post 21, a prefabricated superposed post 22 and a fully prefabricated post 23. The prefabricated column 21 is provided with a grouting sleeve connecting piece and is arranged on the prefabricated bottom plate 1 through a bolt connecting piece; the prefabricated superposed column 22 is mounted on the prefabricated bottom plate 1 through an I-grade mechanical connecting piece; the fully prefabricated column 23 is connected to the prefabricated base plate 1 through a bolt connector.

It should be noted that in the preferred embodiment, the upright 2 can include one or more of the prefabricated column 21, the prefabricated superposed column 22 and the fully prefabricated column 23 to display one or more of three kinds of columns.

Further, the side wall 3 comprises a door type external wall panel 31, a shear wall panel 32, an integrated thermal insulation external wall panel 33, an integrated thermal insulation double-sided laminated external wall panel 34, a sandwich thermal insulation external wall panel 35 and a window type external wall panel 36. The door type external wall panel 31 is provided with a semi-grouting sleeve connecting piece and is arranged on the prefabricated bottom plate 1 through a bolt connecting piece; the shear wall plate 32 is provided with a grouting sleeve connecting piece and is installed on the prefabricated bottom plate 1 through a bolt connecting piece; the integrated heat-insulation external wall panel 33 is provided with a grouting sleeve connecting piece and is arranged on the prefabricated bottom plate 1 through a bolt connecting piece; the integrated heat-preservation double-sided superposed external wall panel 34 is arranged on the prefabricated bottom plate 1; the sandwich heat-insulating external wall panel 35 is provided with a slurry anchor lap joint connecting piece and is arranged on the prefabricated bottom plate 1 through a bolt connecting piece; the window type external wall panel 36 is provided with a corrugated blind hole connector and is installed on the prefabricated bottom plate 1 through a bolt connector.

It should be noted that the utility model provides an in the assembled building show model, side wall 3 can include door-type side fascia 31 shear force wallboard 32 integrated heat preservation side fascia 33 integrated heat preservation two-sided coincide side fascia 34 sandwich heat preservation side fascia 35 and one or more in the window formula side fascia 36, the kind and the quantity that side wall 3 includes should not constitute the restriction of the utility model.

Further, prefabricated bottom plate 1 includes a plurality of prefabricated foundation plates 11 and a plurality of connecting piece 12, and is a plurality of prefabricated foundation plates 11 splices each other and forms prefabricated bottom plate 1, and adjacent pass through between the prefabricated foundation plates 11 the connecting piece is connected.

Prefabricated bottom plate 1's concatenation in-process will earlier prefabricated foundatin plate 11 splices along predetermined concatenation mode each other, then will be adjacent prefabricated foundatin plate 11 passes through connecting piece 12 mutual fixed connection to prevent adjacent relative slip takes place for position between the prefabricated foundatin plate 11.

It should be further noted that the column mounting positions and the side wall mounting positions of the prefabricated base plate 1 are provided with extending steel bars extending upwards for mounting the column 2 and the prefabricated base plate 1.

Referring to the attached drawing 3 of the specification, the fabricated building display model further includes an assembled support 4, the assembled support 4 includes a vertical support 41, a horizontal support 42, a top rod 43 and a height-adjusting mechanism 44, the vertical support 41 is installed on the prefabricated base plate 1, the horizontal support 42 is installed on the vertical support 41, the height-adjusting mechanism 44 is installed on the horizontal support 42, the top rod 43 is installed on the height-adjusting mechanism 44, the height of the top rod 43 can be adjusted through the height-adjusting mechanism 44, and the floor slab of the fabricated building display model is installed on the top rod 43.

The vertical support 41 of the assembled support 4 comprises a plurality of vertically arranged support legs, and the arrangement direction of the vertically arranged support legs is the same as that of the upright posts 2. The transverse brackets 42 are installed at the top ends of the vertical brackets 41, and connect the adjacent vertical brackets 41 to each other.

The prefabricated bottom plate 1 is characterized in that a pre-embedded sleeve 14 is further arranged at the preset position, and the bottom end of the vertical support 41 of the assembled support 4 is fixedly installed on the pre-embedded sleeve 14.

