CN211016213U - Building construction simulation device based on BIM - Google Patents

Abstract

The utility model discloses a device of construction simulation based on BIM relates to construction analogue means technical field, including the simulation platform, one side swing joint of simulation platform has the arm-tie, the bottom fixed connection organism of simulation platform, the bottom fixedly connected with base of organism, the bottom swing joint of base has the universal wheel, one side swing joint of organism has the chamber door, one side swing joint of organism has the crank. The building construction simulation device based on the BIM can realize the combination of image information and entity information by the matching arrangement of the simulation platform, the machine body, the crank, the gear, the worm, the screen platform and the screen, and solves the problem that the prior practical simulation mode combining the simulation platform and the machine body is lacked; through simulation platform and arm-tie cooperation setting, can be when carrying out real simulation and information simulation, increase simulation platform's usable floor area has solved the current inconvenient condition of little use of simulation platform area.

Description

A device for building construction simulation based on BIM

technical field

The utility model relates to the technical field of building construction simulation devices, in particular to a BIM-based building construction simulation device.

Background technique

Building Information Modeling is a new tool for architecture, engineering and civil engineering. The term Building Information Modeling or Building Information Modeling was coined by the Oakett Corporation. It is used to describe computer-aided design that is mainly based on three-dimensional graphics, object-oriented, and architecture. The core of BIM is to establish a virtual three-dimensional model of construction engineering and use digital technology to provide a complete and actual construction engineering information database for this model. The information base not only contains the geometric information, professional attributes and state information describing building components, but also contains the state information of non-component objects (such as space and motion behavior). With the help of this three-dimensional model containing construction engineering information, the information integration degree of construction engineering is greatly improved, thereby providing a platform for the exchange and sharing of engineering information for the stakeholders of the construction engineering project. BIM has the following characteristics: it can be applied not only in design, but also in the whole life cycle of construction projects; design with BIM belongs to digital design; the database of BIM is dynamic, and is constantly updated and Enriching and enriching; providing a platform for all parties involved in the project to work together. my country's BIM standard is being researched and formulated, and the research team has achieved phased results. The BIM building construction simulation device enables the construction personnel to have an intuitive understanding of the entire construction process and results.

The existing BIM building construction simulation device has the following disadvantages:

1. The results of only using information simulation are not as intuitive as the physical model, and there is a lack of a practical simulation method that combines the two;

2. The information screen occupies a large area, which is inconvenient for construction personnel to use paper drawings to record and study them, and is not convenient enough to use.

Utility model content

(1) Technical problems solved

Aiming at the deficiencies of the prior art, the utility model provides a BIM-based building construction simulation device. By fixedly connecting an organic body at the bottom of the simulation table, one side of the body is movably connected with a crank handle, and one side of the gear is meshed with a worm. , the top of the worm is movably connected with a screen stage, and one side of the simulation stage is movably connected with a pull plate, which solves the problems raised in the above background technology.

(2) Technical solutions

In order to achieve the above purpose, the present invention is achieved through the following technical solutions: a BIM-based building construction simulation device, comprising a simulation table, one side of the simulation table is movably connected with a pull plate, and the bottom of the simulation table is fixed. A body is connected, a base is fixedly connected to the bottom of the body, a universal wheel is movably connected to the bottom of the base, a chassis door is movably connected to one side of the body, and a crank handle is movably connected to one side of the body, so the One end of the crank handle is fixedly connected with a gear, one side of the gear is meshed with a worm, the top of the worm is movably connected with a screen stage, the top of the screen stage is fixedly connected with a screen, and the bottom of the screen is fixedly connected with a wire A main casing is fixedly connected to one end of the wire sleeve away from the screen, and a baffle is fixedly connected to the inside of the body.

Optionally, a chute is provided inside the simulation table, and the chute of the simulation table is adapted to the pull plate.

Optionally, the pull plate is made of aluminum alloy, and one side of the pull plate is fixedly connected with a limit block.

Optionally, the number of the universal wheels is four, the four universal wheels are movably connected to the four corners of the base, and one side of the four universal wheels is movably connected to a spacer.

Optionally, the cabinet door is movably connected to the body through hinges, and the height of the cabinet door is greater than the height of the main cabinet.

