CN217000125U - Assembly type building component device based on BIM - Google Patents

Abstract

The utility model discloses a BIM-based assembly type building component device which comprises a positioning plate and positioning frames fixedly connected to the lower surface of the positioning plate, wherein assembly holes are formed in the upper surfaces of the positioning plate and the positioning frames, the assembly holes are used for penetrating through supporting columns, lead screws are in threaded connection with the left side and the right side of the positioning frames respectively, the two lead screws can be respectively abutted to one side of each of two movable frames through rotation of opposite ends, two fixing grooves are formed in the other side of each movable frame, the fixing grooves are connected to two extrusion plates through elastic buffer parts, and the two extrusion plates arranged on the left side and the right side are used for abutting to the left side and the right side of the supporting columns. According to the utility model, the protection and anti-seismic effects on the prefabricated building are improved through the counterforce of the elastic buffer component, the influence of vibration on the supporting column is reduced, and the sleeving installation mode is simple and convenient.

Description

Assembly type building component device based on BIM

Technical Field

The utility model belongs to the technical field of building engineering, and particularly relates to an assembly type building component device based on BIM.

Background

Bim (building Information modeling) refers to a technical process for providing Information on the generation and management of building data in the building design, construction and entire building life cycle, and the prefabricated building construction needs to be assembled after the design is completed in order to be rapidly assembled into a building.

The building component refers to each element of a building, if the building is regarded as a product, the building component refers to a part in the product, and the assembly type building component refers to a component which is processed and manufactured in a factory and is assembled and installed after being transported to a site, so that the construction efficiency of the building is improved, and the assembly type building component is a representative of a modern industrial production mode.

However, when the existing fabricated building component is connected between the floor slab and the supporting column, a gap is usually reserved, and concrete is filled in the gap to increase the connection strength, so that the component, the floor slab and the supporting column form a whole body.

Therefore, in view of the shortcomings of the prior art, it is urgently needed to design a BIM-based fabricated building component device to assist in improving the shock resistance and stability of a fabricated building.

SUMMERY OF THE UTILITY MODEL

Technical problem to be solved

Based on the structure, the utility model provides the BIM-based fabricated building component device, when the supporting column shakes, the device can extrude the spring through the extrusion plate, the ejector rod and the movable block, so that the influence of vibration on the supporting column can be reduced through the reaction force generated by the spring, the protection and anti-seismic effects on the fabricated building are further improved, and the sleeving installation mode is simple and convenient.

(II) technical scheme

In order to solve the technical problem, the utility model provides an assembly type building component device based on BIM, which comprises a positioning plate and positioning frames fixedly connected to the lower surface of the positioning plate, wherein assembly holes are formed in the upper surfaces of the positioning plate and the positioning frames, the assembly holes are used for allowing a supporting column to pass through, lead screws are in threaded connection with the left side and the right side of the positioning frames, the two lead screws can be respectively abutted to one side of the two movable frames through rotation of opposite ends, two fixing grooves are formed in the other side of each movable frame, the fixing grooves are connected to two extrusion plates through elastic buffering parts, and the two extrusion plates arranged on the left side and the right side are used for abutting to the left side and the right side of the supporting column.

Preferably, the left side and the right side of the positioning frame are both provided with limiting rods, and the opposite ends of the two limiting rods are respectively connected with one side of the two movable frames.

Preferably, the inner wall fixedly connected with sleeve of fixed slot, telescopic inner wall fixedly connected with spring, telescopic inner wall sliding connection has the movable block, the side fixedly connected with ejector pin of movable block, the spring is kept away from the telescopic inner wall one end with movable block fixed connection, telescopic side seted up with the round hole of ejector pin looks adaptation, the ejector pin is kept away from the one end fixedly connected with of movable block the stripper plate.

Preferably, when the supporting column is a cylindrical supporting column, the extrusion plate is specifically an arc-shaped extrusion plate.