Referring to fig. 6, the assembled support 4 further includes an anti-overturning mechanism 45, the anti-overturning mechanism 45 includes an anti-overturning grid 451 and a transversely extending support 452, the transversely extending support 452 extends outward from the vertical support 41, the anti-overturning grid 451 is connected to an end of the transversely extending support 452 away from the vertical support 41; an anti-overturning space is arranged between the anti-overturning grid plate 451 and the vertical bracket 41.

Further, the vertical column 21 includes a first prefabricated column 211, a second prefabricated column 212, a first prefabricated superposed column 221, a second prefabricated superposed column 222, a first fully prefabricated column 231 and a second fully prefabricated column 232, the first prefabricated column 211 and the second prefabricated column 212 are arranged at intervals, the second prefabricated superposed column 221 and the second fully prefabricated column 222 are arranged at intervals, and the first fully prefabricated column 231 and the second fully prefabricated column 232 are arranged at intervals.

The prefabricated building display model further comprises a top beam 5; wherein the top beam 5 comprises two first superposed main beams 51, two second superposed main beams 52, two third superposed main beams 53, a fully prefabricated main beam 54 and superposed sub-beams 55.

The assembled bracket 4 includes a first overturn-preventing mechanism 461, a second overturn-preventing mechanism 462, a third overturn-preventing mechanism 463, a fourth overturn-preventing mechanism 464, a fifth overturn-preventing mechanism 465 and a sixth transversely extending bracket 466.

The first anti-overturning mechanism 461 is located between the first prefabricated pillar 211 and the second prefabricated pillar 212, and the sixth transversely extending bracket 466 is located between the first prefabricated composite pillar 221 and the second prefabricated composite pillar 222; one of the first overlapping main beams 51 is mounted to the first overturn preventing mechanism 461, and the other overlapping main beam 51 is mounted to the sixth transversely extending support 466;

the second overturn preventing mechanism 462 is located between the first prefabricated column 211 and the first prefabricated superposed column 221, the third overturn preventing mechanism 463 is located between the second prefabricated column 212 and the second prefabricated superposed column 222, one second superposed main beam 52 is mounted on the second overturn preventing mechanism 462, and the other second superposed main beam 52 is mounted on the third overturn preventing mechanism 463;

the fourth anti-overturning mechanism 464 is located between the first prefabricated post 221 and the first fully prefabricated post 231, and one third superposed main beam 53 is mounted on the fourth anti-overturning mechanism 464;

the fifth overturn-preventing mechanism 465 is located between the first fully prefabricated column 231 and the second fully prefabricated column 232, and the fully prefabricated main beam 54 is installed in the fifth overturn-preventing mechanism 465.

Furthermore, the height adjusting mechanism 44 is respectively installed on each of the laterally extending brackets, and a cushion block 47 is also installed above the height adjusting mechanism 44 on each of the laterally extending brackets.

Referring to the attached drawing 5 of the specification, the fabricated building display model provided by the utility model further comprises a floor slab 6, wherein the floor slab 6 comprises a prestressed steel pipe truss composite floor slab 61, a unidirectional steel bar truss composite floor slab 62, a prestressed hollow floor slab 63 and a bidirectional steel bar truss composite floor slab 64, wherein the prestressed steel pipe truss composite floor slab 61 is respectively installed on the two second composite main beams 52; the unidirectional steel bar truss composite floor slabs 62 are respectively installed on the two second composite main beams 52; two ends of the prestressed hollow floor slab 63 are respectively installed on the two third superposed main beams 53; one end of the bidirectional steel bar truss composite floor slab 64 is installed on the third composite girder 53, and the other end is installed on the integrated heat-insulation double-sided composite external wall panel 34 and/or the sandwich heat-insulation external wall panel 35.

Referring to the description and the drawings of fig. 5 and 6, the prefabricated building display model further comprises a prefabricated staircase 71, a first prefabricated guardrail 72 and a second prefabricated guardrail 73, wherein the prefabricated staircase 71 is flexibly connected and installed by adopting a sliding support, the top end of the prefabricated staircase is installed on the top beam 5, and the bottom end of the prefabricated staircase is installed on a staircase support; the first prefabricated guardrail 72 is mounted on the prefabricated staircase 71; a predetermined area of the floor 6 has an active area, and the second prefabricated guard rail 73 is disposed around the active area of the floor 6.

