CN210165947U

CN210165947U - Clear height detection device based on BIM

Info

Publication number: CN210165947U
Application number: CN201920886205.2U
Authority: CN
Inventors: 李谦
Original assignee: THIRD ENGINEERING Co Ltd OF CCCC SECOND HIGHWAY ENGINEERING BUREAU
Current assignee: THIRD ENGINEERING Co Ltd OF CCCC SECOND HIGHWAY ENGINEERING BUREAU; CCCC SHEC Third Highway Engineering Co Ltd
Priority date: 2019-06-13
Filing date: 2019-06-13
Publication date: 2020-03-20
Anticipated expiration: 2029-06-13

Abstract

The utility model discloses a BIM-based net height detection device, which relates to the technical field of building engineering and comprises a movable base and a supporting plate arranged above the movable base, wherein the upper part of the supporting plate is provided with a detection device, the front and rear mirror images of the movable base are provided with anti-collision buffer mechanisms, the upper end of the movable base is an inwards concave cavity structure, a lifting component is vertically arranged in the cavity structure, the lifting end of the lifting component penetrates through the movable base, the lifting end of the lifting component is provided with a supporting cushion block, the lower end of the supporting plate is provided with a support frame, the lower end of the support frame is connected with the bottom of the cavity structure through a spring damper, and the mirror images in the chute are provided with oppositely arranged protective covers, the utility model has simple structure, can effectively eliminate the transverse impact force generated in the use process and the vibration caused by bumping in the longitudinal direction, and can effectively protect and, the service life of the detection device is prolonged, and the influence of external factors on the measurement data is reduced.

Description

Clear height detection device based on BIM

Technical Field

The utility model relates to a building engineering technical field, concretely relates to net height detection device based on BIM.

Background art:

the BIM (Building Information Modeling) is used for Building a Building model based on various relevant Information data of a construction project. When the building is constructed, engineering detection needs to be carried out on the building and the building is compared with a set BIM model, wherein the detection of the net height after the pipeline is installed on the building is an important work in the engineering detection, however, the detection device used at present is inconvenient to use in the detection process, is easy to damage due to collision and bumping, is not protected, and the maintenance cost of the device is greatly increased.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a net height detection device based on BIM to solve the above-mentioned multinomial defect that leads to among the prior art.

A BIM-based net height detection device comprises a moving base and a supporting plate arranged above the moving base, wherein the detecting device is arranged above the supporting plate and comprises a tablet personal computer, a range finder, a GPS (global positioning system) positioner and a gyroscope thereof, the range finder, the GPS positioner and the gyroscope thereof are all connected with the tablet personal computer, anti-collision buffer mechanisms are arranged in front of and behind the moving base in a mirror image manner, the upper end of the moving base is of an inwards concave cavity structure, a columnar groove is arranged at the lower end of the moving base, a lifting assembly is vertically arranged in the cavity structure, the lifting end of the lifting assembly penetrates through the moving base and extends into the columnar groove, a supporting cushion block is arranged at the lifting end of the lifting assembly, a support frame is arranged at the lower end of the supporting frame, the lower end of the support frame is connected with the bottom of the cavity structure through a spring damper, and sliding chutes are, the protection casing that sets up in opposite directions is installed like the mirror in the spout, the inner wall and the spout sliding contact of the lower extreme of protection casing, two-way linear drive subassembly is installed to the upper end of layer board, and one of them drive end and one of them protection casing of two-way linear drive subassembly are connected, and another drive end and another protection casing of two-way linear drive subassembly are connected, can cover detection device when two protection casings contact.

Preferably, the range finder and the tablet computer are both installed on the upper end face of the supporting plate, the tablet computer is installed on the upper end of the supporting plate through a bracket, a shell of the tablet computer is in running fit with the bracket through a short shaft, a micro stepping motor is installed at the side end of the bracket, and a driving end of the micro stepping motor is connected with one of the short shafts.

Preferably, remove base internally mounted have rechargeable power supply and controller, and the outside manual control equipment of controller wireless connection, rechargeable power supply is connected with the controller, and panel computer, distancer, GPS locator, gyroscope, lifting unit, two-way linear drive subassembly and miniature step motor thereof are equallyd divide and are connected with rechargeable power supply and controller respectively.