Preferably, when the support column is the support column of four square columns type, still equal threaded connection in both sides has the lead screw around the locating frame, two the lead screw can rotate through the looks remote site and butt respectively to one side of two movable frames, has all seted up two fixed slots on one side in addition of every movable frame, the fixed slot is connected to two stripper plates through the elastic buffer part, sets up from beginning to end two stripper plates are used for the butt extremely both sides around the support column.

Preferably, four screw holes are formed in the upper surface of the positioning plate, a mounting bolt is connected to the inner wall of each screw hole in a threaded manner, and a locking nut is connected to the surface of each mounting bolt in a threaded manner.

Preferably, the surface of the mounting bolt and the lower surface of the positioning plate are fixedly connected with four first sealing gaskets and four second sealing gaskets respectively.

Preferably, the positions of the four second sealing gaskets are respectively arranged corresponding to the positions of the four screw holes.

(III) advantageous effects

Compared with the prior art, the assembled building component device based on the BIM has the advantages that:

1. this assembled building element device based on BIM, establish the locating frame cover on the support column surface, utilize construction bolt to be connected the lower fixed surface of locating plate and prefabricated floor simultaneously, rotate two lead screws, make two movable frames remove to the opposite face, and then drive two stripper plates and support the surface of support column tightly, when the support column produces and rocks, through stripper plate, ejector pin and movable block extrusion spring, the reaction force that produces through the spring can reduce the influence of vibrations to the support column, and then improved the protecting effect to the house.

2. This assembly type building element device's based on BIM locating plate passes through the lower fixed surface of construction bolt and precast floor slab to be connected, and construction bolt fixes a position construction bolt through lock nut after the spiral shell is tight, and the top of construction bolt compresses tightly first sealed pad this moment, and lock nut compresses tightly the sealed pad of second, and then has improved the leakproofness between locating plate and the precast floor slab, has improved water-proof effects.

3. This assembly type structure component device's dismouting mode is simple convenient, can also select the stripper plate that corresponds the type through the concrete shape of support column and stabilize the support column, and application scope is wide.

Drawings

The features and advantages of the present invention will be more clearly understood by reference to the accompanying drawings, which are schematic and are not to be understood as limiting the utility model in any way, and in which:

FIG. 1 is a schematic front sectional view of a BIM-based fabricated building component assembly of the present invention;

FIG. 2 is an enlarged view of the structure at A in FIG. 1;

fig. 3 is a perspective view illustrating a BIM-based prefabricated building component assembly according to the present invention.

In the figure: the device comprises a positioning plate 1, a positioning frame 2, a screw rod 3, a limiting rod 4, a movable frame 5, a sleeve 6, a spring 7, a movable block 8, a push rod 9, an extrusion plate 10, an installation bolt 11, a first sealing gasket 12 and a second sealing gasket 13.

Detailed Description

In order to make the aforementioned objects, features and advantages of the present invention comprehensible, embodiments accompanied with figures are described in detail below. In the following description, numerous specific details are set forth in order to provide a thorough understanding of the present invention. This invention may, however, be embodied in many different forms and should not be construed as limited to the embodiments set forth herein, but rather should be construed as broadly as the present invention is capable of modification in various respects, all without departing from the spirit and scope of the present invention.

In the description of the present invention, it is to be noted that, unless otherwise explicitly specified or limited, the terms "connected" and "connected" are to be interpreted broadly, e.g., as being fixed or detachable or integrally connected; the two elements may be mechanically, electrically, directly or indirectly connected through an intermediate medium, or may be interconnected internally or "drivingly connected", i.e., dynamically connected through any suitable means, such as belt drive, gear drive or sprocket drive. The specific meanings of the above terms in the present invention can be understood in specific cases to those skilled in the art.