It should be noted that, in the preferred embodiment, the gravity of the top beam 5 and the floor slab 6 acts on the assembly type support 4, and the assembly type support 4 provides support for the top beam 5 and the floor slab 6.

It should also be noted that in the preferred embodiment, the heights of the top beams 5 and the floor slabs 6 can be adjusted by the height adjusting mechanisms 44 of the sectional brackets 4. Specifically, the height of the floor slab 6 can be adjusted individually by the height-adjusting mechanism 44 mounted on the lateral bracket 41, and the height of the roof beam 5 can be adjusted by the height-adjusting mechanism 44 mounted on the lateral extension bracket 452 of the overturn-preventing mechanism 45. In the case where at least a part of the floor slab 6 is supported by the top beam 5, the height of the floor slab 6 is adjusted at the same time as the height of the top beam 5 is adjusted.

Referring to fig. 8 of the specification, the height-adjusting mechanism 44 includes a screw 441, a first nut 442, and a second nut 443. When the height adjusting mechanism 44 is installed between the top bar 43 and the transverse bracket 42, the top of the top bar 43 is fixedly installed on the top bar 43, the bottom of the screw 441 passes through the through hole of the transverse bracket 42, the first nut 442 and the second nut 443 are respectively screwed on the screw 441, and the first nut 442 and the second nut 443 are respectively located at the upper side and the lower side of the transverse bracket 42, so as to fixedly install the screw 441 on the transverse bracket 42. When the height adjusting mechanism 44 is installed between the block 47 and the laterally extending bracket 452, the top end of the screw 441 is fixedly installed on the block 47, the bottom end of the screw 441 passes through the through hole of the laterally extending bracket 452, the first nut 442 and the second nut 443 are respectively screwed on the screw 441, and the first nut 442 and the second nut 443 are respectively located at the upper side and the lower side of the laterally extending bracket 452.

For example, when the height-adjusting mechanism 44 needs to be adjusted to raise the floor slab 6, the second nut 443 located below the transverse bracket 42 is loosened, so that the second nut 443 moves along the screw 441 in a direction away from the transverse bracket 42; the screw 441 is then lifted upwards with respect to the transversal support 42; the first nut 442 is then screwed such that the first nut 442 moves along the threaded rod 441 in the direction of the transverse bracket 42 into contact with the transverse bracket 42. When the height-adjusting mechanism 44 needs to be adjusted to lower the floor 6, the first nut 442 located above the transverse bracket 42 is loosened, so that the first nut 442 moves along the screw 441 in a direction away from the transverse bracket 42; then lowering the height of the threaded bar 441 with respect to the transversal support 42; then, the second nut 443 located below the transverse bracket 42 is screwed, so that the second nut 443 moves along the screw 441 toward the transverse bracket 42 and contacts the transverse bracket 42. The process of adjusting the height of the top beam 5 by the height-adjusting mechanism 44 is similar to the process of adjusting the height of the floor slab 6, and is not repeated here.

Referring to the attached drawing 3 in the specification, the fabricated building display model further includes a first diagonal member 81 and a second diagonal member 82, one end of the first diagonal member 81 is connected to the prefabricated bottom plate 1, and the other end is connected to the side wall 3, so as to define the position relationship between the side wall 3 and the prefabricated bottom plate 1; one end of the second diagonal member 82 is connected to the prefabricated base plate 1, and the other end is connected to the prefabricated column 21, so as to define the position relationship between the prefabricated column 21 and the prefabricated base plate 1.

Specifically, the door-type external wall panel 31, the shear wall panel 32, the integrated thermal insulation external wall panel 33, the integrated thermal insulation wound-surface superposed external wall panel 34, the sandwich thermal insulation external wall panel 35 and the window-type external wall panel 36 of the side wall 3 are respectively connected with the prefabricated bottom plate 1 through the first diagonal draw bars 81. The first prefabricated column 211 and the second prefabricated column 212 of the prefabricated column 21 are respectively connected with the prefabricated bottom plate 1 through the second diagonal draw bar 82.

With reference to fig. 4 in the specification, further, both ends of the secondary overlapped beam 55 are respectively located between the two third overlapped main beams 53, and the secondary overlapped beam 55 is installed on the transverse support 42 of the assembled support 4.