Preferably, anticollision buffer gear comprises spring, baffle and rubber gasket, and the back of baffle passes through the spring and is connected with the outer wall that removes the base, and the vertical setting of baffle, and the rubber gasket bonds in the front of baffle.

Preferably, the GPS locator and the gyroscope are mounted at the lower end of the support plate.

Preferably, the lifting assemblies are three and distributed in a triangular shape, and a supporting cushion block is installed at the lifting end of each lifting assembly.

The utility model has the advantages that: when the utility model is used, an operator manually pushes the utility model to a designated measuring position, then the driving end of the lifting component is started to expand, so that the supporting cushion block moves downwards from the columnar groove and is in close contact with the ground, thereby jacking up the utility model, preventing the utility model from moving and shaking on the ground when in use, improving the accuracy of measured data, then the two driving ends of the two-way linear driving component are started to expand, the protective cover with two end faces in contact moves towards opposite directions along the extending direction of the chute, thereby exposing the tablet computer and the distance meter thereof, then carrying out detection operation, when in detection, the tablet computer, the GPS locator and the distance meter are started, the tablet computer is used for reading the height of the building floor provided with the RFID label, and the distance meter detects the clear height after the pipeline is installed on the building floor, the GPS locator locates the geographic position of the range finder, the data detected by the range finder and the locating data of the GPS locator are transmitted to the tablet personal computer through Bluetooth, the related data are compared with a BIM (building information modeling) model in the tablet personal computer, and if the requirements are not met, an alarm is sent out through the tablet personal computer, so that the clear height detection operation is completed;

in the utility model, the anti-collision buffer mechanisms are arranged in front of and behind the movable base, so that the generated transverse collision force can be buffered; the bracket at the lower end of the supporting plate is connected with the bottom of the cavity structure through a spring damper, so that the vibration caused by bumping in the moving process in the longitudinal direction can be buffered, and the utility model can be protected to a certain extent;

by arranging the protective cover at the upper end of the supporting plate, when the utility model is not in use, the two protective covers are driven to move oppositely by the bidirectional linear driving assembly, so that a relatively closed protective area is formed between the protective cover and the supporting plate, the tablet personal computer and the range finder thereof can be protected, and the service life of the tablet personal computer and the range finder thereof is prolonged;

the utility model discloses simple structure, can effectual elimination produced lateral impact in the use and vertically because of jolting the vibration that brings, can carry out effectual protection and protection to detection device, prolonged detection device's life, reduced external factor to measured data's influence.

Drawings

FIG. 1 is a schematic view of the present invention in use;

FIG. 2 is a schematic view of the present invention in a non-use state;

FIG. 3 is a schematic block diagram of the present invention in use;

wherein: 1-a movable base, 2-a cavity structure, 3-a waist-shaped groove, 4-a spring, 5-a stop block, 6-a rubber gasket, 7-a supporting plate, 8-a sliding groove, 9-a support frame, 10-a spring shock absorber, 11-a protective cover, 12-a bidirectional linear driving component, 13-a GPS positioner, 14-a gyroscope, 15-a tablet computer, 16-a distance meter, 17-a micro stepping motor, 18-a columnar groove, 19-a lifting component, 20-a supporting cushion block, 21-a rechargeable power supply, 22-a controller and 23-a manual control device.

Detailed Description

In order to make the technical means, creation features, achievement purposes and functions of the present invention easy to understand, the present invention is further described below with reference to the following embodiments.