As shown in fig. 1 to 3, the present invention provides a BIM-based assembly type building component device, which includes a positioning plate 1 and a positioning frame 2 fixedly connected to a lower surface of the positioning plate 1, wherein both upper surfaces of the positioning plate 1 and the positioning frame 2 are provided with assembly holes for passing through a support column, both left and right sides of the positioning frame 2 are in threaded connection with lead screws 3, the two lead screws 3 can respectively abut against one side of two movable frames 5 through rotation of opposite ends, the other side of each movable frame 5 is provided with two fixing grooves (four fixing grooves in total), the fixing grooves are connected to two extrusion plates 10 through elastic buffer components, and the two extrusion plates 10 arranged on the left and right sides are used for abutting against the left and right sides of the support column.

In one embodiment, the specific manner that the fixed groove is connected to the two extrusion plates 10 through the elastic buffer component is as shown in fig. 2, the inner wall of the fixed groove is fixedly connected with the sleeve 6, the inner wall of the sleeve 6 is fixedly connected with the spring 7, the inner wall of the sleeve 6 is slidably connected with the movable block 8, the side surface of the movable block 8 is fixedly connected with the ejector rod 9, one end of the spring 7 far away from the inner wall of the sleeve 6 is fixedly connected with the movable block 8, the side surface of the sleeve 6 is provided with a round hole matched with the ejector rod 9, and the ejector rod 9 is far away from one end of the movable block 8 and is fixedly connected with the extrusion plates 10.

It should be noted that, as shown in fig. 1, when the supporting column is a cylindrical supporting column, the extrusion plates 10 are selected to be arc-shaped extrusion plates, at this time, two arc-shaped extrusion plates can form a cylinder to wrap the supporting column, and the fixing of the supporting column can be completed only by two semicircular arc-shaped extrusion plates.

However, when the supporting column is a square column type supporting column, in order to further achieve the four-sided shock absorption protection function of front, back, left and right, two extrusion plates 10 are further required to be arranged at the front and back ends of the supporting column, and the extrusion plates may be planar extrusion plates adapted to the surface shape of the square column. At this moment, can be in the equal threaded connection in both sides around the posting 2 have lead screw 3, and two lead screws 3 can rotate through the looks remote site and butt respectively to one side of two activity frames 5, have all seted up two fixed slots (four fixed slots in total) on the other one side of every activity frame 5, and the fixed slot is connected to two stripper plates 10 that set up around through the elastic buffer part, and two stripper plates 10 that set up around are used for butt joint to both sides around the support column.

As shown in fig. 3, can establish the 2 covers of locating frame on the support column surface, utilize construction bolt 11 to be connected locating plate 1 and precast floor's lower surface fixed simultaneously, rotate two lead screws 3, can make two movable frame 5 remove to the opposite face, and then drive two stripper plates 10 and support the surface of support column tightly, when the support column produces and rocks, through stripper plate 10, ejector pin 9 and 8 extrusion spring 7 of movable block, the reaction force that produces through spring 7 can reduce the influence of vibrations to the support column, and then improved the protecting effect to the house.

Four screw holes are formed in the upper surface of the positioning plate 1, a mounting bolt 11 is connected to the inner wall of each screw hole in a threaded manner, a locking nut is connected to the surface of the mounting bolt 11 in a threaded manner, four first sealing gaskets 12 and four second sealing gaskets 13 are fixedly connected to the surface of the mounting bolt 11 and the lower surface of the positioning plate 1 respectively, and the positions of the four second sealing gaskets 13 correspond to the positions of the four screw holes respectively. The lower fixed surface that locating plate 1 passes through mounting bolt 11 and prefabricated floor is connected, and mounting bolt 11 fixes a position mounting bolt 11 through lock nut after the spiral shell is tight, and the top of mounting bolt 11 compresses tightly first sealed pad 12 this moment, and lock nut compresses tightly the sealed 13 of second, and then has improved the leakproofness between locating plate 1 and the prefabricated floor, has improved water-proof effects.

Further, for further assisting lead screw 3 to accomplish fixedly to the support column, the left and right sides of locating frame 2 all is equipped with gag lever post 4, two gag lever posts 4's the looks remote site respectively with one side fixed connection of two movable frames 5, through the spacing and the load effect of fixed gag lever post 4 to it is not hard up to prevent that lead screw 3 from appearing.