Further, the utility model provides an assembly process of assembled building show model as follows:

101: assembling a plurality of prefabricated foundation plates 11, wherein the adjacent prefabricated foundation plates 11 are connected through connecting pieces 12;

102: respectively installing one or more combinations of a prefabricated column 21, a prefabricated superposed column 22 and a fully prefabricated column 23 at corresponding installation positions on the prefabricated foundation plate 11, and connecting the prefabricated column 21 and the prefabricated foundation plate 11 through a second diagonal draw bar 82;

103: installing the side wall 3 at a corresponding installation position on the prefabricated foundation plate 11, and connecting the side wall 3 with the prefabricated foundation plate 11 through a first diagonal draw bar 81; the side wall 3 comprises one or more of a door type wall panel 31, a shear wall panel 32, an integrated heat-insulating external wall panel 33, an integrated heat-insulating double-sided superposed external wall panel 34, a sandwich heat-insulating external wall panel 35 and a window type external wall panel 36;

104: fixedly installing the bottom of the vertical support 41 of the assembled support 4 on the embedded sleeve 14 on the prefabricated foundation plate 11;

105: an anti-overturning mechanism 45 for mounting the top beam 5 on the assembled bracket 4;

106: after the assembled support 4 is adjusted, sequentially installing a first superposed main beam 51, a second superposed main beam 52, a third superposed main beam 53, a fully-prefabricated beam 54 and a superposed secondary beam 55 to the assembled support 4;

107: sequentially installing a prefabricated staircase 71, a prestressed hollow floor slab 63, a one-way steel bar truss composite floor slab 62, a prestressed steel pipe truss composite floor slab 61 and a two-way steel bar truss composite floor slab 64;

108: first prefabricated guardrail 72 is installed as well as second prefabricated guardrail 73.

It should be noted that the above embodiments can be freely combined as necessary. The foregoing is only a preferred embodiment of the present invention, and it should be noted that, for those skilled in the art, a plurality of improvements and decorations can be made without departing from the principle of the present invention, and these improvements and decorations should also be regarded as the protection scope of the present invention.

Claims (11)

1. An assembled building display model, comprising:

the prefabricated base plate is provided with an upright post mounting position and a side wall mounting position;

the upright post is arranged at the upright post mounting position;

and the side wall is arranged at the side wall installation position.

2. The assembled architectural display model of claim 1, wherein the column comprises:

the prefabricated column is provided with a grouting sleeve connecting piece and is arranged on the prefabricated bottom plate through a bolt connecting piece;

and/or

The prefabricated superposed column is arranged on the prefabricated bottom plate through an I-level mechanical connecting piece;

and/or

And the fully prefabricated column is connected with the prefabricated bottom plate through a bolt connecting piece.

3. The assembled architectural display model of claim 1, wherein the sidewall comprises:

the door type external wall panel is provided with a semi-grouting sleeve connecting piece and is arranged on the prefabricated bottom plate through a bolt connecting piece;

and/or

The shear wall plate is provided with a grouting sleeve connecting piece and is arranged on the prefabricated bottom plate through a bolt connecting piece;

and/or

The integrated heat-insulation external wall panel is provided with a grouting sleeve connecting piece and is arranged on the prefabricated bottom plate through a bolt connecting piece;

and/or

The integrated heat-preservation double-sided superposed external wall panel is arranged on the prefabricated bottom plate;

and/or

The sandwich heat-insulation external wall panel is provided with a slurry anchor lap joint connecting piece and is arranged on the prefabricated bottom plate through a bolt connecting piece;

and/or

The window type external wall panel is provided with a corrugated blind hole connecting piece and is arranged on the prefabricated bottom plate through a bolt connecting piece.

4. The assembled building display model of claim 1, wherein the prefabricated base plate comprises a plurality of prefabricated base plates and a plurality of connecting members, the plurality of prefabricated base plates are spliced with each other to form the prefabricated base plate, and the adjacent prefabricated base plates are connected by the connecting members.