As shown in fig. 1 to 3, a BIM-based clear height detection device comprises a mobile base 1 and a supporting plate 7 arranged above the mobile base 1, wherein a detection device is arranged above the supporting plate 7, the detection device comprises a tablet computer 15, a distance meter 16, a GPS locator 13 and a gyroscope 14 thereof, the distance meter 16, the GPS locator 13 and the gyroscope 14 thereof are all connected with the tablet computer 15, anti-collision buffer mechanisms are arranged on the front and rear mirror images of the mobile base 1, the upper end of the mobile base 1 is a concave cavity structure 2, the lower end of the mobile base 1 is provided with a cylindrical groove 18, a lifting component 19 is vertically arranged in the cavity structure 2, the lifting component 19 can be a lifting electric cylinder, the lifting end of the lifting component 19 penetrates through the mobile base 1 and extends into the cylindrical groove 18, and the lifting end of the lifting component 19 is provided with a supporting cushion block 20, the lower end of the supporting plate 7 is provided with a supporting frame 9, the lower end of the supporting frame 9 is connected with the bottom of the cavity structure 2 through a spring damper 10, the side wall of the cavity structure 2 is provided with a vertical waist-shaped groove 3, the side end of the supporting frame 9 is provided with a horizontal limiting rod, the limiting rod penetrates through the waist-shaped groove 3, the end faces of two sides of the supporting plate 7 are provided with sliding grooves 8, protective covers 11 which are oppositely arranged are arranged in the sliding grooves 8 in a mirror image mode, the inner wall of the lower end of each protective cover 11 is in sliding contact with the corresponding sliding groove 8, the upper end of the supporting plate 7 is provided with a bidirectional linear driving assembly 12, the bidirectional linear driving assembly 12 can be an electric cylinder, one driving end of the bidirectional linear driving assembly 12 is connected with one of the protective covers 11, the other driving end of the bidirectional linear driving assembly 12 is connected.

In this embodiment, distancer 16 and panel computer 15 all install the up end at layer board 7, panel computer 15 passes through the bracket to be installed in the upper end of layer board 7, and panel computer 15's shell passes through minor axis and bracket normal running fit, and the side of bracket installs a miniature step motor 17, and miniature step motor 17's drive end is connected with one of them minor axis, can adjust panel computer 15's angle of pitch through miniature step motor 17, and the staff of being convenient for carries out the regulation of angle according to actual conditions, is convenient for better observation.

In this embodiment, remove base 1 internally mounted have rechargeable power supply 21 (not shown in the figure) and controller 22 (not shown in the figure), and the outside manual control equipment of controller 22 wireless connection, come control controller 22's operating mode through manual control equipment, and then the operating mode of the relevant part of control, rechargeable power supply 21 is connected with controller 22, and panel computer 15, distancer 16, GPS locator 13, gyroscope 14, lifting unit 19, two-way linear drive subassembly 12 and its miniature step motor 17 equally divide and do not be connected with rechargeable power supply 21 and controller 22, can make the utility model relates to an solitary individual, improve the utility model discloses a use the flexibility.

In this embodiment, crashproof buffer gear comprises spring 4, baffle 5 and its rubber gasket 6, and spring 4 and the outer wall connection who removes base 1 are passed through to the back of baffle 5, and the vertical setting of baffle 5, and rubber gasket 6 bonds in the front of baffle 5.

In this embodiment, the GPS locator 13 and gyroscope 14 are mounted on the lower end of the pallet.

In this embodiment, the lifting assemblies 19 are three and distributed in a triangular shape, and a supporting cushion block 20 is installed at the lifting end of each lifting assembly 19.

When the utility model is used, an operator manually pushes the utility model to a designated measuring position, then the lifting component 19 is started, the driving end of the lifting component 19 is expanded, so that the supporting cushion block 20 moves downwards from the columnar groove 18 and is in close contact with the ground, thereby jacking up the utility model, preventing the utility model from moving and shaking on the ground when in use, improving the accuracy of measured data, then the bidirectional linear driving component 12 is started, the two driving ends of the bidirectional linear driving component 12 are expanded, the protective covers 11 in end surface contact move towards opposite directions along the extending direction of the sliding groove 8, thereby exposing the tablet computer 15 and the distance measuring instrument 16, then carrying out detection operation, when in detection, opening the tablet computer 15, the GPS locator 13 and the distance measuring instrument 16, using the tablet computer 15 to read the height of the building floor provided with the RFID label, the method comprises the steps that the distance meter detects the net height of a building floor after a pipeline is installed, the GPS positioner 13 positions the geographic position of the distance meter 16, data detected by the distance meter 16 and positioning data of the GPS positioner 13 are transmitted to the tablet personal computer 15 through Bluetooth, relevant data are compared with a BIM (building information model) in the tablet personal computer 15, and if the requirements are not met, an alarm is sent out through the tablet personal computer 15, so that the net height detection operation is completed;