Optionally, the gear is fixedly connected to the crank handle through a connecting rod, a worm head is fixedly connected to the top plate of the worm, and the worm head of the worm is movably connected to the screen table.

(3) Beneficial effects

The utility model provides a BIM-based building construction simulation device, which has the following beneficial effects:

1. This BIM-based building construction simulation device uses a fixed connection to the bottom of the simulation table, where a solid building model can be placed on the simulation table. A crank handle is movably connected to one side of the body, and a worm is meshed with one side of the gear. , the top of the worm is movably connected with a screen table, which can be lifted and lowered by rotating the crank handle, so that the image information in the screen can be combined with the physical model on the simulation table, and through the simulation table, the body, the crank handle, the gear, the worm The coordinating setting of the screen stage and the screen enables the simulation device to realize the combination of image information and entity information, and solves the situation that the existing simulation mode lacks practical combination of the two.

2. This BIM-based building construction simulation device is movably connected with pull plates on one side of the simulation table. When the pull plates are combined, all building models can be set on the simulation table. When the pull plates are opened, the screen rises, and the original The space belonging to the model becomes smaller and can be set on the pull plate. The pull plate can be used by construction personnel to place drawings and bring their own electronic equipment. It is very convenient and practical. Simultaneously with the information simulation, the usable area of the simulation platform is increased, which solves the inconvenient use of the existing simulation platform due to its small area.

Description of drawings

Fig. 1 is the first perspective structure schematic diagram of the present invention;

FIG. 2 is a schematic structural diagram of a second viewing angle of the present invention;

FIG. 3 is a cross-sectional structural schematic diagram of the front view of the utility model.

In the picture: 1- analog table, 2- pull plate, 3- body, 4- base, 5- universal wheel, 6- case door, 7- rocker, 8- gear, 9- worm, 10- screen table, 11-screen, 12-wire cover, 13-main box, 14-partition.

Detailed ways

The technical solutions in the embodiments of the present utility model will be clearly and completely described below with reference to the accompanying drawings in the embodiments of the present utility model. Obviously, the described embodiments are only a part of the embodiments of the present utility model, rather than all the implementations. example.

Please refer to FIG. 1 to FIG. 3 , the present invention provides a technical solution: a BIM-based building construction simulation device, comprising a simulation table 1 , a pull plate 2 is movably connected to one side of the simulation table 1 , and a The bottom is fixedly connected with the body 3, the bottom of the body 3 is fixedly connected with the base 4, the bottom of the base 4 is movably connected with a universal wheel 5, one side of the body 3 is movably connected with a chassis door 6, and one side of the body 3 is movably connected with a crank handle 7. One end of the crank handle 7 is fixedly connected with a gear 8, one side of the gear 8 is engaged with a worm 9, the top of the worm 9 is movably connected with a screen stage 10, the top of the screen stage 10 is fixedly connected with a screen 11, and the bottom of the screen 11 is fixed The cable cover 12 is connected, the main box 13 is fixedly connected to the end of the cable cover 12 away from the screen 11 , and the partition 14 is fixedly connected to the inside of the body 3 .

As a preferred technical solution of the present utility model: the interior of the simulation table 1 is provided with a chute, the chute of the simulation table 1 is adapted to the pull plate 2, the pull plate 2 moves in the chute of the simulation table 1, and the pull plate 2 The material is aluminum alloy, and one side of the pull plate 2 is fixedly connected with a limit block. When the pull plate 2 reaches the maximum length of the pull position, the limit block pull plate 2 is limited and fixed, and the number of universal wheels 5 is four , the four universal wheels 5 are movably connected to the four corners of the base 4, and one side of the four universal wheels 5 is movably connected to the limit piece, the device moves freely through the universal wheel 5, and the position is fixed by the limit piece, The chassis door 6 is movably connected with the body 3 through hinges. The height of the chassis door 6 is greater than the height of the main chassis 13, and the chassis 13 can be moved out. The worm head, the worm head of the worm 9 is movably connected with the screen table 10, the crank handle 7 is rotated, the gear 8 rotates accordingly, the worm 9 spirally rises, the screw head rotates in the screen table 10 and lifts the screen table 10 to rise, the wire sleeve 12 Passing through the screen stage 10 , the wire sleeve 12 passes through the partition plate 14 , and the wire sleeve 12 has a fixed passage in the body 3 to keep it away from the gear 8 and the worm 9 .