5. The prefabricated building display model of claim 3, wherein the prefabricated building display model further comprises:

the assembled support comprises a vertical support, a transverse support, an ejector rod and a height adjusting mechanism, wherein the vertical support is installed on the prefabricated bottom plate, the transverse support is installed on the vertical support, the height adjusting mechanism is installed on the transverse support, the ejector rod is installed on the height adjusting mechanism, and the height of the ejector rod can be adjusted through the height adjusting mechanism.

6. The prefabricated building display module of claim 5, wherein the modular support further comprises an anti-overturning mechanism comprising an anti-overturning grid and a transversely extending support, the transversely extending support extending outwardly from the vertical support, the anti-overturning grid being connected to an end of the transversely extending support remote from the vertical support; an anti-overturning space is arranged between the anti-overturning grid plate and the vertical bracket.

7. The assembled architectural display model of claim 6, wherein the vertical column comprises a first prefabricated column, a second prefabricated column, a first prefabricated superposed column, a second prefabricated superposed column, a first full prefabricated column and a second full prefabricated column, the first prefabricated column and the second prefabricated column are arranged at intervals, the second prefabricated superposed column and the second prefabricated superposed column are arranged at intervals, and the first full prefabricated column and the second full prefabricated column are arranged at intervals;

the prefabricated building display model further comprises a top beam;

the top beam comprises two first superposed main beams, two second superposed main beams, two third superposed main beams, a fully prefabricated main beam and superposed secondary beams;

the assembled support comprises a first overturn prevention mechanism, a second overturn prevention mechanism, a third overturn prevention mechanism, a fourth overturn prevention mechanism, a fifth overturn prevention mechanism and a sixth transverse extension support;

wherein the first anti-rollover mechanism is located between the first pre-fabricated column and the second pre-fabricated column, and the sixth laterally-extending bracket is located between the first pre-fabricated composite column and the second pre-fabricated composite column; one of the first overlapping main beams is mounted to the first overturn-preventing mechanism, and the other of the first overlapping main beams is mounted to the sixth transversely-extending support;

the second anti-overturning mechanism is positioned between the first prefabricated column and the first prefabricated superposed column, the third anti-overturning mechanism is positioned between the second prefabricated column and the second prefabricated superposed column, one second superposed main beam is installed on the second anti-overturning mechanism, and the other second superposed main beam is installed on the third anti-overturning mechanism;

the fourth anti-overturning mechanism is positioned between the first prefabricated superposed column and the first fully prefabricated column, and one third superposed main beam is installed on the fourth anti-overturning mechanism;

the fifth anti-overturning mechanism is located between the first full-prefabricated column and the second full-prefabricated column, and the full-prefabricated main beam is installed in the fifth anti-overturning mechanism.

8. The modular architectural display model of claim 7, wherein each of said laterally extending supports has said height adjustment mechanism mounted thereon, and further wherein a spacer is mounted above said height adjustment mechanism on said laterally extending supports.

9. The prefabricated building display model of claim 7, wherein said prefabricated building display model further comprises a floor slab, said floor slab comprising:

the prestressed steel pipe truss composite floor slabs are respectively arranged on the two second composite main beams;

the unidirectional steel bar truss composite floor slabs are respectively arranged on the two second composite main beams;

the two ends of the prestressed hollow floor are respectively installed on the two third superposed main beams;

two-way steel bar truss coincide floor, the one end of two-way steel bar truss coincide floor install in the third coincide girder, the other end install in the two-sided coincide side fascia of integrated heat preservation and/or with filling heat preservation side fascia.

10. The prefabricated building display model of claim 9, wherein said prefabricated building display model further comprises:

the prefabricated staircase is flexibly connected and installed by adopting a sliding support, the top end of the prefabricated staircase is installed on the top beam, and the bottom end of the prefabricated staircase is installed on the staircase support;

the first prefabricated guardrail is arranged on the prefabricated staircase;

and the second prefabricated guardrail is arranged around the active area of the floor slab.

11. The assembly type building display model according to claim 2, wherein the assembly type building display model further comprises a first diagonal member and a second diagonal member, one end of the first diagonal member is connected to the prefabricated base plate, and the other end of the first diagonal member is connected to the side wall; one end of the second diagonal draw bar is connected to the prefabricated bottom plate, and the other end of the second diagonal draw bar is connected to the prefabricated column.

Images