in the utility model, the anti-collision buffer mechanisms are arranged in front of and behind the movable base 1, so that the generated transverse collision force can be buffered; the bracket at the lower end of the supporting plate 7 is connected with the bottom of the cavity structure 2 through a spring damper 10, so that the vibration caused by bumping in the moving process in the longitudinal direction can be buffered, and a certain protection effect can be realized on the utility model;

by arranging the protective cover 11 at the upper end of the supporting plate, the utility model drives the two protective covers 11 to move oppositely through the bidirectional linear driving component 12 when the device is not in use, so that a relatively closed protective area is formed between the protective cover 11 and the supporting plate 7, the tablet personal computer 15 and the distance meter 16 thereof can be protected, and the service life of the tablet personal computer 15 and the distance meter 16 thereof is prolonged;

It will be appreciated by those skilled in the art that the invention may be embodied in other specific forms without departing from the spirit or essential characteristics thereof. The embodiments disclosed above are therefore to be considered in all respects as illustrative and not restrictive. All changes which come within the scope of the invention or which are equivalent to the scope of the invention are embraced by the invention.

Claims

1. A net height detection device based on BIM comprises a mobile base (1) and a supporting plate (7) arranged above the mobile base (1), wherein a detection device is arranged above the supporting plate (7), the detection device comprises a tablet personal computer (15), a range finder (16), a GPS (global positioning system) locator (13) and a gyroscope (14) thereof, the range finder (16), the GPS (13) locator and the gyroscope (14) thereof are all connected with the tablet personal computer (15), the net height detection device is characterized in that anti-collision buffer mechanisms are arranged in front of and behind the mobile base (1), the upper end of the mobile base (1) is an inwards concave cavity structure (2), a columnar groove (18) is arranged at the lower end of the mobile base (1), a lifting component (19) is vertically arranged in the cavity structure (2), and the lifting end of the lifting component (19) penetrates through the mobile base (1), and extends into the column-shaped groove (18), and the lifting end of the lifting component (19) is provided with a supporting cushion block (20), the lower end of the supporting plate (7) is provided with a supporting frame (9), the lower end of the supporting frame (9) is connected with the bottom of the cavity structure (2) through a spring shock absorber (10), the two side end faces of the supporting plate (7) are provided with sliding chutes (8), the sliding chutes (8) are internally provided with oppositely arranged protective covers (11) in a mirror image manner, the inner wall of the lower end of each protective cover (11) is in sliding contact with the corresponding sliding chute (8), the upper end of the supporting plate (7) is provided with a bidirectional linear driving assembly (12), one driving end of the bidirectional linear driving assembly (12) is connected with one protective cover (11), the other driving end of the bidirectional linear driving assembly (12) is connected with the other protective cover (11), and the two protective covers (11) can cover the detection device when in contact.

2. The BIM-based clearance detection apparatus of claim 1, wherein: distancer (16) and panel computer (15) all install the up end at layer board (7), panel computer (15) pass through the bracket and install the upper end at layer board (7), and the shell of panel computer (15) passes through minor axis and bracket normal running fit, and the side of bracket installs a miniature step motor (17), and the drive end of miniature step motor (17) is connected with one of them minor axis.

3. The BIM-based clearance detection apparatus of claim 2, wherein: remove base (1) internally mounted has chargeable power supply (21) and controller (22), and controller (22) wireless connection outside manual control equipment, chargeable power supply (21) are connected with controller (22), and panel computer (15), distancer (16), GPS locator (13), gyroscope (14), lifting unit (19), two-way linear drive subassembly (12) and miniature step motor (17) are equallyd divide and are connected with chargeable power supply (21) and controller (22) respectively.

4. The BIM-based clearance detection apparatus of claim 1, wherein: anticollision buffer gear comprises spring (4), baffle (5) and rubber gasket (6), and the back of baffle (5) passes through spring (4) and the outer wall connection of removing base (1), and baffle (5) vertical setting, and rubber gasket (6) bond in the front of baffle (5).

5. The BIM-based clearance detection apparatus of claim 1, wherein: the GPS positioner (13) and the gyroscope (14) are arranged at the lower end of the supporting plate (7).

6. The BIM-based clearance detection apparatus of claim 1, wherein: the lifting assemblies (19) are three and distributed in a triangular shape, and a supporting cushion block (20) is installed at the lifting end of each lifting assembly (19).