When the user uses it, place the solid model on the simulation table 1 to have a clear understanding of the simulation results, pull out the pull plate 2, turn the crank handle 7, the gear 8 rotates along with it, the worm 9 spirally rises, and the screw head is on the screen table 10. Rotate inside and lift up the screen table 10 to rise, the construction process is displayed on the screen 11 , and architectural models, drawings and various electronic devices are placed on the drawing board 2 and the simulation table 1 .

To sum up, the BIM-based building construction simulation device, when in use, is fixedly connected to the body 3 at the bottom of the simulation table 1, and a solid building model can be placed on the simulation table 1. The crank handle 7, the gear 8 is meshed with a worm 9 on one side, and the top of the worm 9 is movably connected with the screen stage 10, and the screen stage 10 can be lifted and lowered by rotating the crank handle 7, so that the image information in the screen 11 can be matched with the simulation stage 1. The combination of the physical model on the device, through the coordination of the simulation table 1, the body 3, the crank handle 7, the gear 8, the worm 9, the screen table 10 and the screen 11, the simulation device can realize the combination of image information and entity information, solving the problem of The existing lack of a practical simulation method combining the two; by movably connecting a pull plate 2 on one side of the simulation table 1, when the pull plate 2 is merged, all architectural models can be set on the simulation table 1, and the pull plate 2 When pulled open, the screen 11 rises, and the space originally belonging to the model becomes smaller. It can be set on the pull plate 2. The pull plate 2 can be used by construction personnel to place drawings and bring their own electronic equipment. It is very convenient and practical. 1 and the pulling plate 2 are arranged in cooperation, which can increase the usable area of the simulation table 1 while performing physical simulation and information simulation, and solve the situation that the existing simulation table has a small area and is inconvenient to use.

The above description is only a preferred embodiment of the present invention, but the protection scope of the present invention is not limited to this. Equivalent replacement or modification of the new technical solution and its utility model concept shall be included within the protection scope of the present utility model.

Claims (7)

1. The utility model provides a device of building construction simulation based on BIM which characterized in that: comprises a simulation platform (1), one side of the simulation platform (1) is movably connected with a pulling plate (2), the bottom of the simulation platform (1) is fixedly connected with a machine body (3), the bottom of the machine body (3) is fixedly connected with a base (4), the bottom of the base (4) is movably connected with a universal wheel (5), one side of the machine body (3) is movably connected with a machine box door (6), one side of the machine body (3) is movably connected with a crank (7), one end of the crank (7) is fixedly connected with a gear (8), one side of the gear (8) is meshed with a worm (9), the top of the worm (9) is movably connected with a screen platform (10), the top of the screen platform (10) is fixedly connected with a screen (11), the bottom of the screen (11) is fixedly connected with a wire sleeve (12), one end of the wire sleeve (12) far away from the screen (11) is fixedly connected with a main machine, the inside of the machine body (3) is fixedly connected with a clapboard (14).

2. The BIM-based building construction simulation apparatus of claim 1, wherein: a sliding groove is formed in the simulation platform (1), and the sliding groove of the simulation platform (1) is matched with the pulling plate (2).

3. The BIM-based building construction simulation apparatus of claim 1, wherein: the pulling plate (2) is made of aluminum alloy, and a limiting block is fixedly connected to one side of the pulling plate (2).

4. The BIM-based building construction simulation apparatus of claim 1, wherein: the quantity of universal wheel (5) is four, four universal wheel (5) swing joint is in the four corners department of base (4), four one side swing joint of universal wheel (5) has spacing piece.

5. The BIM-based building construction simulation apparatus of claim 1, wherein: the machine box door (6) is movably connected with the machine body (3) through a hinge, and the height of the machine box door (6) is larger than that of the main machine box (13).

6. The BIM-based building construction simulation apparatus of claim 1, wherein: the gear (8) is fixedly connected with the crank (7) through a connecting rod, the top plate of the worm (9) is fixedly connected with a worm rod head, and the worm rod head of the worm (9) is movably connected with the screen table (10).

7. The BIM-based building construction simulation apparatus of claim 1, wherein: the wire sleeve (12) penetrates through the screen platform (10), and the wire sleeve (12) penetrates through the partition board (14).

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