To further illustrate the advantages of the present BIM-based prefabricated building component assembly, the operation of the assembly is described in detail as follows:

when using this assembled building element device, at first establish the surface at the support column with 2 covers of locating frame, utilize construction bolt 11 to be connected the lower fixed surface of locating plate 1 and prefabricated floor simultaneously, construction bolt 11 compresses tightly first sealed pad 12 this moment, lock nut compresses tightly the sealed 13 of second of locating plate 1 lower surface, two sealed pads produce deformation and compress tightly the screw, improve the leakproofness, and then waterproof effect has been improved, rotate two lead screws 3, make two movable frames 5 drive stripper plate 10 and support the support column tightly, when taking place vibrations, the support column drives stripper plate 10, ejector pin 9 and movable block 8 extrusion spring 7, the reaction force that produces through spring 7 reduces the influence of vibrations to prefabricated floor and support column, and then improved the protective effect to the house, it is safe convenient more during the use.

Although the embodiments of the present invention have been described in conjunction with the accompanying drawings, those skilled in the art can make various modifications and variations without departing from the spirit and scope of the utility model, and such modifications and variations fall within the scope defined by the appended claims.

Claims (8)

1. The utility model provides an assembled building element device based on BIM, its characterized in that, including locating plate and fixed connection be in the locating frame of locating plate lower surface, the pilot hole has all been seted up to the upper surface of locating plate and locating frame, the pilot hole is used for passing the support column, the equal threaded connection in the left and right sides of locating frame has the lead screw, two the lead screw can rotate through the looks remote site and butt joint respectively to one side of two activity frames, has all seted up two fixed slots on one side in addition of every activity frame, the fixed slot passes through the elastic buffer part and is connected to two stripper plates, controls the setting two stripper plates are used for butt joint to the left and right sides of support column.

2. The BIM-based fabricated building component device according to claim 1, wherein both left and right sides of the location frame are provided with a stopper bar, and opposite ends of the two stopper bars are connected with one side of the two movable frames, respectively.

3. The BIM-based assembled building component device according to claim 1, wherein a sleeve is fixedly connected to the inner wall of the fixing groove, a spring is fixedly connected to the inner wall of the sleeve, a movable block is slidably connected to the inner wall of the sleeve, a push rod is fixedly connected to the side surface of the movable block, one end of the spring, which is far away from the inner wall of the sleeve, is fixedly connected to the movable block, a circular hole matched with the push rod is formed in the side surface of the sleeve, and one end of the push rod, which is far away from the movable block, is fixedly connected to the extrusion plate.

4. The BIM-based fabricated building component device of claim 1, wherein the pressing plate is specifically an arc-shaped pressing plate when the supporting column is a cylindrical supporting column.

5. The BIM-based fabricated building element device according to claim 1, wherein when the supporting column is a square column type supporting column, the front and rear sides of the positioning frame are both screw-connected with lead screws, the two lead screws can be respectively abutted to one side of the two movable frames through rotation of opposite ends, the other side of each movable frame is provided with two fixing grooves, the fixing grooves are connected to the two extrusion plates through elastic buffer members, and the two extrusion plates arranged in the front and rear directions are used for abutting to the front and rear sides of the supporting column.

6. The BIM-based fabricated building component assembly of claim 1, wherein the positioning plate has four screw holes formed on an upper surface thereof, and a mounting bolt is threadedly coupled to an inner wall of each screw hole, and a locking nut is threadedly coupled to a surface of the mounting bolt.

7. The BIM-based fabricated building component assembly of claim 6, wherein four first and second gaskets are fixedly coupled to the surface of the mounting bolt and the lower surface of the positioning plate, respectively.

8. The BIM-based prefabricated building component assembly of claim 7, wherein the positions of the four second gaskets are respectively disposed corresponding to the positions of the four screw holes.

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